Matching catalytic activity to developmental function: Tolloid-related processes Sog in order to help specify the posterior crossvein in the Drosophila wing

doi:10.1242/dev.01838

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Development ePress online publication date 4 May 2005
doi: 10.1242/dev.01838

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Research article

Matching catalytic activity to developmental function: Tolloid-related processes Sog in order to help specify the posterior crossvein in the Drosophila wing

Mihaela Serpe, Amy Ralston, Seth S. Blair, and Michael B. O'Connor^*
^* Author for correspondence (e-mail: moconnor{at}mail.med.umn.edu)

The Drosophila tolloid (tld) and tolloid related (tlr) geneproducts belong to a family of developmentally important proteasesthat includes Bone Morphogenetic Protein 1 (Bmp1). Tld is requiredearly in Drosophila development for proper patterning of dorsalembryonic structures, whereas Tlr is required later during larvaland pupal stages of development. The major function of Tld isto augment the activity of Decapentaplegic (Dpp) and Screw (Scw),two members of the Bmp subgroup of the Tgf ${beta}$ superfamily, by cleavingthe Bmp inhibitor Short gastrulation (Sog). In this study, weprovide evidence that Tlr also contributes to Sog processing.Tlr cleaves Sog in vitro in a Bmp-dependent manner at the samethree major sites as does Tld. However, Tlr shows differentsite selection preferences and cleaves Sog with slower kinetics.To test whether these differences are important in vivo, weinvestigated the role of Tlr and Tld during development of theposterior crossvein (PCV) in the pupal wing. We show that tlrmutants lack the PCV as a result of too little Bmp signaling.This is probably caused by excess Sog activity, as the phenotypecan be suppressed by lowering Sog levels. However, Tld cannotsubstitute for Tlr in the PCV; in fact, misexpressed Tld cancause loss of the PCV. Reducing levels of Sog can also causeloss of the PCV, indicating that Sog has not only an inhibitorybut also a positive effect on signaling in the PCV. We proposethat the specific catalytic properties of Tlr and Tld have evolvedto achieve the proper balance between the inhibitory and positiveactivities of Sog in the PCV and early embryo, respectively.We further suggest that, as in the embryo, the positive effectof Sog upon Bmp signaling probably stems from its role in aligand transport process.

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