Noradrenaline inhibits exocytosis via the G protein βγ subunit and refilling of the readily releasable granule pool via the α i1/2 subunit

The molecular mechanisms responsible for the ‘distal’ effect by which noradrenaline (NA) blocks exocytosis in the β‐cell were examined by whole‐cell and cell‐attached patch clamp capacitance measurements in INS 832/13 β‐cells. NA inhibited Ca 2+ ‐evoked exocytosis by reducing the number of exocytotic events, without modifying vesicle size. Fusion pore properties also were unaffected. NA‐induced inhibition of exocytosis was abolished by a high level of Ca 2+ influx, by intracellular application of antibodies against the G protein subunit Gβ and was mimicked by the myristoylated βγ‐binding/activating peptide mSIRK. NA‐induced inhibition was also abolished by treatment with BoNT/A, which cleaves the C‐terminal nine amino acids of SNAP‐25, and also by a SNAP‐25 C‐terminal‐blocking peptide containing the BoNT/A cleavage site. These data indicate that inhibition of exocytosis by NA is downstream of increased [Ca 2+ ] i and is mediated by an interaction between Gβγ and the C‐terminus of SNAP‐25, as is the case for inhibition of neurotransmitter release. Remarkably, in the course of this work, a novel effect of NA was discovered. NA induced a marked retardation of the rate of refilling of the readily releasable pool (RRP) of secretory granules. This retardation was specifically abolished by a Gα i1/2 blocking peptide demonstrating that the effect is mediated via activation of Gα i1 and/or Gα i2 .