The proper functioning of skeletal muscles is essential throughout life. A crucial crosstalk between the environment and several cellular mechanisms allows striated muscles to perform successfully. Notably, the skeletal muscle tissue reacts to an injury producing a completely functioning tissue. The muscle's robust regenerative capacity relies on the fine coordination between muscle stem cells (MuSCs or “satellite cells”) and their specific microenvironment that dictates stem cells’ activation, differentiation, and self-renewal. Critical for the muscle stem cell pool is a fine regulation of chromatin organization and gene expression. Acquiring a lineage-specific 3D genome architecture constitutes a crucial modulator of muscle stem cell function during development, in the adult stage, in physiological and pathological conditions. The context-dependent relationship between genome structure, such as accessibility and chromatin compartmentalization, and their functional effects will be analysed considering the improved 3D epigenome knowledge, underlining the intimate liaison between environmental encounters and epigenetics.

Santarelli, P., Rosti, V., Vivo, M., Lanzuolo, C. (2024). Chromatin organization of muscle stem cell. In M.A. Rudnicki, F.J. Dilworth (a cura di), Muscle Stem Cells (pp. 375-406). Academic Press Inc. [10.1016/bs.ctdb.2024.01.014].

Chromatin organization of muscle stem cell

Santarelli P.;Rosti V.;
2024

Abstract

The proper functioning of skeletal muscles is essential throughout life. A crucial crosstalk between the environment and several cellular mechanisms allows striated muscles to perform successfully. Notably, the skeletal muscle tissue reacts to an injury producing a completely functioning tissue. The muscle's robust regenerative capacity relies on the fine coordination between muscle stem cells (MuSCs or “satellite cells”) and their specific microenvironment that dictates stem cells’ activation, differentiation, and self-renewal. Critical for the muscle stem cell pool is a fine regulation of chromatin organization and gene expression. Acquiring a lineage-specific 3D genome architecture constitutes a crucial modulator of muscle stem cell function during development, in the adult stage, in physiological and pathological conditions. The context-dependent relationship between genome structure, such as accessibility and chromatin compartmentalization, and their functional effects will be analysed considering the improved 3D epigenome knowledge, underlining the intimate liaison between environmental encounters and epigenetics.
Capitolo o saggio
Animals; Cell Differentiation; Chromatin; Epigenesis, Genetic; Humans; Muscle Development; Muscle, Skeletal; Satellite Cells, Skeletal Muscle; Stem Cells
English
Muscle Stem Cells
Rudnicki , MA; Dilworth, FJ
16-feb-2024
2024
9780128234358
158
Academic Press Inc.
375
406
Santarelli, P., Rosti, V., Vivo, M., Lanzuolo, C. (2024). Chromatin organization of muscle stem cell. In M.A. Rudnicki, F.J. Dilworth (a cura di), Muscle Stem Cells (pp. 375-406). Academic Press Inc. [10.1016/bs.ctdb.2024.01.014].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/503881
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