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Structural Adaptation in Its Orphan Domain Engenders Betaglycan with an Alternate Mode of Growth Factor Binding Relative to Endoglin.


ABSTRACT: Betaglycan (BG) and endoglin (ENG), homologous co-receptors of the TGF-? family, potentiate the signaling activity of TGF-?2 and inhibin A, and BMP-9 and BMP-10, respectively. BG exists as monomer and forms 1:1 growth factor (GF) complexes, while ENG exists as a dimer and forms 2:1 GF complexes. Herein, the structure of the BG orphan domain (BGO) reveals an insertion that blocks the region that the endoglin orphan domain (ENGO) uses to bind BMP-9, preventing it from binding in the same manner. Using binding studies with domain-deleted forms of TGF-? and BGO, as well as small-angle X-ray scattering data, BGO is shown to bind its cognate GF in an entirely different manner compared with ENGO. The alternative interfaces likely engender BG and ENG with the ability to selectively bind and target their cognate GFs in a unique temporal-spatial manner, without interfering with one another or other TGF-? family GFs.

SUBMITTER: Kim SK 

PROVIDER: S-EPMC6726503 | biostudies-literature | 2019 Sep

REPOSITORIES: biostudies-literature

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Structural Adaptation in Its Orphan Domain Engenders Betaglycan with an Alternate Mode of Growth Factor Binding Relative to Endoglin.

Kim Sun Kyung SK   Whitley Matthew J MJ   Krzysiak Troy C TC   Hinck Cynthia S CS   Taylor Alexander B AB   Zwieb Christian C   Byeon Chang-Hyeock CH   Zhou Xiaohong X   Mendoza Valentín V   López-Casillas Fernando F   Furey William W   Hinck Andrew P AP  

Structure (London, England : 1993) 20190718 9


Betaglycan (BG) and endoglin (ENG), homologous co-receptors of the TGF-β family, potentiate the signaling activity of TGF-β2 and inhibin A, and BMP-9 and BMP-10, respectively. BG exists as monomer and forms 1:1 growth factor (GF) complexes, while ENG exists as a dimer and forms 2:1 GF complexes. Herein, the structure of the BG orphan domain (BG<sub>O</sub>) reveals an insertion that blocks the region that the endoglin orphan domain (ENG<sub>O</sub>) uses to bind BMP-9, preventing it from binding  ...[more]

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