PAM Haploinsufficiency Does Not Accelerate the Development of Diet- and Human IAPP-induced Diabetes in Mice

Overview

Journal Diabetologia

Specialty Endocrinology

Date 2020 Jan 28

PMID 31984442

Citations 7

Authors

Yi-Chun Chen

Richard E Mains

Betty A Eipper

Brad G Hoffman

Traci A Czyzyk

John E Pintar

C Bruce Verchere

Affiliations

Soon will be listed here.

Abstract

Aims/hypothesis: Peptide hormones are first synthesised as larger, inactive precursors that are converted to their active forms by endopeptidase cleavage and post-translational modifications, such as amidation. Recent, large-scale genome-wide studies have suggested that two coding variants of the amidating enzyme, peptidylglycine α-amidating monooxygenase (PAM), are associated with impaired insulin secretion and increased type 2 diabetes risk. We aimed to elucidate the role of PAM in modulating beta cell peptide amidation, beta cell function and the development of diabetes.

Methods: PAM transcript and protein levels were analysed in mouse islets following induction of endoplasmic reticulum (ER) or cytokine stress, and PAM expression patterns were examined in human islets. To study whether haploinsufficiency of PAM accelerates the development of diabetes, Pam and Pam mice were fed a low-fat diet (LFD) or high-fat diet (HFD) and glucose homeostasis was assessed. Since aggregates of the PAM substrate human islet amyloid polypeptide (hIAPP) lead to islet inflammation and beta cell failure, we also investigated whether PAM haploinsufficiency accelerated hIAPP-induced diabetes and islet amyloid formation in Pam and Pam mice with beta cell expression of hIAPP.

Results: Immunostaining revealed high expression of PAM in alpha, beta and delta cells in human pancreatic islets. Pam mRNA and PAM protein expression were reduced in mouse islets following administration of an HFD, and in isolated islets following induction of ER stress with thapsigargin, or cytokine stress with IL-1β, IFN-γ and TFN-α. Despite Pam only having 50% PAM expression and enzyme activity as compared with Pam mice, glucose tolerance and body mass composition were comparable in the two models. After 24 weeks of HFD, both Pam and Pam mice had insulin resistance and impaired glucose tolerance, but no differences in glucose tolerance, insulin sensitivity or plasma insulin levels were observed in PAM haploinsufficient mice. Islet amyloid formation and beta cell function were also similar in Pam and Pam mice with beta cell expression of hIAPP.

Conclusions/interpretation: Haploinsufficiency of PAM in mice does not accelerate the development of diet-induced obesity or hIAPP transgene-induced diabetes.

Citing Articles

Deficiency of Peptidylglycine-alpha-amidating Monooxygenase, a Cause of Sarcopenic Diabetes Mellitus.

Giontella A, Akerlund M, Bronton K, Fava C, Lotta L, Baras A J Clin Endocrinol Metab. 2024; 110(3):820-829.

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Top-Down Proteomics of Mouse Islets With Beta Cell CPE Deletion Reveals Molecular Details in Prohormone Processing.

Fulcher J, Swensen A, Chen Y, Verchere C, Petyuk V, Qian W Endocrinology. 2023; 164(12).

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Immunoassay-based quantification of full-length peptidylglycine alpha-amidating monooxygenase in human plasma.

Ilina Y, Kaufmann P, Melander O, Press M, Thuene K, Bergmann A Sci Rep. 2023; 13(1):10827.

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Deletion of Carboxypeptidase E in β-Cells Disrupts Proinsulin Processing but Does Not Lead to Spontaneous Development of Diabetes in Mice.

Chen Y, Taylor A, Fulcher J, Swensen A, Dai X, Komba M Diabetes. 2023; 72(9):1277-1288.

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Predicting mechanisms of action at genetic loci associated with discordant effects on type 2 diabetes and abdominal fat accumulation.

Aberra Y, Ma L, Bjorkegren J, Civelek M Elife. 2023; 12.

PMID: 37326626 PMC: 10275637. DOI: 10.7554/eLife.79834.

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