1. Academic Validation
  2. An orally available hypoglycaemic peptide taken up by caveolae transcytosis displays improved hypoglycaemic effects and body weight control in db/db mice

An orally available hypoglycaemic peptide taken up by caveolae transcytosis displays improved hypoglycaemic effects and body weight control in db/db mice

  • Br J Pharmacol. 2020 Aug;177(15):3473-3488. doi: 10.1111/bph.15069.
Weisheng Lu 1 Hong Tian 1 Peng Qian 1 Ying Li 1 Yongkang Wang 1 Yang Ge 1 Wenbo Sai 1 Xiangdong Gao 1 Wenbing Yao 1
Affiliations

Affiliation

  • 1 Jiangsu Key Laboratory of Druggability of Biopharmaceuticals, School of Life Science and Technology, China Pharmaceutical University, Nanjing, China.
Abstract

Background and purpose: Type 2 diabetes is one of the most severe chronic diseases and is an increasingly important public health problem worldwide. Several agonists of the glucagon-like peptide-1 (GLP-1) receptor have been developed to treat Type 2 diabetes but most of them are administered by injection. This mode of administration seriously reduces patient compliance and increases the risk of Infection. Here, we describe the actions of a novel, orally available, GLP-1 Receptor agonist - oral hypoglycaemic peptide 2 (OHP2) - derived from exendin-4 by replacing Amino acids. We have also investigated its pharmacokinetic profiles, therapeutic effects and absorption mechanism.

Experimental approach: Healthy Wistar rats were used for pharmacokinetic analyses. In diabetic db/db mice. OHP2 was given for 8 weeks to evaluate its effects on hyperglycaemia, dyslipidaemia, basal metabolism and tissue injury. Possible endocytosis and transcytosis mechanisms of OHP2 uptake were explored in Caco-2 cell monolayers.

Key results: In rats, the absolute bioavailability of orally administered OHP2 was 20-fold greater than that of orally administered exendin-4. In db/db mice, OHP2 dose-dependently exhibits good potential in glucose-lowering and weight loss after oral administration. OHP2 also alleviated hyperlipidaemia, ameliorated energy metabolism and promoted tissue repair in diabetic mice. Furthermore, uptake of OHP2 by Caco-2 cells was dependent on caveolae-mediated transcytosis rather than endocytosis mediated by GLP-1 receptors.

Conclusions and implications: OHP2 is a potential, orally bioavailable, candidate drug for the treatment of Type 2 diabetes. Its transcytosis mechanism of uptake could help in the development of absorption enhancers of OHP2.

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