Glucoregulatory activity of vesiculin in insulin sensitive and resistant mice

Research output: Contribution to journalArticle

  • External authors:
  • Kate L. Lee
  • Jacqueline F. Aitken
  • Huai L. Hsu
  • Geoffrey M. Williams
  • Margaret A. Brimble

Abstract

Pancreatic islet-derived peptide hormones play key roles in the maintenance of systemic energy homeostasis and glucose balance and defects in their regulation are strongly implicated in the pathogenesis of obesity and diabetes. Peptides have also been used as lead compounds for therapeutics targeting metabolic disease. It is therefore important to understand the activity and function of islet hormones in both their target tissues and the whole organism. Insulin-like growth factor II (IGF-II)is an insulin homolog secreted by the islet β-cells. Vesiculin is a newly discovered peptide hormone, processed from IGF-II and secreted from islet β-cells in response to glucose. We postulated that vesiculin might act to regulate systemic glucose metabolism. Here we report our original investigations of vesiculin's activity in relation to glucoregulation. Vesiculin and IGF-II displayed similar dose-response relationships for lowering blood glucose in insulin-responsive FVB/n mice. By contrast, the ability of IGF-II to lower blood glucose was blunted in insulin-resistant triprolyl human-amylin transgenic mice, whereas vesiculin's ability to lower blood glucose remained unaffected. We also confirmed the ability of vesiculin to bypass insulin resistance in a second mouse model. In vitro analysis of signalling by vesiculin and IGF-II indicates that, like IGF-II, vesiculin signals through the IR/ IGF1R. Overall, we show that removal of only four amino acids from IGF-II has generated a peptide hormone with different bioactivity relevant to blood-glucose regulation. Investigating the differences among vesiculin, IGF-II and insulin signalling and activity may provide new insights into insulin resistance and potentially inform the design of novel therapeutics

Bibliographical metadata

Original languageEnglish
Pages (from-to)1-7
Number of pages7
JournalPeptides
Volume116
Early online date21 Apr 2019
DOIs
Publication statusPublished - 1 Jun 2019