Mariella Iezzi scite author profile

Synaptotagmin (Syt) is involved in Ca2+-regulated secretion and has been suggested to serve as a general Ca2+ sensor on the membrane of secretory vesicles in neuronal cells. Insulin exocytosis from the pancreatic β-cell is an example of a Ca2+-dependent secretory process. Previous studies have yielded conflicting results as to which Syt isoform is present on the secretory granules in the native β-cell. Here we show by western blotting and RT-PCR analysis, the presence of both Syt V and Syt IX in rat pancreatic islets and in the clonal β-cell line INS-1E. The subcellular distribution of the two Syt isoforms was assessed by confocal microscopy and by sedimentation in a continuous sucrose density gradient in INS-1E cells. These experiments show that both proteins colocalize with insulin-containing secretory granules but are absent from synaptic-like microvesicles. Further immunofluorescence studies performed in primary pancreatic endocrine cells revealed that Syt V is present in glucagon-secreting α-cells, whereas Syt IX is associated with insulin granules in β-cells. Transient overexpression of Syt V and Syt IX did not alter exocytosis in INS-1E cells. Finally, reduction of the expression of both Syt isoforms by RNA interference did not change basal secretion. Remarkably, hormone release in response to glucose was selectively and strongly reduced, indicating that Syt V and Syt IX are directly involved in the Ca2+-dependent stimulation of exocytosis.

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Subcellular Distribution and Function of Rab3A, B, C, and D Isoforms in Insulin-Secreting Cells

Iezzi¹,

Escher

Meda

et al. 1999

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Insulin-secreting cells express four GTPases of the Rab3 family. After separation of extracts of INS-1 cells on a sucrose density gradient, the bulk of the A, B, and C isoforms was recovered in the fractions enriched in insulin-containing secretory granules. Rab3D was also mainly associated with secretory granules, but a fraction of this isoform was localized on lighter organelles. Analyses by confocal microscopy of immunostained HIT-T15 cells transfected with epitope-tagged constructs confirmed the distribution of the Rab3 isoforms. Transfection of HIT-T15 cells with GTPase-deficient mutants of the Rab3 isoforms decreased nutrient-induced insulin release to different degrees (D>B>A>>C), while overexpression of Rab3 wild types had minor or no effects. Expression of the same Rab3 mutants in PC12 cells provoked an inhibition of K+-stimulated secretion of dense core vesicles, indicating that, in beta-cells and neuroendocrine cells, the four Rab3 isoforms play a similar role in exocytosis. A Rab3A/C chimera in which the carboxyterminal domain of A was replaced with the corresponding region of C inhibited insulin secretion as Rab3A. In contrast, a Rab3C/A chimera containing the amino-terminal domain of C was less potent and reduced exocytosis as Rab3C. This suggests that the degree of inhibition obtained after transfection of the Rab3 isoforms is determined by differences in the variable amino-terminal region.

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SV2A and SV2C are not vesicular Ca2+ transporters but control glucose-evoked granule recruitment

Iezzi¹,

Theander²,

Janz

et al. 2005

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Mariella Iezzi

Proteomics Analysis of Insulin Secretory Granules

Involvement of the Rab27 Binding Protein Slac2c/MyRIP in Insulin Exocytosis

Synaptotagmin V and IX isoforms control Ca2+-dependent insulin exocytosis

Subcellular Distribution and Function of Rab3A, B, C, and D Isoforms in Insulin-Secreting Cells

SV2A and SV2C are not vesicular Ca2+ transporters but control glucose-evoked granule recruitment

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