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(Received for publication, August 17,
1994; and in revised form, December 2, 1994) Aciculin is a recently identified 60-kDa cytoskeletal protein,
highly homologous to the glycolytic enzyme phosphoglucomutase type 1,
(Belkin, A. M., Klimanskaya, I. V., Lukashev, M. E., Lilley, K.,
Critchley, D., and Koteliansky, V. E. (1994) J. Cell Sci. 107,
159-173). Aciculin expression in skeletal muscle is
developmentally regulated, and this protein is particularly enriched at
cell-matrix adherens junctions of muscle cells (Belkin, A. M., and
Burridge, K.(1994) J. Cell Sci. 107, 1993-2003). The
purpose of our study was to identify cytoskeletal protein(s)
interacting with aciculin in various cell types. Using
immunoprecipitation from cell lysates of metabolically labeled
differentiating C2C12 muscle cells with anti-aciculin-specific
antibodies, we detected a high molecular weight band (M
Volume 270,
Number 11,
Issue of March 17, 1995 pp. 6328-6337
©1995 by The American Society for Biochemistry and Molecular Biology, Inc.
400,000), consistently coprecipitating with aciculin. We
showed that this 400 kDa band comigrated with dystrophin and
immunoblotted with anti-dystrophin antibodies. The association between
aciculin and dystrophin in C2C12 cells was shown to resist Triton X-100
extraction and the majority of the complex could be extracted only in
the presence of ionic detergents. In the reverse immunoprecipitation
experiments, aciculin was detected in the precipitates with different
anti-dystrophin antibodies. Immunodepletion experiments with lysates of
metabolically labeled C2C12 myotubes showed that aciculin is a major
dystrophin-associated protein in cultured skeletal muscle cells. Double
immunostaining of differentiating and mature C2C12 myotubes with
antibodies against aciculin and dystrophin revealed precise
colocalization of these two cytoskeletal proteins throughout the
process of myodifferentiation in culture. In skeletal muscle tissue,
both proteins are concentrated at the sarcolemma and at myotendinous
junctions. In contrast, utrophin, an autosomal homologue of dystrophin,
was not codistributed with aciculin in muscle cell cultures and in
skeletal muscle tissues. Analytical gel filtration experiments with
purified aciculin and dystrophin showed interaction of these proteins in vitro, indicating that their association in skeletal muscle
is due to direct binding. Whereas dystrophin was shown to be a major
aciculin-associated protein in skeletal muscle, immunoblotting of
anti-aciculin immunoprecipitates with antibodies against utrophin
showed that aciculin is associated with utrophin in cultured A7r5
smooth muscle cells and REF52 fibroblasts. Immunodepletion experiments
performed with lysates of metabolically labeled A7r5 cells demonstrated
that aciculin is a major utrophin-binding protein in this cell type.
Taken together, our data show that aciculin is a novel dystrophin- and
utrophin-binding protein. Association of aciculin with dystrophin
(utrophin) in various cell types might provide an additional
cytoskeletal-matrix transmembrane link at sites where actin filaments
terminate at the plasma membrane.
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