Genetic Analysis Demonstrates a Direct Link Between Rho Signaling and Nonmuscle Myosin Function During Drosophila Morphogenesis

Genetic Analysis Demonstrates a Direct Link Between Rho Signaling and Nonmuscle Myosin Function During Drosophila Morphogenesis

Susan R. Halsell^a, Benjamin I. Chu^a, and Daniel P. Kiehart^a
^a Department of Cell Biology, Duke University Medical Center, Durham, North Carolina 27710

Corresponding author: Daniel P. Kiehart, Duke University Medical Center, Department of Cell Biology, Research Dr., 307 Nanaline Duke Bldg., Durham, NC 27710., d.kiehart{at}cellbio.duke.edu (E-mail)

Communicating editor: R. S. HAWLEY

A dynamic actomyosin cytoskeleton drives many morphogeneticevents. Conventional nonmuscle myosin-II (myosin) is a key chemomechanicalmotor that drives contraction of the actin cytoskeleton. Wehave explored the regulation of myosin activity by performinggenetic screens to identify gene products that collaborate withmyosin during Drosophila morphogenesis. Specifically, we screenedfor second-site noncomplementors of a mutation in the zippergene that encodes the nonmuscle myosin-II heavy chain. We determinedthat a single missense mutation in the zipper^Ebr allele givesrise to its sensitivity to second-site noncomplementation. Wethen identify the Rho signal transduction pathway as necessaryfor proper myosin function. First we show that a lethal P-elementinsertion interacts genetically with zipper. Subsequently weshow that this second-site noncomplementing mutation disruptsthe RhoGEF2 locus. Next, we show that two EMS-induced mutations,previously shown to interact genetically with zipper^Ebr, disruptthe RhoA locus. Further, we have identified their molecularlesions and determined that disruption of the carboxyl-terminalCaaX box gives rise to their mutant phenotype. Finally, we showthat RhoA mutations themselves can be utilized in genetic screens.Biochemical and cell culture analyses suggest that Rho signaltransduction regulates the activity of myosin. Our studies providedirect genetic proof of the biological relevance of regulationof myosin by Rho signal transduction in an intact metazoan.

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