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Discovery of an exosite on the SOCS2-SH2 domain that enhances SH2 binding to phosphorylated ligands.

Authors :
Linossi, Edmond M.
Li, Kunlun
Veggiani, Gianluca
Tan, Cyrus
Dehkhoda, Farhad
Hockings, Colin
Calleja, Dale J.
Keating, Narelle
Feltham, Rebecca
Brooks, Andrew J.
Li, Shawn S.
Sidhu, Sachdev S.
Babon, Jeffrey J.
Kershaw, Nadia J.
Nicholson, Sandra E.
Source :
Nature Communications; 12/2/2021, Vol. 12 Issue 1, p1-13, 13p
Publication Year :
2021

Abstract

Suppressor of cytokine signaling (SOCS)2 protein is a key negative regulator of the growth hormone (GH) and Janus kinase (JAK)-Signal Transducers and Activators of Transcription (STAT) signaling cascade. The central SOCS2-Src homology 2 (SH2) domain is characteristic of the SOCS family proteins and is an important module that facilitates recognition of targets bearing phosphorylated tyrosine (pTyr) residues. Here we identify an exosite on the SOCS2-SH2 domain which, when bound to a non-phosphorylated peptide (F3), enhances SH2 affinity for canonical phosphorylated ligands. Solution of the SOCS2/F3 crystal structure reveals F3 as an α-helix which binds on the opposite side of the SH2 domain to the phosphopeptide binding site. F3:exosite binding appears to stabilise the SOCS2-SH2 domain, resulting in slower dissociation of phosphorylated ligands and consequently, enhances binding affinity. This biophysical enhancement of SH2:pTyr binding affinity translates to increase SOCS2 inhibition of GH signaling. SOCS2 is a key regulator of growth hormone and cytokine signaling, which recognizes phosphotyrosine (pTyr)-modified targets via a central SH2 domain. Here, the authors discover and characterize an exosite on this SH2 domain that can bind a non-phosphorylated peptide to enhance SOCS2:pTyr affinity. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
20411723
Volume :
12
Issue :
1
Database :
Complementary Index
Journal :
Nature Communications
Publication Type :
Academic Journal
Accession number :
153929602
Full Text :
https://doi.org/10.1038/s41467-021-26983-5