The purpose of the present study was to determine the molecular mechanism of stimulatory actions of ACh and vasoactive intestinal polypeptide (VIP) by determining the role of various second messengers in the neurohumoral secretion. Toward such a goal, we measured cAMP, cGMP, protein kinase (PKC) activity, 3H-inositol triphosphate (3H-IP3), and 45Ca uptake in the adrenal medulla subjected to various treatments. Stimulation of splanchnic nerve endings increased 45Ca uptake, cAMP content, 3H-IP3, and PKC activity in the adrenal medulla. If muscarinic receptors of chromaffin cells were selectively activated by perfusion with muscarine, 3H-IP3 content and PKC activity were enhanced. Nicotine, on the other hand, increased only 45Ca uptake without affecting any other second messenger. Perfusion with VIP increased PKC activity and cAMP and 3H-IP3 content. None of the procedures affected cGMP content. Interplay among various second messengers was further investigated by studying interactions of nicotinic, muscarinic, and VIP-ergic receptors in modulation of catecholamine (CA) secretion and by using agents known to activate specific second messengers (e.g., forskolin, phorbol esters). Our results show that muscarine, VIP, and phorbol ester facilitated nicotine-evoked secretion by increasing PKC activity, and it was associated with an additional increase in 45Ca accumulation. On the other hand, secretion evoked by nicotine as well as muscarine was facilitated by forskolin without additional increase in 45Ca accumulation. A novel feature of the study is that ACh and VIP activate three types of receptors on chromaffin cells to stimulate and mutually facilitate the secretion of CA by generating various second messengers.(ABSTRACT TRUNCATED AT 250 WORDS)
The effect of phorbol ester, phorbol 12,13-dibutyrate, was investigated on the overflow of tritium from 3H-noradrenaline-loaded sympathetic neurons of the isolated perfused salivary gland of the rat. Stimulation (1 Hz for 60 s)-evoked overflow of tritium was enhanced by phorbol ester. A significant enhancement was seen at 1 nmol/l, which increased to a maximum level (over 4-fold) at 30 nmol/l. The spontaneous overflow of radioactivity, however, was not affected by any concentration of phorbol ester. The facilitatory effect of phorbol ester on stimulation-evoked overflow was observed in the presence of inhibitors of neuronal and extraneuronal uptake as well as after removal of negative feedback inhibition of release by presynaptic alpha-adrenoceptors. Tyramine (7 mumol/l for 10 min) caused a marked increase in the overflow of tritium in either the presence or absence of calcium. However, tyramine-induced overflow was not enhanced by phorbol ester. It is concluded that protein kinase C of sympathetic neurons is involved in an exocytotic release of the transmitter.
Several investigators have shown that tumour promoter phorbol esters mimic the effects of endogenous diacylglycerol to activate a second messenger, protein kinase C. These phorbol esters have proved to be valuable tools for exploring the role of protein kinase C in many cellular functions. We demonstrate here that secretion of catecholamines evoked from the rat adrenal gland by stimulation of splanchnic nerves, excess potassium (K+) and nicotine is facilitated by phorbol 12,13-dibutyrate. An inhibitor of protein kinase C, polymixin B, produced concentration-dependent inhibition of the evoked secretion, and the effect was reversed by the phorbol ester. Furthermore, we show that an increase in the accumulation of radioactively labelled calcium (45Ca) obtained in the adrenal medulla after stimulation with nicotinic agonists and excess K+ is further enhanced by phorbol ester. Muscarine-evoked secretion of catecholamines, which depends on mobilization of intracellularly bound Ca2+, was not associated with an increase in 45Ca2+ uptake, and phorbol ester did not facilitate either catecholamine secretion or 45Ca2+ accumulation. We suggest that protein kinase C is involved in the exocytotic secretion of catecholamines by regulating the influx of Ca2+ through voltage-sensitive and nicotine receptor-linked Ca2+ channels of rat chromaffin cells.
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