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(Received for publication, August 10, 1995; and in revised form, September 19, 1995) Immunoprecipitates of metabolically labeled PC12 cells
consistently contained a 43-kDa protein that was associated with Shc, a
signal-transducing protein with a single SH2 domain. Following affinity
chromatography with immobilized recombinant glutathione S-transferase (GST)-Shc fusion protein, the 43-kDa protein was
identified as actin by mass spectrometry and immunoblotting.
Cosedimentation experiments using purified actin and GST-Shc showed
that Shc binds directly to F-actin, confirming Shc-actin interaction in vivo. Various GST-truncated Shc fusion proteins were
prepared and used in actin cosedimentation assays. Constructs
containing the SH2 and collagen homology domains were not precipitated,
and those containing the amino-terminal domain were. Thus, Shc-actin
interactions do not occur in the region of tyrosine phosphorylation and
leave the SH2 domain free to bind to other tyrosine-phosphorylated
molecules. Although the major pool of Shc in unstimulated PC12 cells is
soluble, two other pools are associated with the cytoskeleton and the
submembranous cytoskeleton. Upon nerve growth factor stimulation,
approximately 50% of the soluble Shc translocates to both cytoskeleton
environments within 2 min, decreasing thereafter. When cells were
pretreated with cytochalasin D, a drug that disrupts actin filaments,
Shc translocation to the cytoskeleton was abolished. However, in the
submembranous fraction, the Shc level was elevated in resting cells
following cytochalasin D treatment. The kinetics of translocation,
compared to mitogen-activated protein kinase activation, and the nature
of the Shc-actin interaction suggest that the cytoskeletal association
of Shc, induced by growth factors, may be related to membrane ruffling
and actin fiber reorganization.
Volume 270,
Number 48,
Issue of December 1, 1995 pp. 28924-28931
©1995 by The American Society for Biochemistry and Molecular Biology, Inc.
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