Plasma Fucosylated Glycans and C-Reactive Protein as Biomarkers of HNF1A-MODY in Young Adult–Onset Nonautoimmune Diabetes

Juszczak, Agata; Pavić, Tamara; Vučković, Frano; Bennett, Amanda J.; Shah, Nilpa; Medvidović, Edita Pape; Groves, Christopher J.; Šekerija, Mario; Chandler, Kyla; Burrows, Carla; Putarek, Nataša Rojnić; Lovrenčić, Marijana Vučić; Knezević, J; James, Tim; Gloyn, Anna L.; Lauc, Gordan; McCarthy, Mark I.; Owen, Katharine R.; Gornik, Olga

doi:10.2337/dc18-0422

Cited by 46 publications

(82 citation statements)

References 39 publications

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“…Studies of N-glycosylation changes have demonstrated their potential for identifying individuals at an increased risk of type 2 diabetes development [39], indicating that interindividual variation in protein glycosylation might be a novel risk factor in diabetes. Furthermore, it has been shown that it is possible to distinguish individuals with different types of diabetes based on their N-glycome data, as it is the case for the HNF1A-MODY and its differentiation from other common and rare types of diabetes [38,42]. N-glycan branching on T cells has been implicated in the development of type 1 diabetes, and N-glycan branching on glucose transporter has been implicated in the development of type 2 diabetes [23,43,44,73,105].…”

Section: Discussionmentioning

confidence: 99%

“…Both antennary fucosylated N‐glycans and hs‐CRP enabled differentiation of individuals with damaging HNF1A alleles; both biomarkers performed better in selecting subjects for genetic testing than classical clinical criteria or the MODY probability calculator . These results imply that it may be possible to identify individuals with a high risk of having damaging HNF1A allele based on glycan biomarkers .…”

Section: Other Types Of Diabetesmentioning

confidence: 92%

“…Overview of implicated N-glycans and glycosyltransferase genes with proposed mechanism for the pathogenesis of different types of diabetes. Risk factor; it was demonstrated that HNF1A inhibits expression of FUT8 and thus formation of core fucosylated N-glycans and activates fucosyltransferases involved in the formation of antennary fucosylated N-glycans (FUT3, -5, -6) which are decreased upon loss-offunction of HNF1A [30,38,42] Gestational diabetes N-glycans with sialic acid, fucose, and mannose…”

Section: N-glycosylation and Its Implication In Diabetesmentioning

confidence: 99%

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Altered N‐glycosylation profiles as potential biomarkers and drug targets in diabetes

2019

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N‐glycosylation is a ubiquitous protein modification, and N‐glycosylation profiles are emerging as both biomarkers and functional effectors in various types of diabetes. Genome‐wide association studies identified glycosyltransferase genes as candidate causal genes for type 1 and type 2 diabetes. Studies focused on N‐glycosylation changes in type 2 diabetes demonstrated that patients can be distinguished from healthy controls based on N‐glycome composition. In addition, individuals at an increased risk of future disease development could be identified based on N‐glycome profiles. Moreover, accumulating evidence indicates that N‐glycans have a major role in preventing the impairment of glucose‐stimulated insulin secretion by maintaining the glucose transporter in proper orientation, indicating that interindividual variation in protein N‐glycosylation might be a novel risk factor contributing to diabetes development. Defective N‐glycosylation of T cells has been implicated in type 1 diabetes pathogenesis. Furthermore, studies of N‐glycan alterations have successfully been used to identify individuals with rare types of diabetes (such as the HNF1A‐MODY), and also to evaluate functional significance of novel diabetes‐associated mutations. In conclusion, both N‐glycans and glycosyltransferases emerge as potential therapeutic targets in diabetes.

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Section: Discussionmentioning

confidence: 99%

Section: Other Types Of Diabetesmentioning

confidence: 92%

Section: N-glycosylation and Its Implication In Diabetesmentioning

confidence: 99%

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Altered N‐glycosylation profiles as potential biomarkers and drug targets in diabetes

2019

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“…We assessed predicted pathogenicity using established in silico tools, in line with the American College of Medical Genetics classification (10) and as previously described (11). For structural analysis, we used FoldX (12), introducing variants p.A251T and a nearby MODY-causing mutation, p.V246 L (13), into the structure of the HNF1A DNA binding domain complexed with DNA (Research Collaboratory for Structural Bioinformatics Protein Data Bank identifier 1IC8) (14).…”

Section: In Silico Modeling Of Pathogenicitymentioning

confidence: 99%

“…The impact of p.A251T on HNF1A function was assessed by using a suite of in vitro assays, as described previously (11). This impact on function was compared with that of wild-type HNF1A and two DNA binding domain mutations that cause MODY.…”

Section: In Vitro Functional Characterizationmentioning

confidence: 99%

Homozygous Hypomorphic HNF1A Alleles Are a Novel Cause of Young-Onset Diabetes and Result in Sulfonylurea-Sensitive Diabetes

et al. 2020

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Heterozygous loss-of-function mutations in HNF1A cause maturity-onset diabetes of the young (MODY). Affected individuals can be treated with low-dose sulfonylureas. Individuals with homozygous HNF1A mutations causing MODY have not been reported. RESEARCH DESIGN AND METHODS We phenotyped a kindred with young-onset diabetes and performed molecular genetic testing, a mixed meal tolerance test, a sulfonylurea challenge, and in vitro assays to assess variant protein function. RESULTS A homozygous HNF1A variant (p.A251T) was identified in three insulin-treated family members diagnosed with diabetes before 20 years of age. Those with the homozygous variant had low hs-CRP levels (0.2-0.8 mg/L), and those tested demonstrated sensitivity to sulfonylurea given at a low dose, completely transitioning off insulin. In silico modeling predicted a variant of unknown significance; however, in vitro studies supported a modest reduction in transactivation potential (79% of that for the wild type; P < 0.05) in the absence of endogenous HNF1A. CONCLUSIONS Homozygous hypomorphic HNF1A variants are a cause of HNF1A-MODY. We thus expand the allelic spectrum of variants in dominant genes causing diabetes.

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Protein Glycosylation in Diabetes

Štambuk

Gornik

2021

Advances in Experimental Medicine and Biology

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Plasma Fucosylated Glycans and C-Reactive Protein as Biomarkers of HNF1A-MODY in Young Adult–Onset Nonautoimmune Diabetes

Cited by 46 publications

References 39 publications

Altered N‐glycosylation profiles as potential biomarkers and drug targets in diabetes

Altered N‐glycosylation profiles as potential biomarkers and drug targets in diabetes

Homozygous Hypomorphic HNF1A Alleles Are a Novel Cause of Young-Onset Diabetes and Result in Sulfonylurea-Sensitive Diabetes

Protein Glycosylation in Diabetes

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