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Myostatin is a myokine that is produced and released by myocytes and acts on muscle cells to inhibit muscle growth. [7] Myostatin is a secreted growth differentiation factor that is a member of the TGF beta protein family. [8] [9] Myostatin is assembled and produced in skeletal muscle before it is released into the blood stream. [10]
Testosterone is the primary male sex hormone and androgen in males. [3] In humans, testosterone plays a key role in the development of male reproductive tissues such as testicles and prostate, as well as promoting secondary sexual characteristics such as increased muscle and bone mass, and the growth of body hair.
Protein is a nutrient needed by the human body for growth and maintenance. Aside from water, proteins are the most abundant kind of molecules in the body. Protein can be found in all cells of the body and is the major structural component of all cells in the body, especially muscle. This also includes body organs, hair and skin.
This protein normally restrains muscle growth, ensuring that muscles do not grow too large. Mutations that reduce the production of functional myostatin lead to an overgrowth of muscle tissue. Myostatin-related muscle hypertrophy has a pattern of inheritance known as incomplete autosomal dominance.
One example is serum response factor, a protein that activates several genes that cause muscle growth. [ 27 ] Androgen receptor is modified by post-translational modification through acetylation , [ 28 ] which directly promotes AR-mediated transactivation , apoptosis [ 29 ] and contact-independent growth of prostate cancer cells. [ 30 ]
A myokine is one of several hundred cytokines or other small proteins (~5–20 kDa) and proteoglycan peptides that are produced and released by skeletal muscle cells (muscle fibers) in response to muscular contractions. [1] They have autocrine, paracrine and/or endocrine effects; [2] their systemic effects occur at picomolar concentrations. [3] [4]
Finally, the muscle fibers that form later arise from satellite cells. [3] Two genes significant in muscle fusion are Mef2 and the twist transcription factor. Studies have shown knockouts for Mef2C in mice lead to muscle defects in cardiac and smooth muscle development, particularly in fusion. [13] The twist gene plays a role in muscle ...
The regulation of chloride flow within muscle cells plays a role in controlling muscle contraction and relaxation. [5] The anoctamin-5 protein is also found in other cells including heart (cardiac) muscle cells and bone cells. The anoctamin-5 protein may be important for the development of muscle and bone before birth. [5]