posted on 2021-08-18, 09:00authored byYoshiko Maeda, William E Tidyman, Bradley P Ander, Catrin A Pritchard, Katherine A Rauen
Background
Cardio-facio-cutaneous syndrome (CFC) is a human multiple congenital anomaly syndrome that is caused by activating heterozygous mutations in either BRAF, MEK1 or MEK2, three protein kinases of the Ras/mitogen-activated protein kinase (MAPK) pathway. CFC belongs to a group of syndromes known as RASopathies. Skeletal muscle hypotonia is a ubiquitous phenotype of RASopathies, especially in CFC syndrome. To better understand the underlying mechanisms for the skeletal myopathy in CFC, a mouse model with an activating BrafL597V allele was utilized.
Results
The activating BrafL597V allele resulted in phenotypic alterations in skeletal muscle characterized by a reduction in fiber size which lead to a reduction in muscle size which are functionally weaker. MAPK pathway activation caused inhibition of myofiber differentiation during embryonic myogenesis and global transcriptional dysregulation of developmental pathways. Inhibition in differentiation can be rescued by MEK inhibition.
Conclusions
A skeletal myopathy was identified in the CFC BrafL597V mouse validating the use of models to study the effect of Ras/MAPK dysregulation on skeletal myogenesis. RASopathies present a novel opportunity to identify new paradigms of myogenesis and further our understanding of Ras in development. Rescue of the phenotype by inhibitors may help advance the development of therapeutic options for RASopathy patients. This article is protected by copyright. All rights reserved.
Funding
National Cancer Institute
Comprehensive Cancer Center
University of California, Davis
UC Davis Genome Center
NIH/NIAMS. Grant Number: RO1AR062165
History
Citation
Developmental dynamics, 250, 8, 2021, pp. 1074-1095
Author affiliation
Leicester Cancer Research Centre, University of Leicester