07-655 Sigma-AldrichAnti-Rab4 Antibody

The small GTP-binding protein, rab4, is involved in recycling of transferrin receptors and translocation of GLUT4. Recent studies suggest that rab4 controls regulated exocytosis in the exocrine pancreas. We conducted the present study to further investigate the role of rab4 in the exocrine pancreas. We found that the exocrine pancreas expresses two rab4 immunoanalogs, one of approximately 28 kDa identified previously in neonatal glands, and one of approximately 24 kDa which is similar to rab4 characterized in other systems. The latter species was mostly membrane-anchored and localized to endosome-like structures in a supranuclear region that was immunopositive for the transferrin receptor. The approximately 24-kDa rab4 form also localized to the apical plasmamembrane, and this immunofluorescence increased greatly in tissue challenged with a secretagogue. We propose that the approximately 24-kDa rab4 species is involved in compensatory membrane retrieval following regulated exocytosis, and that rab4-positive endocytic vesicles move through a supranuclear recycling compartment.

The ras-like GTP binding protein rab4 is the only known rab protein on endosomes that is phosphorylated during mitosis. Since a large fraction of rab4 accumulates in the cytosol in mitotic cells, we investigated the molecular mechanism controlling membrane association of rab4. We first show that human rab4 is phosphorylated by recombinant mammalian p34cdc2 kinase in vitro. Next, the actual site of phosphorylation and its functional significance were determined using stably transfected CHO cell lines producing high levels of wild type rab4 or rab4 mutants bearing alterations at Ser196, which occurs within a consensus site for p34cdc2 kinase phosphorylation (S196PRR). Mutation of Ser196 to glutamine or aspartic acid completely prevented rab4 phosphorylation in mitotic cells and also blocked its appearance in the cytosol. Neither C-terminal isoprenylation nor carboxymethylation of rab4 was affected by the mutations or by phosphorylation. Finally, dephosphorylation and reassociation of soluble rab4 with membranes occurred upon exit of cells from mitosis. Thus, phosphorylation of Ser196 is directly responsible for the reversible translocation of rab4 into the cytosol of mitotic cells.