The RhoGEF Pebble is required for cell shape changes during cell migration triggered by the Drosophila FGF receptor Heartless

doi:10.1242/dev.01149

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Development ePress online publication date 5 May 2004
doi: 10.1242/dev.01149

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Research article

The RhoGEF Pebble is required for cell shape changes during cell migration triggered by the Drosophila FGF receptor Heartless

Sabine Schumacher, Tanja Gryzik, Sylvia Tannebaum, and H.-Arno J. Müller^*
^* Author for correspondence (e-mail: muellear{at}uni-duesseldorf.de)

The FGF receptor Heartless (HTL) is required for mesodermalcell migration in the Drosophila gastrula. We show that mesodermcells undergo different phases of specific cell shape changesduring mesoderm migration. During the migratory phase, the cellsadhere to the basal surface of the ectoderm and exhibit extensiveprotrusive activity. HTL is required for the protrusive activityof the mesoderm cells. Moreover, the early phenotype of htlmutants suggests that HTL is required for the adhesion of mesodermcells to the ectoderm.

In a genetic screen we identified pebble(pbl) as a novel gene required for mesoderm migration. pbl encodesa guanyl nucleotide exchange factor (GEF) for RHO1 and is knownas an essential regulator of cytokinesis. We show that the functionof PBL in cell migration is independent of the function of PBLin cytokinesis. Although RHO1 acts as a substrate for PBL incytokinesis, compromising RHO1 function in the mesoderm doesnot block cell migration. These data suggest that the functionof PBL in cell migration might be mediated through a pathwaydistinct from RHO1. This idea is supported by allele-specificdifferences in the expressivity of the cytokinesis and cellmigration phenotypes of different pbl mutants. We show thatPBL is autonomously required in the mesoderm for cell migration.Like HTL, PBL is required for early cell shape changes duringmesoderm migration. Expression of a constitutively active formof HTL is unable to rescue the early cellular defects in pblmutants, suggesting that PBL is required for the ability ofHTL to trigger these cell shape changes. These results provideevidence for a novel function of the Rho-GEF PBL in HTL-dependentmesodermal cell migration.

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