α-Linked galactose is a common carbohydrate motif in nature that is processed by a variety of glycoside hydrolases from different families. Terminal Galα1–3Gal motifs are found as a defining feature of different blood group and tissue antigens, as well as the building block of the marine algal galactan λ-carrageenan. The blood group B antigen and linear α-Gal epitope can be processed by glycoside hydrolases in family GH110, whereas the presence of genes encoding GH110 enzymes in polysaccharide utilization loci from marine bacteria suggests a role in processing λ-carrageenan. However, the structure–function relationships underpinning the α-1,3-galactosidase activity within family GH110 remain unknown. Here we focus on a GH110 enzyme (PdGH110B) from the carrageenolytic marine bacterium Pseudoalteromonas distincta U2A. We showed that the enzyme was active on Galα1–3Gal but not the blood group B antigen. X-ray crystal structures in complex with galactose and unhydrolyzed Galα1–3Gal revealed the parallel β-helix fold of the enzyme and the structural basis of its inverting catalytic mechanism. Moreover, an examination of the active site reveals likely adaptations that allow accommodation of fucose in blood group B active GH110 enzymes or, in the case of PdGH110, accommodation of the sulfate groups found on λ-carrageenan. Overall, this work provides insight into the first member of a predominantly marine clade of GH110 enzymes while also illuminating the structural basis of α-1,3-galactoside processing by the family as a whole.

Cation diffusion facilitator (CDF) proteins are a conserved family of divalent transition metal cation transporters. CDF proteins are usually composed of two domains: the transmembrane domain, in which the metal cations are transported through, and a regulatory cytoplasmic C-terminal domain (CTD). Each CDF protein transports either one specific metal or multiple metals from the cytoplasm, and it is not known whether the CTD takes an active regulatory role in metal recognition and discrimination during cation transport. Here, the model CDF protein MamM, an iron transporter from magnetotactic bacteria, was used to probe the role of the CTD in metal recognition and selectivity. Using a combination of biophysical and structural approaches, the binding of different metals to MamM CTD was characterized. Results reveal that different metals bind distinctively to MamM CTD in terms of their binding sites, thermodynamics, and binding-dependent conformations, both in crystal form and in solution, which suggests a varying level of functional discrimination between CDF domains. Furthermore, these results provide the first direct evidence that CDF CTDs play a role in metal selectivity. We demonstrate that MamM's CTD can discriminate against Mn2+, supporting its postulated role in preventing magnetite formation poisoning in magnetotactic bacteria via Mn2+ incorporation.

Connexin (Cx) protein forms hemichannels and gap junctional channels, which play diverse and profound roles in human physiology and diseases. Gap junctions are arrays of intercellular channels formed by the docking of two hemichannels from adjacent cells. Each hexameric hemichannel contains the same or different Cx isoform. Although homomeric Cxs forms have been largely described functionally and structurally, the stoichiometry and arrangement of heteromeric Cx channels remain unknown. The latter, however, are widely expressed in human tissues and variation might have important implications on channel function. Investigating properties of heteromeric Cx channels is challenging considering the high number of potential subunit arrangements and stoichiometries, even when only combining two Cx isoforms. To tackle this problem, we engineered an HA tag onto Cx26 or Cx30 subunits and imaged hemichannels that were liganded by Fab-epitope antibody fragments via atomic force microscopy. For Cx26-HA/Cx30 or Cx30-HA/Cx26 heteromeric channels, the Fab-HA binding distribution was binomial with a maximum of three Fab-HA bound. Furthermore, imaged Cx26/Cx30-HA triple liganded by Fab-HA showed multiple arrangements that can be derived from the law of total probabilities. Atomic force microscopy imaging of ringlike structures of Cx26/Cx30-HA hemichannels confirmed these findings and also detected a polydisperse distribution of stoichiometries. Our results indicate a dominant subunit stoichiometry of 3Cx26:3Cx30 with the most abundant subunit arrangement of Cx26-Cx26-Cx30-Cx26-Cx30-Cx30. To our knowledge, this is the first time that the molecular architecture of heteromeric Cx channels has been revealed, thus providing the basis to explore the functional effect of these channels in biology.

High-throughput sequencing of hematologic malignancies and other cancers has revealed recurrent mis-sense mutations of genes encoding pre-mRNA splicing factors. The essential splicing factor U2AF2 recognizes a polypyrimidine-tract splice-site signal and initiates spliceosome assembly. Here, we investigate representative, acquired U2AF2 mutations, namely N196K or G301D amino acid substitutions associated with leukemia or solid tumors, respectively. We determined crystal structures of the wild-type (WT) compared with N196K- or G301D-substituted U2AF2 proteins, each bound to a prototypical AdML polypyrimidine tract, at 1.5, 1.4, or 1.7 Å resolutions. The N196K residue appears to stabilize the open conformation of U2AF2 with an inter-RNA recognition motif hydrogen bond, in agreement with an increased apparent RNA-binding affinity of the N196K-substituted protein. The G301D residue remains in a similar position as the WT residue, where unfavorable proximity to the RNA phosphodiester could explain the decreased RNA-binding affinity of the G301D-substituted protein. We found that expression of the G301D-substituted U2AF2 protein reduces splicing of a minigene transcript carrying prototypical splice sites. We further show that expression of either N196K- or G301D-substituted U2AF2 can subtly alter splicing of representative endogenous transcripts, despite the presence of endogenous, WT U2AF2 such as would be present in cancer cells. Altogether, our results demonstrate that acquired U2AF2 mutations such as N196K and G301D are capable of dysregulating gene expression for neoplastic transformation.

Intrinsically disordered protein domains often have multiple binding partners. It is plausible that the strength of pairing with specific partners evolves from an initial low affinity to a higher affinity. However, little is known about the molecular changes in the binding mechanism that would facilitate such a transition. We previously showed that the interaction between two intrinsically disordered domains, NCBD and CID, likely emerged in an ancestral deuterostome organism as a low-affinity interaction that subsequently evolved into a higher-affinity interaction before the radiation of modern vertebrate groups. Here we map native contacts in the transition states of the low-affinity ancestral and high-affinity human NCBD/CID interactions. We show that the coupled binding and folding mechanism is overall similar but with a higher degree of native hydrophobic contact formation in the transition state of the ancestral complex and more heterogeneous transient interactions, including electrostatic pairings, and an increased disorder for the human complex. Adaptation to new binding partners may be facilitated by this ability to exploit multiple alternative transient interactions while retaining the overall binding and folding pathway.

Iron is an essential micronutrient, and, in the case of bacteria, its availability is commonly a growth-limiting factor. However, correct functioning of cells requires that the labile pool of chelatable “free” iron be tightly regulated. Correct metalation of proteins requiring iron as a cofactor demands that such a readily accessible source of iron exist, but overaccumulation results in an oxidative burden that, if unchecked, would lead to cell death. The toxicity of iron stems from its potential to catalyze formation of reactive oxygen species that, in addition to causing damage to biological molecules, can also lead to the formation of reactive nitrogen species. To avoid iron-mediated oxidative stress, bacteria utilize iron-dependent global regulators to sense the iron status of the cell and regulate the expression of proteins involved in the acquisition, storage, and efflux of iron accordingly. Here, we survey the current understanding of the structure and mechanism of the important members of each of these classes of protein. Diversity in the details of iron homeostasis mechanisms reflect the differing nutritional stresses resulting from the wide variety of ecological niches that bacteria inhabit. However, in this review, we seek to highlight the similarities of iron homeostasis between different bacteria, while acknowledging important variations. In this way, we hope to illustrate how bacteria have evolved common approaches to overcome the dual problems of the insolubility and potential toxicity of iron.

Identification of antibody-binding epitopes is crucial to understand immunological mechanisms. It is of particular interest for allergenic proteins with high cross-reactivity as observed in the lipid transfer protein (LTP) syndrome, which is characterized by severe allergic reactions. Art v 3, a pollen LTP from mugwort, is frequently involved in this cross-reactivity, but no antibody-binding epitopes have been determined so far. To reveal human IgE-binding regions of Art v 3, we produced three murine high-affinity mAbs, which showed 70–90% coverage of the allergenic epitopes from mugwort pollen–allergic patients. As reliable methods to determine structural epitopes with tightly interacting intact antibodies under native conditions are lacking, we developed a straightforward NMR approach termed hydrogen/deuterium exchange memory (HDXMEM). It relies on the slow exchange between the invisible antigen-mAb complex and the free 15N-labeled antigen whose 1H-15N correlations are detected. Due to a memory effect, changes of NH protection during antibody binding are measured. Differences in H/D exchange rates and analyses of mAb reactivity to homologous LTPs revealed three structural epitopes: two partially cross-reactive regions around α-helices 2 and 4 as well as a novel Art v 3–specific epitope at the C terminus. Protein variants with exchanged epitope residues confirmed the antibody-binding sites and revealed strongly reduced IgE reactivity. Using the novel HDXMEM for NMR epitope mapping allowed identification of the first structural epitopes of an allergenic pollen LTP. This knowledge enables improved cross-reactivity prediction for patients suffering from LTP allergy and facilitates design of therapeutics.

Arabinogalactan proteins (AGPs) are plant proteoglycans with functions in growth and development. However, these functions are largely unexplored, mainly because of the complexity of the sugar moieties. These carbohydrate sequences are generally analyzed with the aid of glycoside hydrolases. The exo-β-1,3-galactanase is a glycoside hydrolase from the basidiomycete Phanerochaete chrysosporium (Pc1,3Gal43A), which specifically cleaves AGPs. However, its structure is not known in relation to its mechanism bypassing side chains. In this study, we solved the apo and liganded structures of Pc1,3Gal43A, which reveal a glycoside hydrolase family 43 subfamily 24 (GH43_sub24) catalytic domain together with a carbohydrate-binding module family 35 (CBM35) binding domain. GH43_sub24 is known to lack the catalytic base Asp conserved among other GH43 subfamilies. Our structure in combination with kinetic analyses reveals that the tautomerized imidic acid group of Gln263 serves as the catalytic base residue instead. Pc1,3Gal43A has three subsites that continue from the bottom of the catalytic pocket to the solvent. Subsite −1 contains a space that can accommodate the C-6 methylol of Gal, enabling the enzyme to bypass the β-1,6–linked galactan side chains of AGPs. Furthermore, the galactan-binding domain in CBM35 has a different ligand interaction mechanism from other sugar-binding CBM35s, including those that bind galactomannan. Specifically, we noted a Gly → Trp substitution, which affects pyranose stacking, and an Asp → Asn substitution in the binding pocket, which recognizes β-linked rather than α-linked Gal residues. These findings should facilitate further structural analysis of AGPs and may also be helpful in engineering designer enzymes for efficient biomass utilization.

Systemic antibody light chains (AL) amyloidosis is characterized by deposition of amyloid fibrils derived from a particular antibody light chain. Cardiac involvement is a major risk factor for mortality. Using MAS solid-state NMR, we studied the fibril structure of a recombinant light chain fragment corresponding to the fibril protein from patient FOR005, together with fibrils formed by protein sequence variants that are derived from the closest germline (GL) sequence. Both analyzed fibril structures were seeded with ex-vivo amyloid fibrils purified from the explanted heart of this patient. We find that residues 11-42 and 69-102 adopt β-sheet conformation in patient protein fibrils. We identify arginine-49 as a key residue that forms a salt bridge to aspartate-25 in the patient protein fibril structure. In the germline sequence, this residue is replaced by a glycine. Fibrils from the GL protein and from the patient protein harboring the single point mutation R49G can be both heterologously seeded using patient ex-vivo fibrils. Seeded R49G fibrils show an increased heterogeneity in the C-terminal residues 80-102, which is reflected by the disappearance of all resonances of these residues. By contrast, residues 11-42 and 69-77, which are visible in the MAS solid-state NMR spectra, show 13Cα chemical shifts that are highly like patient fibrils. The mutation R49G thus induces a conformational heterogeneity at the C terminus in the fibril state, whereas the overall fibril topology is retained. These findings imply that patient mutations in FOR005 can stabilize the fibril structure.

Replication protein A (RPA) is a eukaryotic ssDNA-binding protein and contains three subunits: RPA70, RPA32, and RPA14. Phosphorylation of the N-terminal region of the RPA32 subunit plays an essential role in DNA metabolism in processes such as replication and damage response. Phosphorylated RPA32 (pRPA32) binds to RPA70 and possibly regulates the transient RPA70-Bloom syndrome helicase (BLM) interaction to inhibit DNA resection. However, the structural details and determinants of the phosphorylated RPA32–RPA70 interaction are still unknown. In this study, we provide molecular details of the interaction between RPA70 and a mimic of phosphorylated RPA32 (pmRPA32) using fluorescence polarization and NMR analysis. We show that the N-terminal domain of RPA70 (RPA70N) specifically participates in pmRPA32 binding, whereas the unphosphorylated RPA32 does not bind to RPA70N. Our NMR data revealed that RPA70N binds pmRPA32 using a basic cleft region. We also show that at least 6 negatively charged residues of pmRPA32 are required for RPA70N binding. By introducing alanine mutations into hydrophobic positions of pmRPA32, we found potential points of contact between RPA70N and the N-terminal half of pmRPA32. We used this information to guide docking simulations that suggest the orientation of pmRPA32 in complex with RPA70N. Our study demonstrates detailed features of the domain-domain interaction between RPA70 and RPA32 upon phosphorylation. This result provides insight into how phosphorylation tunes transient bindings between RPA and its partners in DNA resection.

Aminopeptidase N (APN, CD13) is a transmembrane ectopeptidase involved in many crucial cellular functions. Besides its role as a peptidase, APN also mediates signal transduction and is involved in the activation of matrix metalloproteinases (MMPs). MMPs function in tissue remodeling within the extracellular space and are therefore involved in many human diseases, such as fibrosis, rheumatoid arthritis, tumor angiogenesis, and metastasis, as well as viral infections. However, the exact mechanism that leads to APN-driven MMP activation is unclear. It was previously shown that extracellular 14-3-3 adapter proteins bind to APN and thereby induce the transcription of MMPs. As a first step, we sought to identify potential 14-3-3–binding sites in the APN sequence. We constructed a set of phosphorylated peptides derived from APN to probe for interactions. We identified and characterized a canonical 14-3-3–binding site (site 1) within the flexible, structurally unresolved N-terminal APN region using direct binding fluorescence polarization assays and thermodynamic analysis. In addition, we identified a secondary, noncanonical binding site (site 2), which enhances the binding affinity in combination with site 1 by many orders of magnitude. Finally, we solved crystal structures of 14-3-3σ bound to mono- and bis-phosphorylated APN-derived peptides, which revealed atomic details of the binding mode of mono- and bivalent 14-3-3 interactions. Therefore, our findings shed some light on the first steps of APN-mediated MMP activation and open the field for further investigation of this important signaling pathway.

Abnormal changes of neuronal Tau protein, such as phosphorylation and aggregation, are considered hallmarks of cognitive deficits in Alzheimer's disease. Abnormal phosphorylation is thought to precede aggregation and therefore to promote aggregation, but the nature and extent of phosphorylation remain ill-defined. Tau contains ∼85 potential phosphorylation sites, which can be phosphorylated by various kinases because the unfolded structure of Tau makes them accessible. However, methodological limitations (e.g. in MS of phosphopeptides, or antibodies against phosphoepitopes) led to conflicting results regarding the extent of Tau phosphorylation in cells. Here we present results from a new approach based on native MS of intact Tau expressed in eukaryotic cells (Sf9). The extent of phosphorylation is heterogeneous, up to ∼20 phosphates per molecule distributed over 51 sites. The medium phosphorylated fraction Pm showed overall occupancies of ∼8 Pi (± 5) with a bell-shaped distribution; the highly phosphorylated fraction Ph had 14 Pi (± 6). The distribution of sites was highly asymmetric (with 71% of all P-sites in the C-terminal half of Tau). All sites were on Ser or Thr residues, but none were on Tyr. Other known posttranslational modifications were near or below our detection limit (e.g. acetylation, ubiquitination). These findings suggest that normal cellular Tau shows a remarkably high extent of phosphorylation, whereas other modifications are nearly absent. This implies that abnormal phosphorylations at certain sites may not affect the extent of phosphorylation significantly and do not represent hyperphosphorylation. By implication, the pathological aggregation of Tau is not likely a consequence of high phosphorylation.

The recent structural elucidation of ex vivo Drosophila Orb2 fibrils revealed a novel amyloid formed by interdigitated Gln and His residue side chains belonging to the prion-like domain. However, atomic-level details on the conformational transitions associated with memory consolidation remain unknown. Here, we have characterized the nascent conformation and dynamics of the prion-like domain (PLD) of Orb2A using a nonconventional liquid-state NMR spectroscopy strategy based on 13C detection to afford an essentially complete set of 13Cα, 13Cβ, 1Hα, and backbone 13CO and 15N assignments. At pH 4, where His residues are protonated, the PLD is disordered and flexible, except for a partially populated α-helix spanning residues 55–60, and binds RNA oligos, but not divalent cations. At pH 7, in contrast, His residues are predominantly neutral, and the Q/H segments adopt minor populations of helical structure, show decreased mobility and start to self-associate. At pH 7, the His residues do not bind RNA or Ca2+, but do bind Zn2+, which promotes further association. These findings represent a remarkable case of structural plasticity, based on which an updated model for Orb2A functional amyloidogenesis is suggested.

Programmed ribosomal frameshifting (PRF) is a mechanism used by arteriviruses like porcine reproductive and respiratory syndrome virus (PRRSV) to generate multiple proteins from overlapping reading frames within its RNA genome. PRRSV employs −1 PRF directed by RNA secondary and tertiary structures within its viral genome (canonical PRF), as well as a noncanonical −1 and −2 PRF that are stimulated by the interactions of PRRSV nonstructural protein 1β (nsp1β) and host protein poly(C)-binding protein (PCBP) 1 or 2 with the viral genome. Together, nsp1β and one of the PCBPs act as transactivators that bind a C-rich motif near the shift site to stimulate −1 and −2 PRF, thereby enabling the ribosome to generate two frameshift products that are implicated in viral immune evasion. How nsp1β and PCBP associate with the viral RNA genome remains unclear. Here, we describe the purification of the nsp1β:PCBP2:viral RNA complex on a scale sufficient for structural analysis using small-angle X-ray scattering and stochiometric analysis by analytical ultracentrifugation. The proteins associate with the RNA C-rich motif as a 1:1:1 complex. The monomeric form of nsp1β within the complex differs from previously reported homodimer identified by X-ray crystallography. Functional analysis of the complex via mutational analysis combined with RNA-binding assays and cell-based frameshifting reporter assays reveal a number of key residues within nsp1β and PCBP2 that are involved in complex formation and function. Our results suggest that nsp1β and PCBP2 both interact directly with viral RNA during formation of the complex to coordinate this unusual PRF mechanism.

Zinc is a critical element for insulin storage in the secretory granules of pancreatic beta cells. The islet-specific zinc transporter ZnT8 mediates granular sequestration of zinc ions. A genetic variant of human ZnT8 arising from a single nonsynonymous nucleotide change contributes to increased susceptibility to type-2 diabetes (T2D), but it remains unclear how the high risk variant (Arg-325), which is also a higher frequency (>50%) allele, is correlated with zinc transport activity. Here, we compared the activity of Arg-325 with that of a low risk ZnT8 variant (Trp-325). The Arg-325 variant was found to be more active than the Trp-325 form following induced expression in HEK293 cells. We further examined the functional consequences of changing lipid conditions to mimic the impact of lipid remodeling on ZnT8 activity during insulin granule biogenesis. Purified ZnT8 variants in proteoliposomes exhibited more than 4-fold functional tunability by the anionic phospholipids, lysophosphatidylcholine and cholesterol. Over a broad range of permissive lipid compositions, the Arg-325 variant consistently exhibited accelerated zinc transport kinetics versus the Trp-form. In agreement with the human genetic finding that rare loss-of-function mutations in ZnT8 are associated with reduced T2D risk, our results suggested that the common high risk Arg-325 variant is hyperactive, and thus may be targeted for inhibition to reduce T2D risk in the general populations.

6 July 2020

9 July 2020

Environmental factors, such as viral infection, are proposed to play a role in the initiation of autoimmune diabetes. In response to encephalomyocarditis virus (EMCV) infection, resident islet macrophages release the pro-inflammatory cytokine IL-1β, to levels that are sufficient to stimulate inducible nitric oxide synthase (iNOS) expression and production of micromolar levels of the free radical nitric oxide in neighboring β-cells. We have recently shown that nitric oxide inhibits EMCV replication and EMCV-mediated β-cell lysis and that this protection is associated with an inhibition of mitochondrial oxidative metabolism. Here we show that the protective actions of nitric oxide against EMCV infection are selective for β-cells and associated with the metabolic coupling of glycolysis and mitochondrial oxidation that is necessary for insulin secretion. Inhibitors of mitochondrial respiration attenuate EMCV replication in β-cells, and this inhibition is associated with a decrease in ATP levels. In mouse embryonic fibroblasts (MEFs), inhibition of mitochondrial metabolism does not modify EMCV replication or decrease ATP levels. Like most cell types, MEFs have the capacity to uncouple the glycolytic utilization of glucose from mitochondrial respiration, allowing for the maintenance of ATP levels under conditions of impaired mitochondrial respiration. It is only when MEFs are forced to use mitochondrial oxidative metabolism for ATP generation that mitochondrial inhibitors attenuate viral replication. In a β-cell selective manner, these findings indicate that nitric oxide targets the same metabolic pathways necessary for glucose stimulated insulin secretion for protection from viral lysis.

Poly(ADP-ribose) polymerase (PARP) superfamily members covalently link either a single ADP-ribose (ADPR) or a chain of ADPR units to proteins using NAD as the source of ADPR. Although the well-known poly(ADP-ribosylating) (PARylating) PARPs primarily function in the DNA damage response, many noncanonical mono(ADP-ribosylating) (MARylating) PARPs are associated with cellular antiviral responses. We recently demonstrated robust up-regulation of several PARPs following infection with murine hepatitis virus (MHV), a model coronavirus. Here we show that SARS-CoV-2 infection strikingly up-regulates MARylating PARPs and induces the expression of genes encoding enzymes for salvage NAD synthesis from nicotinamide (NAM) and nicotinamide riboside (NR), while down-regulating other NAD biosynthetic pathways. We show that overexpression of PARP10 is sufficient to depress cellular NAD and that the activities of the transcriptionally induced enzymes PARP7, PARP10, PARP12 and PARP14 are limited by cellular NAD and can be enhanced by pharmacological activation of NAD synthesis. We further demonstrate that infection with MHV induces a severe attack on host cell NAD+ and NADP+. Finally, we show that NAMPT activation, NAM, and NR dramatically decrease the replication of an MHV that is sensitive to PARP activity. These data suggest that the antiviral activities of noncanonical PARP isozyme activities are limited by the availability of NAD and that nutritional and pharmacological interventions to enhance NAD levels may boost innate immunity to coronaviruses.

Will Africans’ calls for better democracy be met? The World Today mhiggins.drupal 29 July 2022

Voters want the continent’s ageing leaders to step aside to usher in a new age of political engagement and robust democracy, say the experts of Afrobarometer.

Across Africa, recent years have been marked by both encouraging democratic highs and troubling anti-democratic lows. Notable advances from last year include the Gambia’s successful presidential election, a ruling-party transition in Zambia and the first democratic transfer of power in Niger. In the lead up to this, add Malawi’s retake of its flawed presidential election in 2020 and an earlier succession of oustings of long-serving autocrats in Sudan, Zimbabwe and the Gambia. 

Contrast these gains, though, with setbacks elsewhere, including increasing restrictions on opposition parties in Benin, Senegal and Tanzania; the use of violence and intimidation during elections in Côte d’Ivoire and Uganda; and military coups, with the latest in Burkina Faso this year and last year in Chad, Mali, Sudan and Guinea.

These contradictory developments join dire warnings from experts that democracy is losing ground on the continent. But what can we learn about the state of democracy on the continent from Africans themselves?

Afrobarometer, a pan-African, non-partisan research network, has been surveying people about their views on democracy, governance and quality of life for more than 20 years. After interviewing nearly 50,000 citizens across 34 countries during Afrobarometer Round 8, which spans 2019-2021, we find that despite the efforts of some leaders to undermine democratic norms, Africans remain committed to democracy and democratic institutions.

They believe that the military should stay out of politics, that political parties should freely compete for power, that elections are an imperfect but essential tool for choosing their leaders, and that it is time for the old men who cling to power to step aside.

But their political reality falls short of these expectations. The perception of widespread and worsening corruption is particularly corrosive, leaving people increasingly dissatisfied with political systems that are yet to deliver on their aspirations to live in societies that are democratically and accountably governed. And although citizens find myriad ways to voice their concerns, they feel that their governments are not listening.

Simply put, Africans want more democratic and accountable governance than they think they are getting.

Africans’ democratic aspirations

Over the past decade, democracy watchers have been alarmed by declining trends in Africa. Concerns have been exacerbated in the past two years as some governments have taken advantage of the Covid pandemic to limit freedoms, restrict fair campaigning or postpone elections. Activists fear that supposedly temporary rollbacks in hard-won governance reforms could become permanent.

But for the most part, African citizens remain committed to democracy and democratic institutions. Across 30 countries that Afrobarometer has surveyed consistently since Round 5 (2011–2013), most indicators are strong and quite steady.

For example, seven in 10 Africans say that ‘democracy is preferable to any other kind of government’. While this is down modestly from 73 per cent a decade ago, more specific indicators seem to affirm popular commitment to democracy. Large and steady majorities consistently reject authoritarian alternatives, including one-person or ‘strongman’ rule (82 per cent), one-party rule (77 per cent) and military rule (75 per cent), which is clearly rejected even in many of the countries rocked by recent military coups.

Africans also express strong support for a limit to presidential terms, a feature of democratic governance that researchers and activists argue nurtures political participation, demonstrates that change via the ballot box is possible, and reduces the risk of personality cults, authoritarianism, corruption and coups. Across 34 countries, an average of 76 per cent favour limiting their presidents to two terms, including a majority (54 per cent) who ‘strongly’ support this rule. Term limits enjoy majority support in every surveyed country. 

The public’s democratic commitment is undergirded by strong and in some cases growing support for core democratic institutions. Support for multiparty competition and parliamentary oversight of leaders remains steady, while expectations that governments should be accountable to the courts have increased significantly over the past decade.

In addition, growing numbers of people say it is more important to have a government that is accountable to the people rather than one that just ‘gets things done’, an especially strong indicator of deepening commitment to democratic norms among citizens. 

Trouble at the polling booth

Elections remain a central, though controversial, institution of democracy for Africans. They have served as the foundation for real change, as in Zambia last year. But in other cases, such as Uganda’s January 2021 poll, they have been marred by violence and human rights abuses, as well as the weaponization of Covid to justify restrictions on campaigning.

The public is also sceptical about the capacity of elections to bring about real change: fully 50 per cent say they do not think elections are effective in enabling voters ‘to remove from office leaders who do not do what the people want’.

At the same time, large majorities report positively on their country’s election environment. Asked about their most recent election, at least eight in 10 say they did not observe intimidation (87 per cent) or interference (81 per cent) by security forces and did not fear violence (80 per cent).

We must keep in mind that these encouraging averages can obscure deep problems in some countries. For example, while only 3 per cent of Namibians say votes are ‘often’ not counted fairly, between a quarter and one-third cite inaccurate counts as a frequent problem in Zimbabwe, Sudan and Gabon. 

In addition, confidence in the fairness of the media environment is drastically lower, on average just 36 per cent.

But perhaps most importantly, almost nine in 10 Africans (87 per cent) say they are free to vote as they choose, including sizeable majorities in every surveyed country. And a solid majority of 63 per cent rate their most recent election as completely or mostly free and fair. 

All of this may help to explain still-strong support for competitive elections as the best system for selecting leaders. A robust three-quarters confirm their commitment to elections, though this has fallen slightly over the past decade, probably reflecting disillusionment with electoral processes that are too often torn by violence and produce contested results. 

A growing number of people may also be recognizing that elections, especially poor-quality ones, are not enough to guarantee democracy and better governance, and that a healthy democracy must include such other features as government accountability, respect for the rule of law, responsiveness and citizen participation.

The ‘democratic disappointment’ gap

To what extent does political reality align with Africans’ democratic aspirations? Our findings suggest that it is falling well short of expectations.

While a slim majority has steadily reported that their country is a ‘full democracy’ or one ‘with minor problems’ over the past decade, satisfaction, however, has dropped to 43 per cent in that time. 

What explains this growing dissatisfaction? Other indicators of democratic supply offer some clues. While ratings of election quality have held steady, favourable public assessments of presidential accountability to parliament and to the courts have both declined.

The rising scourge of corruption

But one of the most significant driving factors may be burgeoning corruption, a trend that appears to parallel declining democratic satisfaction. On average across 34 countries, around six in 10 say both that corruption in their country increased over the past year, and that their government is doing a poor job of controlling it.

These perceptions matter. Over time, when perceptions of corruption rise or fall, levels of dissatisfaction with democracy tend to follow suit. 

In South Africa, dissatisfaction with democracy grew steadily alongside scandals involving President Jacob Zuma, and has continued to rise under his successor, Cyril Ramaphosa, whose office has been tainted by ‘Farmgate’ and a major Covid-relief scandal. The ‘Fishrot’ scandal in Namibia has had similar consequences.

Are governments listening?

African citizens are raising their voices, calling on their governments to fulfil their democratic aspirations. Since April 2017, the Carnegie Endowment for International Peace has recorded more than 70 episodes in 35 African countries of protests focused on issues ranging from demands for democracy in eSwatini to resisting police brutality, presidential third-term attempts and Covid restrictions. 

Citizen participation and government responsiveness are cornerstones of democracy. But are governments listening?

Voting is the most obvious and popular way for citizens to express themselves, and Africans take advantage of this opportunity. Two-thirds said they voted in their most recent national election. But elections occur only occasionally, and they force individuals to compress a wide array of views into very few choices. How do Africans find their voice during the long intervals between elections?

Many invest in personal efforts to act as agents of change. In fact, nearly half say they joined with others to raise an issue at least once in the past year, and a third contacted a political leader. A quarter report they acted with others to request government action. Less common but still important modes of engagement include asking for help from or lodging a complaint with government, contacting the media, and joining a demonstration.

These robust levels of citizen engagement suggest that people feel they can make a difference. Unfortunately, decision-makers aren’t always receptive or responsive to citizen voices. Less than a quarter of people think local government officials listen to them – and even fewer think their members of parliament do. 

What is more troubling is that fully two-thirds say they are at risk of retaliation or some form of negative consequences if they take action by reporting incidents of corruption. 

Lack of government responsiveness and respect for popular voices may have direct implications for both citizen engagement and citizen satisfaction. For example, we find that people are more likely to contact leaders or take other actions to solve problems if they believe that government officials respect and listen to them; that they will get a response if they raise an issue; and if they do not need to fear retaliation. 

Similarly, when we compare country averages for government responsiveness to the percentage of citizens who are satisfied with democracy, we again find positive associations. 

When governments are responsive, citizens are more likely to engage in addressing community needs and to be satisfied with their political system and optimistic about the future. Respectful and responsive governance has the potential to spur citizen action to solve critical development challenges – and may be the cure for what ails democracy.

Now is the moment to launch an African vaccine industry The World Today mhiggins.drupal 31 July 2022

The continent plans to make 60 per cent of its vaccines by 2040. After the failure of the world to help in the pandemic, it’s high time, says Ngozi Erondu.

The lack of an African vaccine industry has been a glaring concern for decades. Before the pandemic, 99 per cent of Africa’s vaccines were manufactured outside the continent. As well as endangering the lives of millions, this situation has inhibited social and economic progress on the continent.

In response, the Africa Centres for Disease Control and Prevention (Africa CDC) has undertaken an ambitious plan, outlined in the Partnerships for African Vaccine Manufacturing (PAVM) Framework for Action, to develop the nascent African vaccine manufacturing sector into an end-to-end industry by 2040. The framework aims to raise the share of African-manufactured vaccines used across the continent to 60 per cent by 2040, or the equivalent to up to 1.7 billion doses annually.

Seven of every 10 vaccines used in Africa are currently donated through Gavi, the Vaccine Alliance. Most are administered within childhood immunization programmes and are largely manufactured either in India, or by  multinational vaccine manufacturers in North America or Japan.

Vaccine donations have inhibited the development in Africa of vaccines and other countermeasures against diseases.

Though the Ebola virus was discovered in Central Africa in 1976, vaccine development was not adequately funded until it emerged in Europe in 2014. Human monkeypox resurfaced in Nigeria in 2017, yet the global Coalition for Epidemic Preparedness Innovations only targeted it for vaccine development in July this year.

The pandemic highlighted Africa’s fatal dependency on imported vaccines. Only 20 per cent of Africans are fully vaccinated against Covid-19, due to the failure of countries in the Global North to ensure the equitable distribution of vaccines via the COVAX facility to 40 per cent of the world’s most vulnerable people. 

The pandemic also confirmed that Africa could not rely on fellow states of the Global South. At the height of the Delta variant outbreak in early 2021, India halted vaccine exports to Africa, where only 1.5 per cent of the population had at that time received any vaccine doses.

After decades of discussions, there are signs that Africa could soon succeed in creating its own vaccine industry. First, the 55-member African Union is in the process of establishing the African Medicines Agency, a regional regulatory body. 
 

‘The new public health order’

Additionally, the African Export-Import Bank and African Development Bank (AfDB) have established a foundation to provide financial and strategic support for the development of the pharmaceutical industry and the consolidation of regional vaccination programmes in Africa (the foundation would potentially negotiate intellectual property rights and licensing issues but that remains to be seen).

Second, studies show there is an emerging middle class in Africa. In a 2011 report by the AfDB, this was estimated at some 56 million households. Potentially, this means many people will be able to buy vaccines and medicines made in Africa.

About a third of African countries currently pay for their vaccine needs. According to PAVM forecasts, the value of the total African market could reach between $3 billion and $17 billion by 2040.

The recent entry into effect of the African Continental Free Trade Area should also prove conducive to African vaccine development. Through economic integration, free movement and harmonized regional standards, countries that invest in their biopharmaceutical and medical technology sectors may attract employees, regional and international businesses, and investment. Further, the pandemic has encouraged people to relocate to countries with, or planning for, universal healthcare.

Building an African pharmaceutical industry from the ground up could take much longer than two decades and cost tens of billions of dollars. Nevertheless, the moment seems ripe, and timely support has been forthcoming from influential regional actors, including Rwandan President Paul Kagame, South Africa’s Cyril Ramaphosa, and private sector business executives, including the Zimbabwean-born billionaire Strive Masiyiwa.

With a pandemic treaty embedding equity in prevention, preparedness and response some way off, and given the limitations surrounding the recent World Trade Organization compromise on the TRIPS waiver – which temporarily waives Covid-19 vaccine patent protections for poorer countries – it is doubly important for Africa to build up its own pharmaceutical industry and emergency systems. 

In 2021, John Nkengasong, then director of Africa CDC, wrote of the necessity of a post-pandemic ‘new public health order’ for Africa. Such a change may threaten the global health organizations, industries and institutes who derive payment from ‘saving Africa’ during emergencies. Additionally, through strengthening Africa CDC, other actors such as the World Health Organization may find that they have a diminished strategic role on the continent.
 
While Africa should not dismiss these valuable and long-standing partnerships, it must take the opportunity to advance its interests and to assume leadership in this important area.

Towards democracy in Sudan: Reflections on the transitional period 20 September 2022 — 2:00PM TO 4:00PM Anonymous (not verified) 31 August 2022 Online

In this webinar, panellists discuss the key outcomes of the evaluation workshop and reflect on how the experience of the transition to date should inform the realization of Sudan’s democratic aspirations going forward.

The military coup on 25 October 2021 halted Sudan’s transition to democracy and prospects for sustainable peace. Since then, members of the former regime have regained political influence, with many reinstated to senior positions.

The coup has provoked a strong reaction from the country’s pro-democracy movement and youth-led resistance committees who have led continuous peaceful protests demanding civilian democratic transition, despite a brutal crackdown by state security forces.

Those supportive of the coup have blamed the Forces of Freedom and Change (FFC), a wide coalition of pro-democracy political and civilian groups, for the mistakes of the transitional government.

However, the country’s political, security and economic situation has sharply deteriorated since the military’s action, and the progress achieved by the transitional government has been reversed, leading to an accelerating economic crisis, increased food insecurity and political instability.

The FFC, which played a key role in appointing the transitional government, has acknowledged its errors. In July 2022, it held a workshop in Khartoum, which was broadcast on social media, to evaluate its performance and identify lessons learned, in discussion with civil society actors and activists.

In this webinar, leading pro-democracy movement figures and independent experts discuss the key outcomes of the evaluation workshop and reflect on how the experience of the transition to date should inform the realization of Sudan’s democratic aspirations going forward.

This event is part of a Chatham House Africa programme project on supporting Sudan’s civilian-led democratic transition.

Silencing the Guns in Africa by 2030: Lessons from Mozambique 17 February 2023 — 7:00AM TO 9:00AM Anonymous (not verified) 7 February 2023 Addis Ababa and online

A hybrid event in Addis Ababa reflecting on Mozambique’s 2019 peace agreement and the lessons it offers for the African Union’s ‘Silencing the Guns’ agenda by 2030.

This event will explore opportunities for furthering the AU’s Silencing the Guns agenda by 2030 to assist Africa’s transformative development, highlighting lessons learnt from Mozambique’s experience.

The ‘Silencing the Guns in Africa’ agenda, a flagship initiative of the African Union’s (AU) Agenda 2063, aspires to end all wars and conflict, prevent genocide, and stop gender-based violence.

The 2019 peace agreement in Mozambique and the subsequent disarmament, demobilization and reintegration process supported by the United Nations (UN) but implemented by Mozambique’s government and institutions, provides experience and learning for other continental conflicts that have recently ended or resumed.

Mozambique is seeking to break from the cyclical ‘conflict trap’ where once a country experiences one civil war, it is significantly more likely to experience additional episodes of violence.

Since the end of Mozambique’s civil war in 1992, targeted armed conflict by RENAMO resumed in 2013 and ended through the new agreement in August 2019. The final reintegration into civilian life of former Mozambican combatants of opposition RENAMO will be completed in 2023.

Mozambique and Switzerland – a key supporter of successive Mozambican peace processes – have become non-permanent members of the UN Security Council for the first time in their respective histories.

At a moment when old vulnerabilities and new threats are apparent on the African continent, this seminar, held by Chatham House in partnership with the United Nations Development Programme (UNDP), explores opportunities to furthering the AU’s Silencing the Guns agenda by 2030 to assist Africa’s transformative development, as outlined by the UNDP in a report published in February 2022.

This hybrid event is held in partnership with the African Union Commission and the United Nations Development Programme (UNDP).

This event will also be broadcast live via the Africa Programme Facebook page.

A critical juncture for Sudan’s democratic transition Expert comment LJefferson 28 March 2023

International pressure is essential to reach an agreement that establishes a credible civilian government.

The signing of the Framework Agreement (FA) on 5 December 2022 between Sudan’s military leaders and its leading pro-democracy parties is a major step to reversing the damage done by the disastrous military coup in October 2021.

The FA removes any formal role for the military in Sudan’s politics. A civilian head of state and prime minister will select the cabinet and chair the Defence and Security Council. The armed forces will be prohibited from non-military business activities and security sector reform will lead to a unified, professional and non-partisan national army. Elections are due to take place at the end of a two-year transitional period. 

Signatories included General Abdel Fatah Al Burhan, chair of the Sovereign Council and head of the Sudanese Armed Forces (SAF), General Mohamed Hamdan Dagalo (known as Hemedti), his deputy and Commander of the paramilitary Rapid Support Forces (RSF) and more than 40 civilian entities, including the Forces of Freedom and Change- Central Council (FFC-CC), a few other political parties, former armed movements, civil society organizations and professional associations. However, the agreement has faced criticism from the street for not being sufficiently radical, has been overshadowed at times by heightened tension between the two military leaders, and has seen sabotage attempts by supporters of the Bashir regime.

Building consensus on the Framework Agreement

The agreement meets most of the demands of the anti-coup camp, at least on paper. Yet doubts persist as to whether the military are genuine about handing over power, particularly among the neighbourhood-based resistance committees – the heart of the youth-led mobilization that forced the military to recognize the failure of their power grab. Peaceful protests against the coup have seen 125 killed and over 8,000 injured by government security forces. Many want to see Burhan and Hemedti held accountable.

Recognizing the need to expand popular support, FFC-CC leaders have been reaching out to other pro-democracy forces to build a united civilian front. They report increased buy-in from some resistance committees in the last few months, recognizing that street protests alone were not sufficient to overthrow the coup, and that engagement with the military is necessary to find a way out of the impasse.

The FA offers the only currently available path to embedding civilian politics in Sudan and has received active diplomatic support from UNITAMS, AU and IGAD (who form the Tripartite Mechanism), the Troika of the US, UK and Norway, alongside the EU, as well as Saudi Arabia and the UAE (who are members of ‘the Quad’ with the US and UK).

Broader public participation has also been developed through a series of conferences, facilitated by the Tripartite Mechanism, on five contentious issues – dismantling the old regime, the Juba Peace Agreement, Eastern Sudan, Transitional Justice and Security Sector Reform. Recommendations will be incorporated in a final political agreement. 

The political process has been overshadowed by increasingly visible tension between Burhan and Hemedti, seen in parallel foreign visits, conflicting public statements, and a heavy military presence in Khartoum. But concerns that SAF and the RSF were heading towards confrontation appear to have been assuaged thanks to international pressure and preliminary agreements reached between military and civilian signatories of the FA on security sector reform and integration. In a significant breakthrough, both sides have now agreed to draft the final agreement and transitional constitution, with the aim of forming a civilian government by 11 April.  

Potential spoilers and interests from Sudan’s regions

Progress has been made, but significant challenges remain, notably from supporters of the former Bashir regime in ‘the deep state’ and from Sudan’s historically marginalized peripheries. Old regime elements have been intensifying social media campaigns to derail the agreement and drive a wedge between the SAF and RSF, and have been accused of deliberately inciting instability in the peripheries to undermine the democratic transition. 

The Popular Defence Forces, established by the National Islamic Front in the 1990s, have been reactivated under different names in several parts of the country and there are reports of mobilization and recruitment of armed militias in Darfur. The recent public appearance of Ali Karti, the Secretary-General of the Islamic Movement, who has close relations with Islamists in SAF, has also caused renewed concern.

Two Darfuri armed movement leaders who signed the October 2020 Juba Peace Agreement (JPA) and are members of the current military-led government, have not signed the FA, allegedly due to concerns about their representation in the next government.

Despite intensive efforts to bring them on board, there is continuing disagreement over the inclusion of other members of ‘the Democratic Bloc’, a political alliance backed by Sudan’s influential neighbour Egypt, which is reportedly angry at being excluded from the Quad. The FFC-CC say that the door is open for the two Darfuri leaders and some other political parties, but they will not allow the agreement to be ‘diluted’ with political forces who intend to torpedo the transition, including by imposing a weak prime minister.

Both Burhan and Hemedti have courted support from the regions. Burhan used the 2020 SAF takeover of Al Fashaga in the contested eastern border region with Ethiopia to boost his national standing and secure backing from local tribal leaders; while Hemedti has sought to position himself as a champion of the peripheries, particularly in his Darfur heartlands, while simultaneously advancing his business interests.

Competition between them in building domestic powerbases, as well as alliances with neighbouring states, risks reigniting tensions, particularly given deep grievances and contrasting ambitions between and among Sudan’s diverse regional leaders and communities.

Researchers use dynamic PET imaging with target-selective tracer molecules to probe molecular processes. Kinetic models have been developed to describe these processes. The models are typically fitted to the measured PET data with the assumption that the brain is in a steady-state condition for the duration of the scan. The end results are quantitative parameters that characterize the molecular processes. The most common kinetic modeling endpoints are estimates of volume of distribution or the binding potential of a tracer. If the steady state is violated during the scanning period, the standard kinetic models may not apply. To address this issue, time-variant kinetic models have been developed for the characterization of dynamic PET data acquired while significant changes (e.g., short-lived neurotransmitter changes) are occurring in brain processes. These models are intended to extract a transient signal from data. This work in the PET field dates back at least to the 1990s. As interest has grown in imaging nonsteady events, development and refinement of time-variant models has accelerated. These new models, which we classify as belonging to the first, second, or third generation according to their innovation, have used the latest progress in mathematics, image processing, artificial intelligence, and statistics to improve the sensitivity and performance of the earliest practical time-variant models to detect and describe nonsteady phenomena. This review provides a detailed overview of the history of time-variant models in PET. It puts key advancements in the field into historical and scientific context. The sum total of the methods is an ongoing attempt to better understand the nature and implications of neurotransmitter fluctuations and other brief neurochemical phenomena.

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Felicia Grasso
Dec 1, 2020; 19:1986-1996
Research

Tricia Rowlison
Dec 1, 2020; 19:2090-2103
Research

Alba Simats
Dec 1, 2020; 19:1921-1935
Research

Alison M. Kurimchak
Dec 1, 2020; 19:2068-2089
Research

Weixian Deng
Dec 22, 2020; 0:RA120.002411v1-mcp.RA120.002411
Research

Madison T Wright
Nov 18, 2020; 0:RA120.002168v1-mcp.RA120.002168
Research

Kailun Fang
Nov 30, 2020; 0:RA120.002081v1-mcp.RA120.002081
Research

Congcong Lu
Nov 17, 2020; 0:R120.002257v1-mcp.R120.002257
Review

Daniel J. Geiszler
Dec 1, 2020; 0:TIR120.002216v1-mcp.TIR120.002216
Technological Innovation and Resources

Tirsa L. E. van Westering
Dec 1, 2020; 19:2047-2067
Research

Jianhua Wang
Nov 4, 2020; 0:RA120.002375v1-mcp.RA120.002375
Research

Mouse embryonic stem cells (mESCs) display unique mechanical properties, including low cellular stiffness in contrast to differentiated cells, which are stiffer. We have previously shown that mESCs lacking the clathrin heavy chain (Cltc), an essential component for clathrin-mediated endocytosis (CME), display a loss of pluripotency and an enhanced expression of differentiation markers. However, it is not known whether physical properties such as cellular stiffness also change upon loss of Cltc, similar to what is seen in differentiated cells, and if so, how these altered properties specifically impact pluripotency. Using atomic force microscopy (AFM), we demonstrate that mESCs lacking Cltc display higher Young's modulus, indicative of greater cellular stiffness, compared with WT mESCs. The increase in stiffness was accompanied by the presence of actin stress fibers and accumulation of the inactive, phosphorylated, actin-binding protein cofilin. Treatment of Cltc knockdown mESCs with actin polymerization inhibitors resulted in a decrease in the Young's modulus to values similar to those obtained with WT mESCs. However, a rescue in the expression profile of pluripotency factors was not obtained. Additionally, whereas WT mouse embryonic fibroblasts could be reprogrammed to a state of pluripotency, this was inhibited in the absence of Cltc. This indicates that the presence of active CME is essential for the pluripotency of embryonic stem cells. Additionally, whereas physical properties may serve as a simple readout of the cellular state, they may not always faithfully recapitulate the underlying molecular fate.

The Wnt/β-catenin pathway is one of the major pathways that regulates embryonic development, adult homeostasis, and stem cell self-renewal. In this pathway, transcription factors T-cell factor and lymphoid enhancer factor (TCF/LEF) serve as a key switch to repress or activate Wnt target gene transcription by recruiting repressor molecules or interacting with the β-catenin effector, respectively. It has become evident that the protein stability of the TCF/LEF family members may play a critical role in controlling the activity of the Wnt/β-catenin signaling pathway. However, factors that regulate the stability of TCF/LEFs remain largely unknown. Here, we report that pVHL binding protein 1 (VBP1) regulates the Wnt/β-catenin signaling pathway by controlling the stability of TCF/LEFs. Surprisingly, we found that either overexpression or knockdown of VBP1 decreased Wnt/β-catenin signaling activity in both cultured cells and zebrafish embryos. Mechanistically, VBP1 directly binds to all four TCF/LEF family members and von Hippel-Lindau tumor-suppressor protein (pVHL). Either overexpression or knockdown of VBP1 increases the association between TCF/LEFs and pVHL and then decreases the protein levels of TCF/LEFs via proteasomal degradation. Together, our results provide mechanistic insights into the roles of VBP1 in controlling TCF/LEFs protein stability and regulating Wnt/β-catenin signaling pathway activity.

Gle1 is a conserved, essential regulator of DEAD-box RNA helicases, with critical roles defined in mRNA export, translation initiation, translation termination, and stress granule formation. Mechanisms that specify which, where, and when DDXs are targeted by Gle1 are critical to understand. In addition to roles for stress-induced phosphorylation and inositol hexakisphosphate binding in specifying Gle1 function, Gle1 oligomerizes via its N-terminal domain in a phosphorylation-dependent manner. However, a thorough analysis of the role for Gle1 self-association is lacking. Here, we find that Gle1 self-association is driven by two distinct regions: a coiled-coil domain and a novel 10-amino acid aggregation-prone region, both of which are necessary for proper Gle1 oligomerization. By exogenous expression in HeLa cells, we tested the function of a series of mutations that impact the oligomerization domains of the Gle1A and Gle1B isoforms. Gle1 oligomerization is necessary for many, but not all aspects of Gle1A and Gle1B function, and the requirements for each interaction domain differ. Whereas the coiled-coil domain and aggregation-prone region additively contribute to competent mRNA export and stress granule formation, both self-association domains are independently required for regulation of translation under cellular stress. In contrast, Gle1 self-association is dispensable for phosphorylation and nonstressed translation initiation. Collectively, we reveal self-association functions as an additional mode of Gle1 regulation to ensure proper mRNA export and translation. This work also provides further insight into the mechanisms underlying human gle1 disease mutants found in prenatally lethal forms of arthrogryposis.

Mitochondrial dysfunction is associated with a variety of human diseases including neurodegeneration, diabetes, nonalcohol fatty liver disease (NAFLD), and cancer, but its underlying causes are incompletely understood. Using the human hepatic cell line HepG2 as a model, we show here that endoplasmic reticulum-associated degradation (ERAD), an ER protein quality control process, is critically required for mitochondrial function in mammalian cells. Pharmacological inhibition or genetic ablation of key proteins involved in ERAD increased cell death under both basal conditions and in response to proinflammatory cytokines, a situation frequently found in NAFLD. Decreased viability of ERAD-deficient HepG2 cells was traced to impaired mitochondrial functions including reduced ATP production, enhanced reactive oxygen species (ROS) accumulation, and increased mitochondrial outer membrane permeability. Transcriptome profiling revealed widespread down-regulation of genes underpinning mitochondrial functions, and up-regulation of genes associated with tumor growth and aggression. These results highlight a critical role for ERAD in maintaining mitochondrial functional and structural integrity and raise the possibility of improving cellular and organismal mitochondrial function via enhancing cellular ERAD capacity.

Autophagy plays critical roles in the maintenance of endothelial cells in response to cellular stress caused by blood flow. There is growing evidence that both cell adhesion and cell detachment can modulate autophagy, but the mechanisms responsible for this regulation remain unclear. Immunoglobulin and proline-rich receptor-1 (IGPR-1) is a cell adhesion molecule that regulates angiogenesis and endothelial barrier function. In this study, using various biochemical and cellular assays, we demonstrate that IGPR-1 is activated by autophagy-inducing stimuli, such as amino acid starvation, nutrient deprivation, rapamycin, and lipopolysaccharide. Manipulating the IκB kinase β activity coupled with in vivo and in vitro kinase assays demonstrated that IκB kinase β is a key serine/threonine kinase activated by autophagy stimuli and that it catalyzes phosphorylation of IGPR-1 at Ser220. The subsequent activation of IGPR-1, in turn, stimulates phosphorylation of AMP-activated protein kinase, which leads to phosphorylation of the major pro-autophagy proteins ULK1 and Beclin-1 (BECN1), increased LC3-II levels, and accumulation of LC3 punctum. Thus, our data demonstrate that IGPR-1 is activated by autophagy-inducing stimuli and in response regulates autophagy, connecting cell adhesion to autophagy. These findings may have important significance for autophagy-driven pathologies such cardiovascular diseases and cancer and suggest that IGPR-1 may serve as a promising therapeutic target.

Transient receptor potential vanilloid 1 (TRPV1) channel is a multimodal receptor that is responsible for nociceptive, thermal, and mechanical sensations. However, which biomolecular partners specifically interact with TRPV1 remains to be elucidated. Here, we used cDNA library screening of genes from mouse dorsal root ganglia combined with patch-clamp electrophysiology to identify the voltage-gated potassium channel auxiliary subunit Kvβ1 physically interacting with TRPV1 channel and regulating its function. The interaction was validated in situ using endogenous dorsal root ganglia neurons, as well as a recombinant expression model in HEK 293T cells. The presence of Kvβ1 enhanced the expression stability of TRPV1 channels on the plasma membrane and the nociceptive current density. Surprisingly, Kvβ1 interaction also shifted the temperature threshold for TRPV1 thermal activation. Using site-specific mapping, we further revealed that Kvβ1 interacted with the membrane-distal domain and membrane-proximal domain of TRPV1 to regulate its membrane expression and temperature-activation threshold, respectively. Our data therefore suggest that Kvβ1 is a key element in the TRPV1 signaling complex and exerts dual regulatory effects in a site-specific manner.

Tuberculosis (TB), caused by the infection of Mycobacterium tuberculosis (MTB), is one of the leading causes of death worldwide, especially in children. However, the mechanisms by which MTB infects its cellular host, activates an immune response, and triggers inflammation remain unknown. Mitochondria play important roles in the initiation and activation of the nucleotide-binding oligomerization domain-like receptor with a pyrin domain 3 (NLRP3) inflammasome, where mitochondria-associated endoplasmic reticulum membranes (MAMs) may serve as the platform for inflammasome assembly and activation. Additionally, mitofusin 2 (MFN2) is implicated in the formation of MAMs, but, the roles of mitochondria and MFN2 in MTB infection have not been elucidated. Using mircroarry profiling of TB patients and in vitro MTB stimulation of macrophages, we observed an up-regulation of MFN2 in the peripheral blood mononuclear cells of active TB patients. Furthermore, we found that MTB stimulation by MTB-specific antigen ESAT-6 or lysate of MTB promoted MFN2 interaction with NLRP3 inflammasomes, resulting in the assembly and activation of the inflammasome and, subsequently, IL-1β secretion. These findings suggest that MFN2 and mitochondria play important role in the pathogen-host interaction during MTB infection.

Neutrophils are primary host innate immune cells defending against pathogens. One proposed mechanism by which neutrophils prevent the spread of pathogens is NETosis, the extrusion of cellular DNA resulting in neutrophil extracellular traps (NETs). The protease neutrophil elastase (NE) has been implicated in the formation of NETs through proteolysis of nuclear proteins leading to chromatin decondensation. In addition to NE, neutrophils contain three other serine proteases that could compensate if the activity of NE was neutralized. However, whether they do play such a role is unknown. Thus, we deployed recently described specific inhibitors against all four of the neutrophil serine proteases (NSPs). Using specific antibodies to the NSPs along with our labeled inhibitors, we show that catalytic activity of these enzymes is not required for the formation of NETs. Moreover, the NSPs that decorate NETs are in an inactive conformation and thus cannot participate in further catalytic events. These results indicate that NSPs play no role in either NETosis or arming NETs with proteolytic activity.

Acute lung injury (ALI), is a rapidly progressing heterogenous pulmonary disorder that possesses a high risk of mortality. Accumulating evidence has implicated the activation of the p65 subunit of NF-κB [NF-κB(p65)] activation in the pathological process of ALI. microRNAs (miRNAs), a group of small RNA molecules, have emerged as major governors due to their post-transcriptional regulation of gene expression in a wide array of pathological processes, including ALI. The dysregulation of miRNAs and NF-κB activation has been implicated in human diseases. In the current study, we set out to decipher the convergence of miR-99b and p65 NF-κB activation in ALI pathology. We measured the release of pro-inflammatory cytokines (IL-1β, IL-6, and TNFα) in bronchoalveolar lavage fluid using ELISA. MH-S cells were cultured and their viability were detected with cell counting kit 8 (CCK8) assays. The results showed that miR-99b was up-regulated, while PRDM1 was down-regulated in a lipopolysaccharide (LPS)-induced murine model of ALI. Mechanistic investigations showed that NF-κB(p65) was enriched at the miR-99b promoter region, and further promoted its transcriptional activity. Furthermore, miR-99b targeted PRDM1 by binding to its 3'UTR, causing its down-regulation. This in-creased lung injury, as evidenced by increased wet/dry ratio of mouse lung, myeloperoxidase activity and pro-inflammatory cytokine secretion, and enhanced infiltration of inflammatory cells in lung tissues. Together, our findings indicate that NF-κB(p65) promotion of miR-99b can aggravate ALI in mice by down-regulating the expression of PRDM1.