Dominant negative Rab3D inhibits amylase release from mouse pancreatic acini.

Rab3 proteins are believed to play an important role in regulated exocytosis and previous work has demonstrated the presence of Rab3D on pancreatic zymogen granules. To further understand the function of Rab3D in acinar cell exocytosis, adenoviral constructs were prepared encoding hemagglutinin-tagged wild type Rab3D and three mutant forms, N135I and T36N (both deficient in guanine nucleotide binding) and Q81L (deficient in GTP hydrolysis), which also expressed enhanced green fluorescent protein driven by a separate promoter. When isolated mouse pancreatic acini were cultured with 5 x 10(6) pfu/ml adenovirus, nearly 100% of acini were infected as visualized by expression of green fluorescent protein. Cultured acini showed a biphasic dose-response to cholecystokinin (CCK); basal amylase secretion was 1.8 +/- 0.3%/30 min, peak release was 7.3 +/- 0.2%/30 min at 30 pm CCK and reduced secretion was observed at higher CCK concentrations. Control beta-galactosidase virus infection had no effect on either basal or CCK-induced secretion in the titer range from 0.5 to 10 x 10(6) pfu/ml. While the expression of Rab3D and Rab3D Q81L had no effect on amylase secretion, Rab3D N135I and T36N functioned as dominant negative mutants and inhibited CCK-induced amylase release by 40-50% at all points on the CCK dose-response curve from 3 to 300 pm. Inhibition was stronger during the first 5 min (71 +/- 5%) than over 30 min (36%+/-5%). Similar inhibition was found using other agonists including bombesin, carbachol, and cAMP. Localization of adenoviral expressed Rab protein showed wild type Rab3D localized to zymogen granules. The two dominant negative mutants did not localize to granules and were primarily in the basolateral region of the cell. Since both dominant negative Rab3D mutants had no effect on intracellular calcium increase induced by CCK, it is unlikely that they acted at receptors or transmembrane signaling. These results suggest that Rab3D plays an important role in regulating the terminal steps of acinar exocytosis and that this effect is greatest on the early phase of amylase release.