TGF beta receptor

transforming growth factor beta, receptor type II (70/80kDa)
transforming growth factor beta, receptor type II (70/80kDa)
Identifiers
Symbol	TGFBR2
Alt. symbols	MFS2
NCBI gene	7048
HGNC	11773
OMIM	190182
RefSeq	NM_001024847
UniProt	P37173
Other data
Locus	Chr. 3 p24.1
Structures
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Structures	Swiss-model
Domains	InterPro

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Structures	Swiss-model
Domains	InterPro

transforming growth factor beta, receptor type I (activin A receptor type II-like kinase, 53kDa)
transforming growth factor beta, receptor type I (activin A receptor type II-like kinase, 53kDa)
Identifiers
Symbol	TGFBR1
Alt. symbols	ALK5
NCBI gene	7046
HGNC	11772
OMIM	190181
RefSeq	NM_004612
UniProt	P36897
Other data
Locus	Chr. 9 q22
Structures
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Structures	Swiss-model
Domains	InterPro

transforming growth factor beta, receptor type III

Identifiers

Symbol

TGFBR3

Alt. symbols

β-Glycan

Other data

Chr. 1 p33-p32

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Structures	Swiss-model
Domains	InterPro

Transforming growth factor beta (TGFβ) receptors are single pass serine/threonine kinase receptors that belong to TGFβ receptor family. They exist in several different isoforms that can be homo- or heterodimeric.^[1] The number of characterized ligands in the TGFβ superfamily far exceeds the number of known receptors, suggesting the promiscuity that exists between the ligand and receptor interactions.

TGFβ is a growth factor and cytokine involved in paracrine signalling and can be found in many different tissue types, including brain, heart, kidney, liver, bone, and testes. Over-expression of TGFβ can induce renal fibrosis, causing kidney disease, as well as diabetes, and ultimately end-stage renal disease. Recent developments have found that, using certain types of protein antagonists against TGFβ receptors, can halt and in some cases reverse the effects of renal fibrosis.^{[citation needed]}

Three TGFβ superfamily receptors specific for TGFβ, the TGFβ receptors, can be distinguished by their structural and functional properties. TGFβR1 (ALK5) and TGFβR2 have similar ligand-binding affinities and can be distinguished from each other only by peptide mapping. Both TGFβR1 and TGFβR2 have a high affinity for TGFβ1 and low affinity for TGFβ2. TGFβR3 (β-glycan) has a high affinity for both homodimeric TGFβ1 and TGFβ2 and in addition the heterodimer TGF-β1.2.^[2] The TGFβ receptors also bind TGFβ3.

References

^ Doré JJ, Edens M, Garamszegi N, Leof EB (November 1998). "Heteromeric and homomeric transforming growth factor-beta receptors show distinct signaling and endocytic responses in epithelial cells". The Journal of Biological Chemistry. 273 (48): 31770–7. doi:10.1074/jbc.273.48.31770. PMID 9822641. (free full text)
^ Cheifetz S, Andres JL, Massagué J (November 1988). "The transforming growth factor-beta receptor type III is a membrane proteoglycan. Domain structure of the receptor". The Journal of Biological Chemistry. 263 (32): 16984–91. doi:10.1016/S0021-9258(18)37487-8. PMID 2903157.

External links

TGF-beta+Receptors at the U.S. National Library of Medicine Medical Subject Headings (MeSH)

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[1] Doré JJ, Edens M, Garamszegi N, Leof EB (November 1998). "Heteromeric and homomeric transforming growth factor-beta receptors show distinct signaling and endocytic responses in epithelial cells". The Journal of Biological Chemistry. 273 (48): 31770–7. doi:10.1074/jbc.273.48.31770. PMID 9822641. (free full text)

[pmid2903157-2] Cheifetz S, Andres JL, Massagué J (November 1988). "The transforming growth factor-beta receptor type III is a membrane proteoglycan. Domain structure of the receptor". The Journal of Biological Chemistry. 263 (32): 16984–91. doi:10.1016/S0021-9258(18)37487-8. PMID 2903157.

[1]

[2]

See also

References

External links