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J Biol Chem, Vol. 274, Issue 26, 18675-18685, June 25, 1999
From the Laboratories of Although muscarinic acetylcholine receptors
(mAChR) regulate the activity of smooth muscle myosin, the effects of
mAChR activation on cytoplasmic myosin have not been characterized. We
found that activation of transfected human M3 mAChR
induces the phosphorylation of myosin light chains (MLC) and the
formation of myosin-containing stress fibers in Chinese hamster ovary
(CHO-m3) cells. Direct activation of protein kinase C (PKC) with
phorbol 12-myristate 13-acetate (PMA) also induces myosin light chain
phosphorylation and myosin reorganization in CHO-m3 cells. Conventional
(
M3 Muscarinic Acetylcholine Receptors Regulate
Cytoplasmic Myosin by a Process Involving RhoA and Requiring
Conventional Protein Kinase C Isoforms
,,,
, and
Molecular Pharmacology,
§ Neurobiology, and Molecular Biology,
), novel (
), and atypical (
) PKC isoforms are activated by
mAChR stimulation or PMA treatment in CHO-m3 cells, as indicated by PKC
translocation or degradation. mAChR-mediated myosin reorganization is
abolished by inhibiting conventional PKC isoforms with Go6976
(IC50 = 0.4 µM), calphostin C
(IC50 = 2.4 µM), or chelerythrine
(IC50 = 8.0 µM). Stable expression of
dominant negative RhoAAsn-19 diminishes, but does not
abolish, mAChR-mediated myosin reorganization in the CHO-m3 cells.
Similarly, mAChR-mediated myosin reorganization is diminished, but not
abolished, in CHO-m3 cells which are multi-nucleate due to inactivation
of Rho with C3 exoenzyme. Expression of dominant negative
RhoAAsn-19 or inactivation of RhoA with C3 exoenzyme does
not affect PMA-induced myosin reorganization. These findings indicate
that the PKC-mediated pathway of myosin reorganization (induced either
by M3 mAChR activation or PMA treatment) can continue to
operate even when RhoA activity is diminished in CHO-m3 cells.
Conventional PKC isoforms and RhoA may participate in separate but
parallel pathways induced by M3 mAChR activation to
regulate cytoplasmic myosin. Changes in cytoplasmic myosin elicited by
M3 mAChR activation may contribute to the unique ability of
these receptors to regulate cell morphology, adhesion, and proliferation.
Copyright © 1999 by The American Society for Biochemistry and Molecular Biology, Inc.
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