Litcius/Paper detail

α-CGRP disrupts amylin fibrillization and regulates insulin secretion: implications on diabetes and migraine

Amber L. H. Gray, Aleksandra Antevska, Benjamin A. Link, Bryan A. Bogin, Susan J. Burke, Samuel D. Dupuy, J. Jason Collier, Zachary A. Levine, Michael D. Karlstad, D. Thanh

2021Chemical Science20 citationsDOIOpen Access PDF

Abstract

Despite being relatively benign and not an indicative signature of toxicity, fibril formation and fibrillar structures continue to be key factors in assessing the structure-function relationship in protein aggregation diseases. The inability to capture molecular cross-talk among key players at the tissue level before fibril formation greatly accounts for the missing link toward the development of an efficacious therapeutic intervention for Type II diabetes mellitus (T2DM). We show that human α-calcitonin gene-related peptide (α-CGRP) remodeled amylin fibrillization. Furthermore, while CGRP and/or amylin monomers reduce the secretion of both mouse Ins1 and Ins2 proteins, CGRP oligomers have a reverse effect on Ins1. Genetically reduced Ins2, the orthologous version of human insulin, has been shown to enhance insulin sensitivity and extend the life-span in old female mice. Beyond the mechanistic insights, our data suggest that CGRP regulates insulin secretion and lowers the risk of T2DM. Our result rationalizes how migraine might be protective against T2DM. We envision the new paradigm of CGRP : amylin interactions as a pivotal aspect for T2DM diagnostics and therapeutics. Maintaining a low level of amylin while increasing the level of CGRP could become a viable approach toward T2DM prevention and treatment.

Topics & Concepts

AmylinCalcitonin gene-related peptideInsulinSecretionCalcitoninEndocrinologyInternal medicineDiabetes mellitusType 2 Diabetes MellitusChemistryBiologyMedicineNeuropeptideReceptorIsletNeuropeptides and Animal PhysiologyAlzheimer's disease research and treatmentsS100 Proteins and Annexins