Your search keyword '"van Leeuwen, Nienke"' showing total 3 results

1. Genome-Wide Meta-analysis Identifies Genetic Variants Associated With Glycemic Response to Sulfonylureas.

Author

Dawed AY, Yee SW, Zhou K, van Leeuwen N, Zhang Y, Siddiqui MK, Etheridge A, Innocenti F, Xu F, Li JH, Beulens JW, van der Heijden AA, Slieker RC, Chang YC, Mercader JM, Kaur V, Witte JS, Lee MTM, Kamatani Y, Momozawa Y, Kubo M, Palmer CNA, Florez JC, Hedderson MM, 't Hart LM, Giacomini KM, and Pearson ER

Subjects

Blood Glucose metabolism, Genome-Wide Association Study, Glycated Hemoglobin metabolism, Humans, Hypoglycemic Agents therapeutic use, Likelihood Functions, Liver-Specific Organic Anion Transporter 1 genetics, Sulfonylurea Compounds therapeutic use, Diabetes Mellitus, Type 2 drug therapy, Diabetes Mellitus, Type 2 genetics, Metformin therapeutic use

Abstract

Objective: Sulfonylureas, the first available drugs for the management of type 2 diabetes, remain widely prescribed today. However, there exists significant variability in glycemic response to treatment. We aimed to establish heritability of sulfonylurea response and identify genetic variants and interacting treatments associated with HbA 1c reduction., Research Design and Methods: As an initiative of the Metformin Genetics Plus Consortium (MetGen Plus) and the DIabetes REsearCh on patient straTification (DIRECT) consortium, 5,485 White Europeans with type 2 diabetes treated with sulfonylureas were recruited from six referral centers in Europe and North America. We first estimated heritability using the generalized restricted maximum likelihood approach and then undertook genome-wide association studies of glycemic response to sulfonylureas measured as HbA 1c reduction after 12 months of therapy followed by meta-analysis. These results were supported by acute glipizide challenge in humans who were naïve to type 2 diabetes medications, cis expression quantitative trait loci (eQTL), and functional validation in cellular models. Finally, we examined for possible drug-drug-gene interactions., Results: After establishing that sulfonylurea response is heritable (mean ± SEM 37 ± 11%), we identified two independent loci near the GXYLT1 and SLCO1B1 genes associated with HbA 1c reduction at a genome-wide scale ( P < 5 × 10 -8 ). The C allele at rs1234032, near GXYLT1 , was associated with 0.14% (1.5 mmol/mol), P = 2.39 × 10 -8 ), lower reduction in HbA 1c . Similarly, the C allele was associated with higher glucose trough levels (β = 1.61, P = 0.005) in healthy volunteers in the SUGAR-MGH given glipizide ( N = 857). In 3,029 human whole blood samples, the C allele is a cis eQTL for increased expression of GXYLT1 (β = 0.21, P = 2.04 × 10 -58 ). The C allele of rs10770791, in an intronic region of SLCO1B1 , was associated with 0.11% (1.2 mmol/mol) greater reduction in HbA 1c ( P = 4.80 × 10 -8 ). In 1,183 human liver samples, the C allele at rs10770791 is a cis eQTL for reduced SLCO1B1 expression ( P = 1.61 × 10 -7 ), which, together with functional studies in cells expressing SLCO1B1 , supports a key role for hepatic SLCO1B1 (encoding OATP1B1) in regulation of sulfonylurea transport. Further, a significant interaction between statin use and SLCO1B1 genotype was observed ( P = 0.001). In statin nonusers, C allele homozygotes at rs10770791 had a large absolute reduction in HbA 1c (0.48 ± 0.12% [5.2 ± 1.26 mmol/mol]), equivalent to that associated with initiation of a dipeptidyl peptidase 4 inhibitor., Conclusions: We have identified clinically important genetic effects at genome-wide levels of significance, and important drug-drug-gene interactions, which include commonly prescribed statins. With increasing availability of genetic data embedded in clinical records these findings will be important in prescribing glucose-lowering drugs., (© 2021 by the American Diabetes Association.)

Published

2021

2. Variation in the Plasma Membrane Monoamine Transporter (PMAT) (Encoded by SLC29A4 ) and Organic Cation Transporter 1 (OCT1) (Encoded by SLC22A1 ) and Gastrointestinal Intolerance to Metformin in Type 2 Diabetes: An IMI DIRECT Study.

Author

Dawed AY, Zhou K, van Leeuwen N, Mahajan A, Robertson N, Koivula R, Elders PJM, Rauh SP, Jones AG, Holl RW, Stingl JC, Franks PW, McCarthy MI, 't Hart LM, and Pearson ER

Subjects

Aged, Alleles, Diabetes Mellitus, Type 2 epidemiology, Diabetes Mellitus, Type 2 genetics, Female, Gastrointestinal Diseases chemically induced, Genetic Association Studies, Humans, Hypoglycemic Agents adverse effects, Male, Middle Aged, Polymorphism, Single Nucleotide, Risk Factors, Diabetes Mellitus, Type 2 drug therapy, Drug Hypersensitivity genetics, Equilibrative Nucleoside Transport Proteins genetics, Gastrointestinal Diseases genetics, Metformin adverse effects, Organic Cation Transporter 1 genetics

Abstract

Objective: Gastrointestinal adverse effects occur in 20-30% of patients with metformin-treated type 2 diabetes, leading to premature discontinuation in 5-10% of the cases. Gastrointestinal intolerance may reflect localized high concentrations of metformin in the gut. We hypothesized that reduced transport of metformin via the plasma membrane monoamine transporter (PMAT) and organic cation transporter 1 (OCT1) could increase the risk of severe gastrointestinal adverse effects., Research Design and Methods: The study included 286 severe metformin-intolerant and 1,128 metformin-tolerant individuals from the IMI DIRECT (Innovative Medicines Initiative: DIabetes REsearCh on patient straTification) consortium. We assessed the association of patient characteristics, concomitant medication, and the burden of mutations in the SLC29A4 and SLC22A1 genes on odds of intolerance., Results: Women ( P < 0.001) and older people ( P < 0.001) were more likely to develop metformin intolerance. Concomitant use of transporter-inhibiting drugs increased the odds of intolerance (odds ratio [OR] 1.72, P < 0.001). In an adjusted logistic regression model, the G allele at rs3889348 ( SLC29A4 ) was associated with gastrointestinal intolerance (OR 1.34, P = 0.005). rs3889348 is the top cis -expression quantitative trait locus for SLC29A4 in gut tissue where carriers of the G allele had reduced expression. Homozygous carriers of the G allele treated with transporter-inhibiting drugs had more than three times higher odds of intolerance compared with carriers of no G allele and not treated with inhibiting drugs (OR 3.23, P < 0.001). Use of a genetic risk score derived from rs3889348 and SLC22A1 variants found that the odds of intolerance were more than twice as high in individuals who carry three or more risk alleles compared with those carrying none (OR 2.15, P = 0.01)., Conclusions: These results suggest that intestinal metformin transporters and concomitant medications play an important role in the gastrointestinal adverse effects of metformin., (© 2019 by the American Diabetes Association.)

Published

2019

3. Variation in the glucose transporter gene SLC2A2 is associated with glycemic response to metformin.

Author

Zhou K, Yee SW, Seiser EL, van Leeuwen N, Tavendale R, Bennett AJ, Groves CJ, Coleman RL, van der Heijden AA, Beulens JW, de Keyser CE, Zaharenko L, Rotroff DM, Out M, Jablonski KA, Chen L, Javorský M, Židzik J, Levin AM, Williams LK, Dujic T, Semiz S, Kubo M, Chien HC, Maeda S, Witte JS, Wu L, Tkáč I, Kooy A, van Schaik RHN, Stehouwer CDA, Logie L, Sutherland C, Klovins J, Pirags V, Hofman A, Stricker BH, Motsinger-Reif AA, Wagner MJ, Innocenti F, 't Hart LM, Holman RR, McCarthy MI, Hedderson MM, Palmer CNA, Florez JC, Giacomini KM, and Pearson ER

Subjects

Blood Glucose analysis, Body Mass Index, Diabetes Mellitus, Type 2 drug therapy, Genome-Wide Association Study, Glycated Hemoglobin analysis, Humans, White People, Diabetes Mellitus, Type 2 genetics, Glucose Transporter Type 2 genetics, Hypoglycemic Agents therapeutic use, Metformin therapeutic use, Polymorphism, Single Nucleotide genetics, Quantitative Trait, Heritable

Abstract

Metformin is the first-line antidiabetic drug with over 100 million users worldwide, yet its mechanism of action remains unclear. Here the Metformin Genetics (MetGen) Consortium reports a three-stage genome-wide association study (GWAS), consisting of 13,123 participants of different ancestries. The C allele of rs8192675 in the intron of SLC2A2, which encodes the facilitated glucose transporter GLUT2, was associated with a 0.17% (P = 6.6 × 10(-14)) greater metformin-induced reduction in hemoglobin A1c (HbA1c) in 10,577 participants of European ancestry. rs8192675 was the top cis expression quantitative trait locus (cis-eQTL) for SLC2A2 in 1,226 human liver samples, suggesting a key role for hepatic GLUT2 in regulation of metformin action. Among obese individuals, C-allele homozygotes at rs8192675 had a 0.33% (3.6 mmol/mol) greater absolute HbA1c reduction than T-allele homozygotes. This was about half the effect seen with the addition of a DPP-4 inhibitor, and equated to a dose difference of 550 mg of metformin, suggesting rs8192675 as a potential biomarker for stratified medicine., Competing Interests: The authors have declared that no competing interests exist.

Published

2016