Naturally Occurring Variants of the Dysglycemic Peptide Pancreastatin

Allu, Prasanna K.R. ; Chirasani, Venkat R. ; Ghosh, Dhiman ; Mani, Anitha ; Bera, Amal K. ; Maji, Samir K. ; Senapati, Sanjib ; Mullasari, Ajit S. ; Mahapatra, Nitish R. (2014) Naturally Occurring Variants of the Dysglycemic Peptide Pancreastatin Journal of Biological Chemistry, 289 (7). pp. 4455-4469. ISSN 00219258

Full text not available from this repository.

Official URL: http://doi.org/10.1074/jbc.M113.520916

Related URL: http://dx.doi.org/10.1074/jbc.M113.520916

Abstract

Pancreastatin (PST), a chromogranin A-derived peptide, is a potent physiological inhibitor of glucose-induced insulin secretion. PST also triggers glycogenolysis in liver and reduces glucose uptake in adipocytes and hepatocytes. Here, we probed for genetic variations in PST sequence and identified two variants within its functionally important carboxyl terminus domain: E287K and G297S. To understand functional implications of these amino acid substitutions, we tested the effects of wild-type (PST-WT), PST-287K, and PST-297S peptides on various cellular processes/events. The rank order of efficacy to inhibit insulin-stimulated glucose uptake was: PST-297S > PST-287K > PST-WT. The PST peptides also displayed the same order of efficacy for enhancing intracellular nitric oxide and Ca2+ levels in various cell types. In addition, PST peptides activated gluconeogenic genes in the following order: PST-297S ≈ PST-287K > PST-WT. Consistent with these in vitro results, the common PST variant allele Ser-297 was associated with significantly higher (by ∼17 mg/dl, as compared with the wild-type Gly-297 allele) plasma glucose level in our study population (n = 410). Molecular modeling and molecular dynamics simulations predicted the following rank order of α-helical content: PST-297S > PST-287K > PST-WT. Corroboratively, circular dichroism analysis of PST peptides revealed significant differences in global structures (e.g. the order of propensity to form α-helix was: PST-297S ≈ PST-287K > PST-WT). This study provides a molecular basis for enhanced potencies/efficacies of human PST variants (likely to occur in ∼300 million people worldwide) and has quantitative implications for inter-individual variations in glucose/insulin homeostasis.

Item Type:Article
Source:Copyright of this article belongs to The American Society
Keywords:Genetic Polymorphism, Glucose Metabolism, Metabolic Diseases, Molecular Modeling, Nitric Oxide, Peptide Hormones, Glucose Uptake, Human Genetic Variation, Metabolic Disorder, Pancreastatin
ID Code:126516
Deposited On:31 Oct 2022 04:20
Last Modified:31 Oct 2022 04:20

Repository Staff Only: item control page