Paresh Shah scite author profile

The immunophilin FKBP12 is an evolutionarily conserved abundant protein; however, its physiological roles remain poorly defined. Here we report that FKBP12 is a common cytoplasmic interactor of TGF beta family type I receptors. FKBP12 binds to ligand-free TGF beta type I receptor, from which it is released upon a ligand-induced, type II receptor mediated phosphorylation of the type I receptor. Blocking FKBP12/type I receptor interaction with FK506 nonfunctional derivatives enhances the ligand activity, indicating that FKBP12 binding is inhibitory to the signaling pathways of the TGF beta family ligands. Overexpression of a myristylated FKBP12 in Mv1Lu cell specifically inhibits two separate pathways activated by TGF beta, and two point mutations on FKBP12 (G89P, I90K) abolish the inhibitory activity of FKBP12, suggesting that FKBP12 may dock a cytoplasmic protein to the type I receptors to inhibit TGF beta family mediated signaling.

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A Transforming Growth Factor β Type I Receptor that Signals to Activate Gene Expression

Bassing

Yingling

Howe

et al. 1994

Science

277

178

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Transforming growth factor beta (TGF-beta) is a multifunctional factor that regulates many aspects of cellular functions. TGF-beta signals through a heteromeric complex of the type I and type II TGF-beta receptors. However, the molecular mechanism of signal transduction by this receptor complex remains unresolved. The type II receptor belongs to a transmembrane receptor serine-threonine kinase family. A new member of this receptor family (R4) was identified and shown to be a functional TGF-beta type I receptor on the basis of its ability to restore a TGF-beta-induced gene response in mutant cell lines lacking endogenous type I receptor. Both ligand binding and signaling of the R4 protein were dependent on the presence of a functional type II receptor. The type I receptor has an intrinsic serine-threonine kinase activity, which was essential for signal transduction.

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The p21 ^RAS Farnesyltransferase α Subunit in TGF-β and Activin Signaling

Wang

Danielson

et al. 1996

Science

111

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The alpha subunit of p21(RAS) farnesyltransferase (FNTA), which is also shared by geranylgeranyltransferase, was isolated as a specific cytoplasmic interactor of the transforming growth factor-beta (TGF-beta) and activin type I receptors with the use of the yeast two-hybrid system. FNTA interacts specifically with ligand-free TGF-beta type l receptor but is phosphorylated and released upon ligand binding. Furthermore, the release is dependent on the kinase activity of the TGF-beta type II receptor. Thus, the growth inhibitory and differentiative pathways activated by TGF-beta and activin involve novel mechanisms of serine-threonine receptor phosphorylation-dependent release of cytoplasmic interactors and regulation of the activation of small G proteins, such as p21(RAS).

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Paresh Shah

The Immunophilin FKBP12 Functions as a Common Inhibitor of the TGFβ Family Type I Receptors

A Transforming Growth Factor β Type I Receptor that Signals to Activate Gene Expression

The p21 ^RAS Farnesyltransferase α Subunit in TGF-β and Activin Signaling

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Paresh Shah

The Immunophilin FKBP12 Functions as a Common Inhibitor of the TGFβ Family Type I Receptors

A Transforming Growth Factor β Type I Receptor that Signals to Activate Gene Expression

The p21 RAS Farnesyltransferase α Subunit in TGF-β and Activin Signaling

Contact Info

Product

Resources

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The p21 ^RAS Farnesyltransferase α Subunit in TGF-β and Activin Signaling