Caffeine does not inhibit substance P-evoked intracellular Ca2+ mobilization in rat salivary acinar cells

We used theCa²⁺-sensitive fluorescent dyefura 2, together with measurements of intracellularD-myo-inositol1,4,5-trisphosphate [Ins(1,4,5)P₃],to assess the inhibitory effects of caffeine on signal transduction viaG protein-coupled receptor pathways in isolated rat mandibular salivaryacinar cells. ACh, norepinephrine (NE), and substance P (SP) all evokedsubstantial increases in the intracellular freeCa²⁺ concentration([Ca²⁺]_i).Responses to ACh and NE were markedly inhibited by prior application of20 mM caffeine. The inhibitory effect of caffeine was not reproduced byphosphodiesterase inhibition with IBMX or addition of cell-permeantdibutyryl cAMP. In contrast to the ACh and NE responses, the[Ca²⁺]_iresponse to SP was unaffected by caffeine. Despite this, SP and AChappeared to mobilize Ca²⁺ from acommon intracellular pool. Measurements of agonist-induced changes inIns(1,4,5)P₃levels confirmed that caffeine inhibited the stimulus-response couplingpathway at a point beforeIns(1,4,5)P₃ generation. Caffeine did not, however, inhibit[Ca²⁺]_iresponses evoked by direct activation of G proteins with 40 mMF. These data show thatcaffeine inhibits G protein-coupled signal transduction in these cellsat some element that is common to the muscarinic and -adrenergicsignaling pathways but is not shared by the SP signaling pathway. Wesuggest that this element might be a specific structural motif on the Gprotein-coupled muscarinic and -adrenergic receptors.