Shane Rea
Nov 1, 1997; 46:1667-1677
Perspectives in Diabetes

Masayuki Saito
Jul 1, 2009; 58:1526-1531
Metabolism

Cindy J.M. Loomans
Jan 1, 2004; 53:195-199
Complications

Alan R Saltiel
Dec 1, 1996; 45:1661-1669
Perspectives in Diabetes

Marc Prentki
Mar 1, 1996; 45:273-283
Original Article

Joachim Spranger
Mar 1, 2003; 52:812-817
Pathophysiology

G Perseghin
Aug 1, 1999; 48:1600-1606
Articles

R A DeFronzo
Dec 1, 1981; 30:1000-1007
Original Contribution

Charles M. Alexander
May 1, 2003; 52:1210-1214
Complications

Miriam Cnop
Dec 1, 2005; 54:S97-S107
Section III: Inflammation and beta-Cell Death

Giulio Marchesini
Aug 1, 2001; 50:1844-1850
Pathophysiology

Gökhan S Hotamisligil
Nov 1, 1994; 43:1271-1278
Perspectives in Diabetes

D Dabelea
Dec 1, 2000; 49:2208-2211
Articles

Eve Van Cauter
Mar 1, 1992; 41:368-377
Original Article

Roger H Unger
Aug 1, 1995; 44:863-870
Perspectives in Diabetes

Samar I. Itani
Jul 1, 2002; 51:2005-2011
Rapid Publications

G Xu
Dec 1, 1999; 48:2270-2276
Articles

J. Denis McGarry
Jan 1, 2002; 51:7-18
Banting Lecture 2001

Paul E Lacy
Jan 1, 1967; 16:35-39
Original Contribution

Andreas Festa
Apr 1, 2002; 51:1131-1137
Complications

The Diabetes Control and Complications Trial Research Group
Aug 1, 1995; 44:968-983
Original Article

David E. Cummings
Aug 1, 2001; 50:1714-1719
Rapid Publications

Thomas A. Buchanan
Sep 1, 2002; 51:2796-2803
Pathophysiology

ME Griffin
Jun 1, 1999; 48:1270-1274
Articles

Guenther Boden
Jan 1, 1997; 46:3-10
Perspectives in Diabetes

U.K. Prospective Diabetes Study Group
Nov 1, 1995; 44:1249-1258
Perspectives in Diabetes

HE Hohmeier
Mar 1, 2000; 49:424-430
Articles

Michael Brownlee
Jun 1, 2005; 54:1615-1625
Banting Lecture 2004

Patrice D. Cani
Jul 1, 2007; 56:1761-1772
Obesity Studies

National Diabetes Data Group
Dec 1, 1979; 28:1039-1057
Articles

Alexandra E. Butler
Jan 1, 2003; 52:102-110
Islet Studies

Gerald M Reaven
Dec 1, 1988; 37:1595-1607
Banting Lecture 1988

Night shift work, behavioral rhythms, and the common MTNR1B risk single nucleotide polymorphism (SNP), rs10830963, associate with type 2 diabetes; however, whether they exert joint effects to exacerbate type 2 diabetes risk is unknown. Among employed participants of European ancestry in the UK Biobank (N = 189,488), we aimed to test the cross-sectional independent associations and joint interaction effects of these risk factors on odds of type 2 diabetes (n = 5,042 cases) and HbA_1c levels (n = 175,156). Current shift work, definite morning or evening preference, and MTNR1B rs10830963 risk allele associated with type 2 diabetes and HbA_1c levels. The effect of rs10830963 was not modified by shift work schedules. While marginal evidence of interaction between self-reported morningness-eveningness preference and rs10830963 on risk of type 2 diabetes was seen, this interaction did not persist when analysis was expanded to include all participants regardless of employment status and when accelerometer-derived sleep midpoint was used as an objective measure of morningness-eveningness preference. Our findings suggest that MTNR1B risk allele carriers who carry out shift work or have more extreme morningness-eveningness preference may not have enhanced risk of type 2 diabetes.

This study aims to model genetic, immunologic, metabolomics, and proteomic biomarkers for development of islet autoimmunity (IA) and progression to type 1 diabetes in a prospective high-risk cohort. We studied 67 children: 42 who developed IA (20 of 42 progressed to diabetes) and 25 control subjects matched for sex and age. Biomarkers were assessed at four time points: earliest available sample, just prior to IA, just after IA, and just prior to diabetes onset. Predictors of IA and progression to diabetes were identified across disparate sources using an integrative machine learning algorithm and optimization-based feature selection. Our integrative approach was predictive of IA (area under the receiver operating characteristic curve [AUC] 0.91) and progression to diabetes (AUC 0.92) based on standard cross-validation (CV). Among the strongest predictors of IA were change in serum ascorbate, 3-methyl-oxobutyrate, and the PTPN22 (rs2476601) polymorphism. Serum glucose, ADP fibrinogen, and mannose were among the strongest predictors of progression to diabetes. This proof-of-principle analysis is the first study to integrate large, diverse biomarker data sets into a limited number of features, highlighting differences in pathways leading to IA from those predicting progression to diabetes. Integrated models, if validated in independent populations, could provide novel clues concerning the pathways leading to IA and type 1 diabetes.

Children at increased genetic risk for type 1 diabetes (T1D) after environmental exposures may develop pancreatic islet autoantibodies (IA) at a very young age. Metabolic profile changes over time may imply responses to exposures and signal development of the first IA. Our present research in The Environmental Determinants of Diabetes in the Young (TEDDY) study aimed to identify metabolome-wide signals preceding the first IA against GAD (GADA-first) or against insulin (IAA-first). We profiled metabolomes by mass spectrometry from children’s plasma at 3-month intervals after birth until appearance of the first IA. A trajectory analysis discovered each first IA preceded by reduced amino acid proline and branched-chain amino acids (BCAAs), respectively. With independent time point analysis following birth, we discovered dehydroascorbic acid (DHAA) contributing to the risk of each first IA, and -aminobutyric acid (GABAs) associated with the first autoantibody against insulin (IAA-first). Methionine and alanine, compounds produced in BCAA metabolism and fatty acids, also preceded IA at different time points. Unsaturated triglycerides and phosphatidylethanolamines decreased in abundance before appearance of either autoantibody. Our findings suggest that IAA-first and GADA-first are heralded by different patterns of DHAA, GABA, multiple amino acids, and fatty acids, which may be important to primary prevention of T1D.

Most replicated genetic determinants for type 1 diabetes are common (minor allele frequency [MAF] >5%). We aimed to identify novel rare or low-frequency (MAF <5%) single nucleotide polymorphisms with large effects on risk of type 1 diabetes. We undertook deep imputation of genotyped data followed by genome-wide association testing and meta-analysis of 9,358 type 1 diabetes case and 15,705 control subjects from 12 European cohorts. Candidate variants were replicated in a separate cohort of 4,329 case and 9,543 control subjects. Our meta-analysis identified 27 independent variants outside the MHC, among which 3 were novel and had MAF <5%. Three of these variants replicated with P_replication < 0.05 and P_combined < P_discovery. In silico analysis prioritized a rare variant at 2q24.3 (rs60587303 [C], MAF 0.5%) within the first intron of STK39, with an effect size comparable with those of common variants in the INS and PTPN22 loci (combined [from the discovery and replication cohorts] estimate of odds ratio [OR_combined] 1.97, 95% CI 1.58–2.47, P_combined = 2.9 x 10^–9). Pharmacological inhibition of Stk39 activity in primary murine T cells augmented effector responses through enhancement of interleukin 2 signaling. These findings provide insight into the genetic architecture of type 1 diabetes and have identified rare variants having a large effect on disease risk.

The cardiovascular benefits of fibrates have been shown to be heterogeneous and to depend on the presence of atherogenic dyslipidemia. We investigated whether genetic variability in the PPARA gene, coding for the pharmacological target of fibrates (PPAR-α), could be used to improve the selection of patients with type 2 diabetes who may derive cardiovascular benefit from addition of this treatment to statins. We identified a common variant at the PPARA locus (rs6008845, C/T) displaying a study-wide significant influence on the effect of fenofibrate on major cardiovascular events (MACE) among 3,065 self-reported white subjects treated with simvastatin and randomized to fenofibrate or placebo in the ACCORD-Lipid trial. T/T homozygotes (36% of participants) experienced a 51% MACE reduction in response to fenofibrate (hazard ratio 0.49; 95% CI 0.34–0.72), whereas no benefit was observed for other genotypes (P_interaction = 3.7 x 10^–4). The rs6008845-by-fenofibrate interaction on MACE was replicated in African Americans from ACCORD (N = 585, P = 0.02) and in external cohorts (ACCORD-BP, ORIGIN, and TRIUMPH, total N = 3059, P = 0.005). Remarkably, rs6008845 T/T homozygotes experienced a cardiovascular benefit from fibrate even in the absence of atherogenic dyslipidemia. Among these individuals, but not among carriers of other genotypes, fenofibrate treatment was associated with lower circulating levels of CCL11—a proinflammatory and atherogenic chemokine also known as eotaxin (P for rs6008845-by-fenofibrate interaction = 0.003). The GTEx data set revealed regulatory functions of rs6008845 on PPARA expression in many tissues. In summary, we have found a common PPARA regulatory variant that influences the cardiovascular effects of fenofibrate and that could be used to identify patients with type 2 diabetes who would derive benefit from fenofibrate treatment, in addition to those with atherogenic dyslipidemia.

Long-term hyperglycemia in patients with diabetes leads to human serum albumin (HSA) glycation, which may impair HSA function as a transport protein and affect the therapeutic efficacy of anticoagulants in patients with diabetes. In this study, a novel mass spectrometry approach was developed to reveal the differences in the profiles of HSA glycation sites between patients with diabetes and healthy subjects. K199 was the glycation site most significantly changed in patients with diabetes, contributing to different interactions of glycated HSA and normal HSA with two types of anticoagulant drugs, heparin and warfarin. An in vitro experiment showed that the binding affinity to warfarin became stronger when HSA was glycated, while HSA binding to heparin was not significantly influenced by glycation. A pharmacokinetic study showed a decreased level of free warfarin in the plasma of diabetic rats. A preliminary retrospective clinical study also revealed that there was a statistically significant difference in the anticoagulant efficacy between patients with diabetes and patients without diabetes who had been treated with warfarin. Our work suggests that larger studies are needed to provide additional specific guidance for patients with diabetes when they are administered anticoagulant drugs or drugs for treating other chronic diseases.

The People’s National Party (PNP) has asserted that the absence of a quarantine order for three St Mary communities is adding to the state of confusion. The 14-day measure began on Thursday in Dover, Enfield and Annotto Bay at 6 a.m. “The lack of...

Many taxi and bus operators in sections of Kingston and St Andrew are seemingly adhering to social-distancing guidelines outlined by the Government for the sector, in terms of the number of passengers they are allowed to transport at a time. These...

DOVER, St Mary: Residents of Epsom and Dover in St Mary are on edge, but have accepted quarantine measures imposed by the Government to curtail the spread of the dreaded coronavirus in that parish. Security checkpoints at both ends of the parish...

PORT AU PRINCE, Haiti, CMC – The Government of Haiti has received funds amounting to US$16.1 million from the United States to help the country respond to the COVID-19 pandemic. The funds from the United States Agency for International...

Director of the Pan American Health Organization (PAHO), Carissa Etienne, today urged for vaccination programmes to continue during the COVID-19 pandemic. “If we fall behind on routine immunisations, particularly for children, we risk...

As of May 6, officials in Nevis are reporting that there are no active cases of the deadly COVID-19 virus on the island. This was confirmed Tuesday by Premier Mark Brantley, Minister responsible for Health, in the Nevis Island Administration....

PORT OF SPAIN, Trinidad, CMC – The Trinidad-based Caribbean Public Health Agency (CARPHA) is urging people in the region to remember that despite the coronavirus (COVID-19) pandemic, they must be mindful that other public health threats still...

Glucagon-like peptide 1 (GLP-1) mimetics are effective drugs for treatment of type 2 diabetes, and there is consequently extensive interest in increasing endogenous GLP-1 secretion and L-cell abundance. Here we identify G-protein–coupled bile acid receptor 1 (GPBAR1) as a selective regulator of intestinal L-cell differentiation. Lithocholic acid and the synthetic GPBAR1 agonist, L3740, selectively increased L-cell density in mouse and human intestinal organoids and elevated GLP-1 secretory capacity. L3740 induced expression of Gcg and transcription factors Ngn3 and NeuroD1. L3740 also increased the L-cell number and GLP-1 levels and improved glucose tolerance in vivo. Further mechanistic examination revealed that the effect of L3740 on L cells required intact GLP-1 receptor and serotonin 5-hydroxytryptamine receptor 4 (5-HT4) signaling. Importantly, serotonin signaling through 5-HT4 mimicked the effects of L3740, acting downstream of GLP-1. Thus, GPBAR1 agonists and other powerful GLP-1 secretagogues facilitate L-cell differentiation through a paracrine GLP-1–dependent and serotonin-mediated mechanism.