Large rab gtpases: Novel membrane trafficking regulators with a calcium sensor and functional domains

Abstract

Rab GTPases are major coordinators of intracellular membrane trafficking, including vesicle transport, membrane fission, tethering, docking, and fusion events. Rab GTPases are roughly divided into two groups: conventional “small” Rab GTPases and atypical “large” Rab GTPases that have been recently reported. Some members of large Rab GTPases in mammals include Rab44, Rab45/RASEF, and Rab46. The genes of these large Rab GTPases commonly encode an amino‐ter-minal EF‐hand domain, coiled‐coil domain, and the carboxyl‐terminal Rab GTPase domain. A common feature of large Rab GTPases is that they express several isoforms in cells. For instance, Rab44’s two isoforms have similar functions, but exhibit differential localization. The long form of Rab45 (Rab45‐L) is abundantly distributed in epithelial cells. The short form of Rab45 (Rab45‐S) is predominantly present in the testes. Both Rab46 (CRACR2A‐L) and the short isoform lacking the Rab domain (CRACR2A‐S) are expressed in T cells, whereas Rab46 is only distributed in endothelial cells. Although evidence regarding the function of large Rab GTPases has been accumulating recently, there are only a limited number of studies. Here, we report the recent findings on the large Rab GTPase family concerning their function in membrane trafficking, cell differentiation, related diseases, and knockout mouse phenotypes.