Activin Totally Explained

Everything about Activin totally explained

Activin is a peptide that enhances FSH synthesis and secretion and participates in the regulation of the menstrual cycle. It does the opposite as inhibin. Many other functions have been found to be exerted by activin, including their roles in cell proliferation, differentiation, apoptosis, metabolism, homeostasis, immune response, wound repair, and endocrine function
Like inhibin (and AMH) activin belongs to TGF-β superfamily.

Structure

Activin contains two beta subunit that are identical to the two beta subunits (A or B) of inhibin, allowing for the formation of three forms of activin: A, AB, and B.
They are linked by a single covalent disulfide bond.

Function

Activin is produced in the gonads, pituitary gland, placenta and other organs:

In the ovarian follicle, activin increases FSH binding and FSH induced aromatization. It participates in androgen synthesis enhancing action in the ovary and testis. In the male, activin enhances spermatogenesis.

Activin is strongly expressed in wounded skin, and overexpression of activin in epidermis of transgenic mice improves wound healing and enhances scar formation. Its action in wound repair and skin morphogenesis is through stimulation of keratinocytes and stromal cells in a dose-dependent manner.

Activin also regulates the morphogenesis of branching organs such as the prostate, lung, and especially kidney. Activin A increased the expression level of type I collagen suggesting that activtin A acts as a potent activator of fibroblasts.

Mechanism

As with other members of the superfamily, activins interact with two types of cell surface transmembrane receptors (Types I and II) which have intrinsic serine/threonine kinase activities in their cytoplasmic domains.
Activin binds to the Type II receptor and initiates a cascade reaction that leads to the recruitment, phosphorylation, and activation of Type I activin receptor. This then interacts with and then phosphorylates Smad2 and Smad3, two of the cytoplasmic Smad proteins.
Smad3 then translocates to the nucleus and interacts with Smad4 through multimerization, resulting in their modulation as transcription factor complexes responsible for the expression of a large variety of genes.

Further Information

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