Rab11a redistributes to apical secretory canaliculus during stimulation of gastric parietal cells

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Rab11a redistributes to apical secretory canaliculus during stimulation of gastric parietal cells

Benjamin C. Calhoun, Lynne A. Lapierre, Catherine S. Chew, and James R. Goldenring

Institute for Molecular Medicine and Genetics, Departments of Medicine, Surgery, and Cellular Biology and Anatomy, Medical College of Georgia, and Augusta Veterans Affairs Medical Center, Augusta, Georgia 30912

Previous investigations in several systems have demonstrated that Rab3 family members redistribute to soluble fractions onfusion of secretory granules with target plasma membranes. Rabproteins are then recycled back onto mature secretory vesiclesafter reinternalization of the membrane. Although this cycle iswell established for Rab3, far less is known about redistributionof other Rab proteins during vesicle fusion and recycling. Inthe gastric parietal cell, Rab11a is associated with H-K-ATPase-containingtubulovesicles, which fuse with the apical plasma membrane (secretorycanaliculus) in response to agonists such as histamine. We haveanalyzed distribution of Rab11a and other tubulovesicle proteinsin resting and histamine-stimulated rabbit parietal cells. Stimulationof isolated gastric glands in the presence of 100 µM histamineand 100 µM 3-isobutyl-1-methylxanthine did not cause a significantincrease in soluble Rab11a. H-K-ATPase, Rab11a, Rab25, syntaxin3, and SCAMPs increased immunoreactivity in stimulus-associatedvesicles prepared from rabbits treated with histamine comparedwith those from ranitidine-treated animals. The large GTPase dynaminwas found in both vesicle preparations, but there was no changein amount of immunoreactivity. Immunofluorescence staining ofresting and histamine-stimulated primary cultures of parietalcells demonstrated redistribution of H-K-ATPase and Rab11a toF-actin-rich canalicular membranes. Dynamin was present on canalicularmembranes in resting and stimulated cells. These results indicatethat Rab11a does not cycle off the membrane during the processof tubulovesicle fusion with the secretory canaliculus. Thus Rab11amay remain associated with recycling apical membrane vesicle populations.

tubulovesicle proteins; rabbit; dynamin; syntaxin; SNARE proteins

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