Abstract
Intermediate filaments (IFs) represent a major cytoskeletal network contributing to force transmission, cell shape and structure, adhesion and motility, subcellular scaffolding and tissue resilience, thereby modulating a range of cellular activities. Life-threatening disorders associated with IF mutations have pushed investigations to study IFs of mammalian cells in culture and in vivo. Keratin and Lamin related disorders, Desmin-related myopathy, Muscular Dystrophies, Alexander disease are just examples of pathologies related to IFs. Synemin, a type IV IF has become a target for research since its AKAP role in the heart was reported. Here we summarize our results with Synemin "knock-out" mice showing that Synemin plays a significant role in skeletal and cardiac muscle, leading to a mild skeletal myopathy and a mixed cardiomyopathy. We also report an important role of Synemin, with the absence of Synemin leading to osteopenia.
Register to see more suggestions
Mendeley helps you to discover research relevant for your work.
Cite
CITATION STYLE
García-Pelagio, K. P., Buo, A. M., Chen, L., Moorer, M., Stains, J. P., & Bloch, R. J. (2019). The mechanical role of a cytoskeletal protein, Synemin, in bone, heart and skeletal muscle. In AIP Conference Proceedings (Vol. 2090). American Institute of Physics Inc. https://doi.org/10.1063/1.5095923
Readers' Seniority
Readers' Discipline
