posted on 2015-08-04, 00:00authored byIndu R. Chandrashekaran, Biswaranjan Mohanty, Edmond
M. Linossi, Laura F. Dagley, Eleanor
W. W. Leung, James M. Murphy, Jeffrey J. Babon, Sandra
E. Nicholson, Raymond S. Norton
SOCS5
can negatively regulate both JAK/STAT and EGF-receptor pathways
and has therefore been implicated in regulating both the immune response
and tumorigenesis. Understanding the molecular basis for SOCS5 activity
may reveal novel ways to target key components of these signaling
pathways. The N-terminal region of SOCS5 coordinates critical protein
interactions involved in inhibition of JAK/STAT signaling, and a conserved
region within the N-terminus of SOCS5 mediates direct binding to the
JAK kinase domain. Here we have characterized the solution conformation
of this conserved JAK interaction region (JIR) within the largely
disordered N-terminus of SOCS5. Using nuclear magnetic resonance (NMR)
chemical shift analysis, relaxation measurements, and NOE analysis,
we demonstrate the presence of preformed structural elements in the
JIR of mouse SOCS5 (mSOCS5175–244), consisting of
an α-helix encompassing residues 224–233, preceded by
a turn and an extended structure. We have identified a phosphorylation
site (Ser211) within the JIR of mSOCS5 and have investigated the role
of phosphorylation in modulating JAK binding using site-directed mutagenesis.