Alan Hégron scite author profile

Efficacy of monoclonal antibodies against calcitonin gene-related peptide (CGRP) or its receptor (calcitonin receptor-like receptor/receptor activity modifying protein-1, CLR/RAMP1) implicates peripherally-released CGRP in migraine pain. However, the site and mechanism of CGRP-evoked peripheral pain remain unclear. By cell-selective RAMP1 gene deletion, we reveal that CGRP released from mouse cutaneous trigeminal fibers targets CLR/RAMP1 on surrounding Schwann cells to evoke periorbital mechanical allodynia. CLR/RAMP1 activation in human and mouse Schwann cells generates long-lasting signals from endosomes that evoke cAMP-dependent formation of NO. NO, by gating Schwann cell transient receptor potential ankyrin 1 (TRPA1), releases ROS, which in a feed-forward manner sustain allodynia via nociceptor TRPA1. When encapsulated into nanoparticles that release cargo in acidified endosomes, a CLR/RAMP1 antagonist provides superior inhibition of CGRP signaling and allodynia in mice. Our data suggest that the CGRP-mediated neuronal/Schwann cell pathway mediates allodynia associated with neurogenic inflammation, contributing to the algesic action of CGRP in mice.

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Type 2 diabetes–associated variants of the MT ₂ melatonin receptor affect distinct modes of signaling

Karamitri

Plouffe

Bonnefond

et al. 2018

Sci. Signal.

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Melatonin is produced during the night and regulates sleep and circadian rhythms. Loss-of-function variants in , which encodes the melatonin receptor MT, a G protein-coupled receptor (GPCR), are associated with an increased risk of type 2 diabetes (T2D). To identify specific T2D-associated signaling pathway(s), we profiled the signaling output of 40 MT variants by monitoring spontaneous (ligand-independent) and melatonin-induced activation of multiple signaling effectors. Genetic association analysis showed that defects in the melatonin-induced activation of Gα and Gα proteins and in spontaneous β-arrestin2 recruitment to MT were the most statistically significantly associated with an increased T2D risk. Computational variant impact prediction by in silico evolutionary lineage analysis strongly correlated with the measured phenotypic effect of each variant, providing a predictive tool for future studies on GPCR variants. Together, this large-scale functional study provides an operational framework for the postgenomic analysis of the multiple GPCR variants present in the human population. The association of T2D risk with signaling pathway-specific defects opens avenues for pathway-specific personalized therapeutic intervention and reveals the potential relevance of MT function during the day, when melatonin is undetectable, but spontaneous activity of the receptor occurs.

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Alan Hégron

Schwann cell endosome CGRP signals elicit periorbital mechanical allodynia in mice

Type 2 diabetes–associated variants of the MT ₂ melatonin receptor affect distinct modes of signaling

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Alan Hégron

Schwann cell endosome CGRP signals elicit periorbital mechanical allodynia in mice

Type 2 diabetes–associated variants of the MT 2 melatonin receptor affect distinct modes of signaling

Contact Info

Product

Resources

About

Type 2 diabetes–associated variants of the MT ₂ melatonin receptor affect distinct modes of signaling