Mélanie Laurin scite author profile

Rho GTPases play key regulatory roles in many aspects of embryonic development, regulating processes such as differentiation, proliferation, morphogenesis, and migration. Two families of guanine nucleotide exchange factors (GEFs) found in metazoans, Dbl and Dock, are responsible for the spatiotemporal activation of Rac and Cdc42 proteins and their downstream signaling pathways. This review focuses on the emerging roles of the mammalian DOCK family in development and disease. We also discuss, when possible, how recent discoveries concerning the biological functions of these GEFs might be exploited for the development of novel therapeutic strategies.

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The atypical Rac activator Dock180 (Dock1) regulates myoblast fusion in vivo

Laurin

Fradet

Blangy

et al. 2008

Proc. Natl. Acad. Sci. U.S.A.

154

163

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Dock1(also known as Dock180) is a prototypical member of a new family of atypical Rho GTPase activators. Genetic studies in Drosophila and Caenorhabditis elegans have demonstrated that Dock1 orthologues in these organisms have a crucial role in activating Rac GTPase signaling. We generated mutant alleles of the closely related Dock1 and Dock5 genes to study their function in mammals. We report that while Dock5 is dispensable for normal mouse embryogenesis, Dock1 has an essential role in embryonic development. A dramatic reduction of all skeletal muscle tissues is observed in Dock1-null embryos. Mechanistically, this embryonic defect is attributed to a strong deficiency in myoblast fusion, which is detectable both in vitro and in vivo. Furthermore, we have uncovered a contribution of Dock5 toward myofiber development. These studies identify Dock1 and Dock5 as critical regulators of the fusion step during primary myogenesis in mammals and demonstrate that a specific component of the myoblast fusion machinery identified in Drosophila plays an evolutionarily conserved role in higher vertebrates. Dock5 ͉ mouse model ͉ myogenesis ͉ Myoblast City

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The Rac1 exchange factor Dock5 is essential for bone resorption by osteoclasts

et al. 2010

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Osteoporosis, which results from excessive bone resorption by osteoclasts, is the major cause of morbidity for elder people. Identification of clinically relevant regulators is needed to develop novel therapeutic strategies. Rho GTPases have essential functions in osteoclasts by regulating actin dynamics. This is of particular importance because actin cytoskeleton is essential to generate the sealing zone, an osteoclast-specific structure ultimately mediating bone resorption. Here we report that the atypical Rac1 exchange factor Dock5 is necessary for osteoclast function both in vitro and in vivo. We discovered that establishment of the sealing zone and consequently osteoclast resorbing activity in vitro require Dock5. Mechanistically, our results suggest that osteoclasts lacking Dock5 have impaired adhesion that can be explained by perturbed Rac1 and p130Cas activities. Consistent with these functional assays, we identified a novel small-molecule inhibitor of Dock5 capable of hindering osteoclast resorbing activity. To investigate the in vivo relevance of these findings, we studied Dock5 -/-mice and found that they have increased trabecular bone mass with normal osteoclast numbers, confirming that Dock5 is essential for bone resorption but not for osteoclast differentiation. Taken together, our findings characterize Dock5 as a regulator of osteoclast function and as a potential novel target to develop antiosteoporotic treatments. ß

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Mélanie Laurin

Insights into the biological functions of Dock family guanine nucleotide exchange factors

The atypical Rac activator Dock180 (Dock1) regulates myoblast fusion in vivo

The Rac1 exchange factor Dock5 is essential for bone resorption by osteoclasts

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