Neonatal diabetes mellitus due to a novel variant in the <i>INS</i> gene

Laurenzano, Sarah; McFall, Cory; Nguyen, Linda; Savla, Dipal; Coufal, Nicole G.; Wright, Meredith S.; Tokita, Mari; Dimmock, David; Newfield, Ron S.

doi:10.1101/mcs.a004085

Cited by 7 publications

(2 citation statements)

References 20 publications

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“…From the literature, Laurenzano et al, in 2019, detected a P9R missense variant of the INS gene in a patient, which occurs in the signal peptide of the preproinsulin molecule in an amino acid residue that is highly conserved [32]. Also, the results of Balboa et al, in 2018, demonstrated that neonatal diabetes-associated INS mutations lead to defective beta-cell mass expansion, leading to diabetes development [9].…”

Section: Discussionmentioning

confidence: 99%

Computational Analysis of Deleterious nsSNPs in INS Gene Associated with Permanent Neonatal Diabetes Mellitus

Ahmed,

Elangeeb,

Adam

et al. 2024

JPM

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Insulin gene mutations affect the structure of insulin and are considered a leading cause of neonatal diabetes and permanent neonatal diabetes mellitus PNDM. These mutations can affect the production and secretion of insulin, resulting in inadequate insulin levels and subsequent hyperglycemia. Early discovery or prediction of PNDM can aid in better management and treatment. The current study identified potential deleterious non-synonymous single nucleotide polymorphisms nsSNPs in the INS gene. The analysis of the nsSNPs in the INS gene was conducted using bioinformatics tools by implementing computational algorithms including SIFT, PolyPhen2, SNAP2, SNPs & GO, PhD-SNP, MutPred2, I-Mutant, MuPro, and HOPE tools to investigate the prediction of the potential association between nsSNPs in the INS gene and PNDM. Three mutations, C96Y, P52R, and C96R, were shown to potentially reduce the stability and function of the INS protein. These mutants were subjected to MDSs for structural analysis. Results suggested that these three potential pathogenic mutations may affect the stability and functionality of the insulin protein encoded by the INS gene. Therefore, these changes may influence the development of PNDM. Further researches are required to fully understand the various effects of mutations in the INS gene on insulin synthesis and function. These data can aid in genetic testing for PNDM to evaluate its risk and create treatment and prevention strategies in personalized medicine.

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Section: Discussionmentioning

confidence: 99%

Computational Analysis of Deleterious nsSNPs in INS Gene Associated with Permanent Neonatal Diabetes Mellitus

Ahmed,

Elangeeb,

Adam

et al. 2024

JPM

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“…This observation may be explained as the introduction of an additional cysteine may result in misfolding and/or aggregation. The p.P9R ( c.26C>G ) and p.L14R are signal peptide mutations cited as a cause of NDM through β-cell dysfunction, likely due to the introduction of a large and positively-charged arginine residue, in place of a comparatively smaller proline, that confers conformational rigidity and a hydrophobic non-polar leucine residue, respectively [ 4 , 46 ]. Although p.A2T does not affect preproinsulin translocation, it impairs signal peptide cleavage and thus, prevents the production of proinsulin, resulting in MODY type 10 [ 47 ].…”

Section: Insulin Gene Mutationsmentioning

confidence: 99%

A Review of the Biosynthesis and Structural Implications of Insulin Gene Mutations Linked to Human Disease

Ataie-Ashtiani

Forbes

2023

Cells

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The discovery of the insulin hormone over 100 years ago, and its subsequent therapeutic application, marked a key landmark in the history of medicine and medical research. The many roles insulin plays in cell metabolism and growth have been revealed by extensive investigations into the structure and function of insulin, the insulin tyrosine kinase receptor (IR), as well as the signalling cascades, which occur upon insulin binding to the IR. In this review, the insulin gene mutations identified as causing disease and the structural implications of these mutations will be discussed. Over 100 studies were evaluated by one reviewing author, and over 70 insulin gene mutations were identified. Mutations may impair insulin gene transcription and translation, preproinsulin trafficking and proinsulin sorting, or insulin-IR interactions. A better understanding of insulin gene mutations and the resultant pathophysiology can give essential insight into the molecular mechanisms underlying impaired insulin biosynthesis and insulin-IR interaction.

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Incomplete penetrance and variable expressivity in monogenic diabetes; a challenge but also an opportunity

Popović²,

Wang

et al. 2023

Rev Endocr Metab Disord

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Neonatal diabetes mellitus due to a novel variant in the INS gene

Cited by 7 publications

References 20 publications

Computational Analysis of Deleterious nsSNPs in INS Gene Associated with Permanent Neonatal Diabetes Mellitus

Computational Analysis of Deleterious nsSNPs in INS Gene Associated with Permanent Neonatal Diabetes Mellitus

A Review of the Biosynthesis and Structural Implications of Insulin Gene Mutations Linked to Human Disease

Incomplete penetrance and variable expressivity in monogenic diabetes; a challenge but also an opportunity

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