TRIM50 Protein Regulates Vesicular Trafficking for Acid Secretion in Gastric Parietal Cells

Of the TRIM/RBCC family proteins taking part in a variety of cellular processes, TRIM50 is a stomach-specific member with no defined biological function. Our biochemical data demonstrated that TRIM50 is specifically expressed in gastric parietal cells and is predominantly localized in the tubulovesicular and canalicular membranes. In cultured cells ectopically expressing GFP-TRIM50, confocal microscopic imaging revealed dynamic movement of TRIM50-associated vesicles in a phosphoinositide 3-kinase-dependent manner. A protein overlay assay detected preferential binding of the PRY-SPRY domain from the TRIM50 C-terminal region to phosphatidylinositol species, suggesting that TRIM50 is involved in vesicular dynamics by sensing the phosphorylated state of phosphoinositol lipids. Trim50 knock-out mice retained normal histology in the gastric mucosa but exhibited impaired secretion of gastric acid. In response to histamine, Trim50 knock-out parietal cells generated deranged canaliculi, swollen microvilli lacking actin filaments, and excess multilamellar membrane complexes. Therefore, TRIM50 seems to play an essential role in tubulovesicular dynamics, promoting the formation of sophisticated canaliculi and microvilli during acid secretion in parietal cells. Background: For TRIM/RBCC family members, the stomach-specific TRIM50 has no defined biological role. Results: TRIM50 was associated with intracellular vesicles to contribute to their dynamic movement in cultured cells, and mutant gastric parietal cells from Trim50 knock-out mice exhibited abnormal rearrangement of intracellular vesicles. Conclusion: TRIM50 is essential for vesicular dynamics in parietal cells. Significance: Our finding unveiled the basic biological role of TRIM50.