Follistatin

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Follistatin
The Structure Of The Follistatin:Activin Complex
Other names:	Follistatin, FSH-Suppressing Protein, Activin-binding protein
Genetic data
Gene code:	HUGO code:FST
Protein Structure/Function
Structure:	Follistatin:Activin Complex structure
Protein type:	Growth factor
Functions:	Regulates members of the TGF beta superfamily ligands
Domains:	3 FOLN domains, 3 KAZAL domains
Other
Taxa expressing:	Homo Sapiens; homologs: many metazoan phyla
Cell types:	many, placenta, blood, ovary, liver, testis
Subcellular localization:	extracellular
Molecular interactions:	Activin, inhibin, BMP5
Medical/Biotechnological data
Diseases:	polycystic ovary syndrome (PCOS)

Follistatin is a single chain autocrine glycoprotein found to be ubiquitous within the body of nearly all higher animals, that is the product of a single gene.

It was initially isolated from follicular fluid and was identified as a protein fraction that inhibited Follicle-stimulating hormone (FSH) secretion from the anterior pituitary, and so was known as FSH-suppressing protein (FSP). Since then its primary function has been determined to be the binding and bioneutralization agent of members of the TGF-beta superfamily, with primary focus on Activin, a paracrine hormone (TGF-b member) which enhances secretion of FSH in the anterior pituitary.

1 Biochemistry
2 Clinical significance
3 References
4 External links

[edit] Biochemistry

It is part of the inhibin-activin-follistatin axis.

There are three known isoforms, FS-288, FS-300, and FS-315. Two are known to be created by alternative splicing of the primary mRNA transcript, FS-288 and FS-315. FS-300 (porcine follistatin) is thought to be the product of post-translational modification via truncation of the primary amino-acid chain.

Although FS is ubiquitous it's highest concentration has been found to be in the female ovary, followed by the skin.

In the tissues activin has a strong role in cellular proliferation, thereby making follistatin the safeguard against uncontrolled cellular proliferation and also allowing it to function as an instrument of cellular differentiation. Both of these roles are vital in tissue rebuilding and repair, and may account for follistatin's high presence in the skin.

In the blood, activin and follistatin are both known to be involved in the inflammatory response following tissue injury or pathogenic incursion. The source of follistatin in circulating blood plasma has yet to be determined, but due to its autocrine nature speculation suggests the endothelial cells lining all blood vessels, or the macrophages and monocytes also circulating within the whole blood.

Follistatin is involved in the development of the embryo. It has inhibitory action on bone morphogenic proteins (BMPs); BMPs induce the ectoderm to become epidermal ectoderm. Inhibition of BMPs allows neuroectoderm to arise from ectoderm, a process which eventually forms the neural plate. Other inhibitors involved in this process are noggin and chordin.

Follistatin and BMPs are also known to play a role in folliculogenesis within the ovary. The main role of follistatin in the oestrus/menstrus ovary, so far, appears to be progression of the follicle from early antral to antral/dominant, and importantly the promotion of cellular differentiation of the oestrogen producing granulosa cells (GC) of the dominant follicle into the progesterone producing large lutein cells (LLC) of the corpus luteum.


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Identifiers
Symbol	FS/FST/FSP
Entrez	10468
HUGO	3971
OMIM	136470
RefSeq	NM_013409
UniProt	P19883
Other data
Locus	Chr. 5 q11.2

[edit] Clinical significance

Follistatin is being studied for its role in regulation of muscle growth in mice, as an antagonist to myostatin (aka GDF-8, a TGF superfamily member) which inhibits excessive muscle growth. Lee & McPheron demonstrated that inhibitin GDF-8 either by genetic elimination (knockout mice) or by increasing the amount of follistatin that muscle mass was greatly increased. ^[1]^[2]

And is also being investigated for its involvement in polycystic ovary syndrome (PCOS), though there is debate as to its direct role in this infertility disease.

[edit] References

^ Lee SJ, McPherron AC (2001). "Regulation of myostatin activity and muscle growth". Proc. Natl. Acad. Sci. U.S.A. 98 (16): 9306–11. doi:10.1073/pnas.151270098. PMID 11459935.
^ 'Mighty mice' made mightier. Retrieved on 2008-02-26.

[edit] External links

MeSH Follistatin

v • d • e Cell signaling: TGF beta signaling pathway

TGF beta superfamily of ligands	TGF beta family (TGF-β1, TGF-β2, TGF-β3) Bone morphogenetic proteins (BMP2, BMP3, BMP4, BMP5, BMP6, BMP7, BMP8a, BMP8b, BMP10 , BMP15) Growth differentiation factors (GDF1, GDF2, GDF3, GDF5, GDF6, GDF7, Myostatin/GDF8, GDF9, GDF10, GDF11, GDF15) Other (Activin A and B/Inhibin A and B, Anti-müllerian hormone, Nodal)

TGF beta receptors	TGFBR1: Activin type 1 receptors (ACVR1, ACVR1B, ACVR1C) - ACVRL1 - BMPR1 (BMPR1A - BMPR1B) TGFBR2: Activin type 2 receptors (ACVR2A, ACVR2B) - AMHR2 - BMPR2 TGFBR3: betaglycan

Transducers/SMAD	R-SMAD (SMAD1, SMAD2, SMAD3, SMAD5, SMAD9) - I-SMAD (SMAD6, SMAD7) - SMAD4

Ligand Inhibitors	Cerberus - Chordin - DAN - Decorin - Follistatin - Gremlin - Lefty - LTBP1 - Noggin - THBS1

Coreceptors	BAMBI - Cripto

Other	SARA

v • d • e Proteins: carrier proteins

Hormone	Follistatin - Growth hormone binding protein - Insulin-like growth factor binding protein - Neurophysins (Neurophysin I, II) Sex hormone binding globulin/Androgen binding protein - Transcortin - Thyroxine-binding globulin - Transthyretin

Metal/element	calcium (Calcium-binding protein, Calmodulin-binding proteins) - copper (Ceruloplasmin) - iron (Iron-binding proteins, Transferrin receptor)

Vitamin	Retinol binding protein (4) - Transcobalamin

Other	Acyl carrier protein - Adaptor protein - Cholesterylester transfer protein - F-box protein - GTP-binding protein - Latent TGF-beta binding protein - Light-harvesting complex - Membrane transport protein