Dystrophin regulates peripheral circadian SRF signalling

Autor: Katarzyna Chwalenia, O'Donovan E, Russell G. Foster, Carlo Rinaldi, Graham McClorey, Soumya Banerjee, John R. Counsell, Jennifer E. Morgan, van Westering T, Saleh A, Lara Cravo, Jinhong Meng, Maria Sofia Falzarano, Melissa Bowerman, Matthew J.A. Wood, Corinne A. Betts, Lim C, Aarti Jagannath, Amarjit Bhomra, Gait Mj, Katharina E. Meijboom, Ferlini A
Rok vydání: 2021
Předmět:
Popis: Dystrophin is a sarcolemmal protein essential for muscle contraction and maintenance, absence of which leads to the devastating muscle wasting disease Duchenne muscular dystrophy (DMD)[1, 2]. Dystrophin has an actin-binding domain [3–5], which specifically binds and stabilises filamentous (F)-actin[6], an integral component of the RhoA-actin-serum response factor (SRF)-pathway[7]. The RhoA-actin-SRF-pathway plays an essential role in circadian signalling whereby the hypothalamic suprachiasmatic nucleus, transmits systemic cues to peripheral tissues, activating SRF and transcription of clock target genes[8, 9]. Given dystrophin binds F-actin and disturbed SRF-signalling disrupts clock entrainment, we hypothesised that dystrophin loss causes circadian deficits. Here we show for the first time alterations in the RhoA-actin-SRF-signalling-pathway, in both dystrophin-deficient myotubes and dystrophic mouse models. Specifically, we demonstrate reduced F/G-actin ratios and nuclear MRTF, dysregulation of core clock and downstream target-genes, and down-regulation of key circadian genes in muscle biopsies from DMD patients harbouring an array of mutations. Further, disrupted circadian locomotor behaviour was observed in dystrophic mice indicative of disrupted SCN signalling, and indeed dystrophin protein was absent in the SCN of dystrophic animals. Dystrophin is thus a critically important component of the RhoA-actin-SRF-pathway and a novel mediator of circadian signalling in peripheral tissues, loss of which leads to circadian dysregulation.
Databáze: OpenAIRE