Prenylcysteine analogs mimicking the C-terminus of GTP-binding proteins stimulate exocytosis from permeabilized HIT-T15 cells: comparison with the effect of Rab3AL peptide

Most guanine nucleotide binding proteins (G-proteins) possess an S-prenylated C-terminal cysteine whose carboxyl group can be reversibly methylated. The prenylcysteine analog N-acetyl- S-geranylgeranyl-cysteine (AGGC) (50 μM), a competitive inhibitor of prenylcysteine methyl transferases, introduced...

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Published in:Biochimica et biophysica acta. Molecular cell research 1995-09, Vol.1268 (3), p.269-278
Main Authors: Regazzi, Romano, Sasaki, Takuya, Takahashi, Kazuo, Jonas, Jean-Christophe, Volker, Craig, Stock, Jeffry B., Takai, Yoshimi, Wollheim, Claes B.
Format: Article
Language:English
Subjects:
Guanine nucleotide binding protein
HIT-T15 cell
Prenylcysteine
Rab exocyotic effector protein
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Summary:Most guanine nucleotide binding proteins (G-proteins) possess an S-prenylated C-terminal cysteine whose carboxyl group can be reversibly methylated. The prenylcysteine analog N-acetyl- S-geranylgeranyl-cysteine (AGGC) (50 μM), a competitive inhibitor of prenylcysteine methyl transferases, introduced into streptolysin-O permeabilized HIT-T15 cells doubled the rate of basal (0.1 μM Ca 2+) and of stimulated (10 μM Ca 2+ or 100 μM GTPγS) insulin secretion in a reversible and ATP-dependent manner. N-acetyl- S-farnesyl-cysteine (AFC) was less potent while N-acetyl- S-geranyl-cysteine was inactive. Prenylcysteine action on exocytosis did not involve inhibition of G-protein methylation, since (1) the methyl ester derivative of AFC, an inefficient inhibitor of methyltransferases in HIT-T15 cell fractions, was as potent as AGGC in stimulating exocytosis; (2) S-adenosyl-homocysteine, a general inhibitor of methylation reactions, did not alter basal or GTPγS-triggered secretion while inhibiting Ca 2+-induced insulin release. The binding of G-proteins to Rab/GDP-dissociation inhibitor, Rab3A/GTPase activating protein or rabphilin-3A was not affected by the prenylcysteine analogs. AGGC or AFC had the same effect on insulin release as a synthetic peptide mimicking the amino acid residues 52–67 of the G-protein Rab3A (Rab3AL). Moreover, the action on secretion of the combination of Rab3AL and prenylcysteines was not additive. We propose that the prenylcysteines and the Rab3AL peptide influence exocytosis by affecting the association of Rab3A with different proteins of the exocytotic machinery of insulin-secreting cells.
ISSN:0167-4889
1879-2596
DOI:10.1016/0167-4889(95)00085-7