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Mouse Macrophages Completely Lacking Rho Subfamily GTPases (RhoA,RhoB, and RhoC) Have Severe Lamellipodial Retraction Defects,but Robust Chemotactic Navigation and Altered Motility
Authors:Volker K?nigs  Richard Jennings  Thomas Vogl  Markus Horsthemke  Anne C. Bachg  Yan Xu  Kay Grobe  Cord Brakebusch  Albrecht Schwab  Martin B?hler  Ulla G. Knaus  Peter J. Hanley
Abstract:
RhoA is thought to be essential for coordination of the membrane protrusions and retractions required for immune cell motility and directed migration. Whether the subfamily of Rho (Ras homolog) GTPases (RhoA, RhoB, and RhoC) is actually required for the directed migration of primary cells is difficult to predict. Macrophages isolated from myeloid-restricted RhoA/RhoB (conditional) double knock-out (dKO) mice did not express RhoC and were essentially “pan-Rho”-deficient. Using real-time chemotaxis assays, we found that retraction of the trailing edge was dissociated from the advance of the cell body in dKO cells, which developed extremely elongated tails. Surprisingly, velocity (of the cell body) was increased, whereas chemotactic efficiency was preserved, when compared with WT macrophages. Randomly migrating RhoA/RhoB dKO macrophages exhibited multiple small protrusions and developed large “branches” due to impaired lamellipodial retraction. A mouse model of peritonitis indicated that monocyte/macrophage recruitment was, surprisingly, more rapid in RhoA/RhoB dKO mice than in WT mice. In comparison with dKO cells, the phenotypes of single RhoA- or RhoB-deficient macrophages were mild due to mutual compensation. Furthermore, genetic deletion of RhoB partially reversed the motility defect of macrophages lacking the RhoGAP (Rho GTPase-activating protein) myosin IXb (Myo9b). In conclusion, the Rho subfamily is not required for “front end” functions (motility and chemotaxis), although both RhoA and RhoB are involved in pulling up the “back end” and resorbing lamellipodial membrane protrusions. Macrophages lacking Rho proteins migrate faster in vitro, which, in the case of the peritoneum, translates to more rapid in vivo monocyte/macrophage recruitment.
Keywords:Cell Migration   Cell Motility   Cell Polarity   Chemotaxis   Macrophage   Mouse   Myosin   Ras Homolog Gene Family   Member A (RhoA)   Rho (Rho GTPase)   Rho GTPases
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