MicroRNA-9 controls the expression of Granuphilin/Slp4 and the secretory response of insulin-producing cells.

Insulin release from pancreatic beta-cells plays an essential role in blood glucose homeostasis. Several proteins controlling insulin exocytosis have been identified, but the factors determining the expression of the components of the secretory machinery of beta-cells remain largely unknown. MicroRNAs are newly discovered small non-coding RNAs acting as repressors of gene expression. We found that overexpression of mir-9 in insulin-secreting cells causes a reduction in exocytosis elicited by glucose or potassium. We show that mir-9 acts by diminishing the expression of the transcription factor Onecut-2 and, in turn, by increasing the level of Granuphilin/Slp4, a Rab GTPase effector associated with beta-cell secretory granules that exerts a negative control on insulin release. Indeed, electrophoretic mobility shift assays, chromatin immunoprecipitation, and transfection experiments demonstrated that Onecut-2 is able to bind to the granuphilin promoter and to repress its transcriptional activity. Moreover, we show that silencing of Onecut-2 by RNA interference increases Granuphilin expression and mimics the effect of mir-9 on stimulus-induced exocytosis. Our data provide evidence that in insulin-producing cells adequate levels of mir-9 are mandatory for maintaining appropriate Granuphilin levels and optimal secretory capacity.

Epitope-specific crosslinking of CD45 down-regulates membrane-associated tyrosine phosphatase activity and triggers early signalling events in human activated T cells.

CD45 engagement by monoclonal antibodies on human activated T cells triggers tumour necrosis factor-alpha (TNF-alpha) gene transcription in an epitope-specific manner. To dissect the early signalling events leading to TNF-alpha gene expression, we established that CD45 crosslinking resulted in tyrosine phosphorylation of p56lck, ZAP-70, CD3-zeta, LAT and Vav. This was accompanied by down-regulation of membrane-associated protein tyrosine phosphatase activity in the absence of demonstration of enhanced p56lck, p72syk and ZAP-70 kinase activity, which remained constitutive. These early events eventually triggered an intracellular Ca(2+) rise and phosphoinositide turnover. We conclude that down-regulation of membrane-associated tyrosine phosphatase activity by CD45 extracytoplasmic domain multimerization led, in an epitope-specific fashion, to unopposed tyrosine kinase activity and to the activation of the T-cell receptor/CD3 complex signalling cascade, resulting in TNF-alpha gene expression. This model strongly suggests that CD45 extracytoplasmic tail multimerization may contribute to the modulation T-cell functions.

Pancreatic beta-cell protein granuphilin binds Rab3 and Munc-18 and controls exocytosis.

Granuphilin/Slp-4 is a member of the synaptotagmin-like protein family expressed in pancreatic beta-cells and in the pituitary gland. We show by confocal microscopy that both granuphilin-a and -b colocalize with insulin-containing secretory granules positioned at the periphery of pancreatic beta-cells. Overexpression of granuphilins in insulin-secreting cell lines caused a profound inhibition of stimulus-induced exocytosis. Granuphilins were found to bind to two components of the secretory machinery of pancreatic beta-cells, the small GTP-binding protein Rab3 and the soluble N-ethylmaleimide-sensitive factor attachment protein receptor (SNARE)-binding protein Munc-18. The interaction with Rab3 occurred only with the GTP-bound form of the protein and was prevented by a point mutation in the effector domain of the GTPase. Structure-function studies using granuphilin-b mutants revealed that complete loss of Rab3 binding is associated with a reduction in the capacity to inhibit exocytosis. However, the granuphilin/Rab3 complex alone is not sufficient to mediate the decrease of exocytosis, suggesting the existence of additional binding partners. Taken together, our observations indicate that granuphilins play an important role in pancreatic beta-cell exocytosis. In view of the postulated role of Munc-18 in secretory vesicle docking, our data suggest that granuphilins may also be involved in this process.

The death domain of Rab3 guanine nucleotide exchange protein in GDP/GTP exchange activity in living cells.

Rab3 GTPases regulate exocytosis of neurons, endocrine and exocrine cells. In the present paper, we report a system to measure the guanine nucleotide status of Rab3 proteins in living cells. The assay is based on the ability of the Rab3 interacting molecule RIM to extract selectively the GTP-bound form of Rab3. Using this system, we found that approx. 20% of wild-type Rab3A, -B, -C or -D transfected in the insulin-secreting cell line HIT-T15 is in the GTP-bound conformation. The pool of activated Rab3 is decreased under conditions that stimulate exocytosis or by co-expression of the Rab3 GTPase-activating protein. In contrast, co-expression of Mss4 or Rab3-GEP (guanine nucleotide exchange protein) increases by approx. 3-fold the GTP-bound pool of Rab3 isoforms. Rab3-GEP is very similar to MADD, a death domain-containing protein that associates with the type 1 tumour necrosis factor receptor. We observed that the death domain of Rab3-GEP is involved in intramolecular interactions and that deletions or mutations that affect this domain of the protein impair the nucleotide exchange activity towards Rab3. We propose that the death domain of Rab3-GEP acts as a molecular switch and co-ordinates multiple functions of the protein by exchanging its binding partners.