Galpha12 and Galpha13 transduce signals from G protein-coupled receptors to RhoA through RhoGEFs containing an RGS homology (RH) domain, such as p115 RhoGEF or leukemia-associated RhoGEF (LARG). The RH domain of p115 RhoGEF or LARG binds with high affinity to active forms of Galpha12 and Galpha13 and confers specific GTPase-activating protein (GAP) activity, with faster GAP responses detected in Galpha13 than in Galpha12. At the same time, Galpha13, but not Galpha12, directly stimulates the RhoGEF activity of p115 RhoGEF or nonphosphorylated LARG in reconstitution assays. In order to better understand the molecular mechanism by which Galpha13 regulates RhoGEF activity through interaction with RH-RhoGEFs, we sought to identify the region(s) of Galpha13 involved in either the GAP response or RhoGEF activation. For this purpose, we generated chimeras between Galpha12 and Galpha13 subunits and characterized their biochemical activities. In both cell-based and reconstitution assays of RhoA activation, we found that replacing the carboxyl-terminal region of Galpha12 (residues 267-379) with that of Galpha13 (residues 264-377) conferred gain-of-function to the resulting chimeric subunit, Galpha12C13. The inverse chimera, Galpha13C12, exhibited basal RhoA activation which was similar to Galpha12. In contrast to GEF assays, GAP assays showed that Galpha12C13 or Galpha13C12 chimeras responded to the GAP activity of p115 RhoGEF or LARG in a manner similar to Galpha12 or Galpha13, respectively. We conclude from these results that the carboxyl-terminal region of Galpha13 (residues 264-377) is essential for its RhoGEF stimulating activity, whereas the amino-terminal alpha helical and switch regions of Galpha12 and Galpha13 are responsible for their differential GAP responses to the RH domain.
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