Genetic Interactions Between the RhoA and Stubble-stubbloid Loci Suggest a Role for a Type II Transmembrane Serine Protease in Intracellular Signaling During Drosophila Imaginal Disc Morphogenesis

Genetic Interactions Between the RhoA and Stubble-stubbloid Loci Suggest a Role for a Type II Transmembrane Serine Protease in Intracellular Signaling During Drosophila Imaginal Disc Morphogenesis

Cynthia A. Bayer^a, Susan R. Halsell^b, James W. Fristrom^c, Daniel P. Kiehart^d, and Laurence von Kalm^a
^a Department of Biology, University of Central Florida, Orlando, Florida 32816-2368,
^b Department of Biology, James Madison University, Harrisonburg, Virginia 22807,
^c Department of Molecular and Cell Biology, University of California, Berkeley, California 94720-3200
^d DCMB Group, Department of Biology, Duke University, Durham, North Carolina 27708-1000

Corresponding author: Laurence von Kalm, 4000 Central Florida Blvd., University of Central Florida, Orlando, FL 32816-2368., lvonkalm{at}mail.ucf.edu (E-mail)

Communicating editor: K. ANDERSON

The Drosophila RhoA (Rho1) GTPase is essential for postembryonicmorphogenesis of leg and wing imaginal discs. Mutations in RhoAenhance leg and wing defects associated with mutations in zipper,the gene encoding the heavy chain of nonmuscle myosin II. Wedemonstrate here that mutations affecting the RhoA signalingpathway also interact genetically with mutations in the Stubble-stubbloid(Sb-sbd) locus that encodes an unusual type II transmembraneserine protease required for normal leg and wing morphogenesis.In addition, a leg malformation phenotype associated with overexpressionof Sb-sbd in prepupal leg discs is suppressed when RhoA genedose is reduced, suggesting that RhoA and Sb-sbd act in a commonpathway during leg morphogenesis. We also characterized sixmutations identified as enhancers of zipper mutant leg defects.Three of these genes encode known members of the RhoA signalingpathway (RhoA, DRhoGEF2, and zipper). The remaining three enhancerof zipper mutations interact genetically with both RhoA andSb-sbd mutations, suggesting that they encode additional componentsof the RhoA signaling pathway in imaginal discs. Our resultsprovide evidence that the type II transmembrane serine proteases,a class of proteins linked to human developmental abnormalitiesand pathology, may be associated with intracellular signalingrequired for normal development.

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