Excessive Mechanotransduction in Sensory Neurons Causes Joint Contractures in a Mouse Model of Arthrogryposis

Abstract

AbstractDistal arthrogryposis (DA) is a collection of rare disorders characterized by congenital joint contractures. Most DA mutations are in muscle- and joint-related genes, and the anatomical defects originate cell-autonomously within the musculoskeletal system. However, gain-of-function (GOF) mutations in PIEZO2, a principal mechanosensor in somatosensation, cause DA subtype 5 via unknown mechanisms. We show that expression of a GOF PIEZO2 mutation in proprioceptive sensory neurons mainly innervating muscle spindles and tendons is sufficient to induce DA5-like phenotypes in mice. Overactive PIEZO2 causes anatomical defects via increased activity within the peripheral nervous system during postnatal development. Remarkably, Botox and a dietary fatty acid that modulates PIEZO2 activity markedly reduce DA5-like deficits. This reveals an unexpected role for somatosensory neurons: excessive mechanosensation within these neurons disrupts musculoskeletal development.