Comparison of P2 purinergic receptors of aortic endothelial cells with those of adrenal medulla: evidence for heterogeneity of receptor subtype and of inositol phosphate response

Vascular endothelial cells from different parts of the circulation are known to show different functional responses, presumably corresponding to physiological roles. Previous studies have shown that ATP acts on P2 purinergic receptors of endothelial cells of major blood vessels, stimulating the formation of inositol phosphates. Here we have compared the action of ATP and congeners acting on endothelial cells of bovine thoracic aorta with cells derived from the microvasculature of bovine adrenal medulla. With measurement of total inositol phosphates, cells from the aorta showed a rank order of agonist potency of 2-methylthio-ATP greater than adenosine 5'-O-(3-thiotriphosphate) (ATP gamma S) greater than ADP greater than ATP greater than beta, gamma-imido-ATP greater than beta, gamma-methylene-ATP, consistent with action at receptors of the P2Y subtype. However, with adrenal cells the rank order of potency was ATP gamma S greater than ATP greater than beta, gamma-imido-ATP greater than ADP greater than beta, gamma-methylene-ATP = 2-methylthio-ATP. This profile is not consistent with either P2X or P2Y receptors. When the nature of this inositol phosphate response was analyzed with anion exchange chromatography, it was found that the aortic cells showed an inositol trisphosphate stimulation that peaked within a few seconds and rapidly declined, whereas the response of the adrenal medulla cells continued to rise through 5 min. Analysis of isomers of inositol phosphates revealed a different pattern of metabolism between the two cell types, which may account for the different time course of response. With adrenal cells, ATP at low micromolar concentrations caused a dose-dependent increase in levels of cyclic AMP and had a greater than additive effect on cyclic AMP levels when combined with submaximal stimulation by prostaglandin E2. These results suggest the presence of a P2Y receptor on aortic endothelial cells, with an 'atypical' purinocepter, i.e., neither P2X nor P2Y, on adrenal cells. Furthermore, they show that activation of P2 receptors on the two cell types has different functional consequences.     

Dipyridamole and vascular prostacyclin production

The action of dipyridamole on the vascular production of prostacyclin (PGI2) has been investigated. Dipyridamole (1-100 microM) did not induce a significant stimulation of PGI2 release in any of the following experimental models: rings of rabbit aorta, cultured endothelial cells from bovine aorta or human umbilical vein, cultured explants of bovine aortic smooth muscle. The activity of known stimuli of PGI2 release (ADP, suloctidil, serotonin) and the capacity of dipyridamole to inhibit adenosine uptake into endothelial cells were carefully checked. Pretreatment of the rabbit aorta with dipyridamole (10-100 microM) prolonged the transient stimulation of PGI2 release induced by mechanical deendothelialization: this effect was probably due to a partial protection of the cyclooxygenase against oxidative self-inactivation. Our largely negative results are consistent with the current theory that the antiplatelet action of dipyridamole is mediated by adenosine and not by PGI2.     

Subclasses of purinoceptors in feline bladder.

Purines have been shown to inhibit and excite feline detrusor smooth muscle through P1 and P2 receptor activation. Several recent studies have demonstrated differences in agonist potency orders for subclasses of purinoceptors, including P2Y and nucleotide, or P2U receptors. The current studies were performed to determine the presence of such receptor subtypes in feline detrusor smooth muscle. Cats were surgically prepared for monitoring detrusor smooth muscle contractions as increases in intravesical pressure. Contractions were induced by pelvic nerves stimulation (PNS), ATP, and ATP analogs, such as beta, gamma-methylene ATP (APPCP), 5' adenylimido diphosphate (AMP-PNP) and 2-methylthio ATP (2-MeSATP), ATP gamma S, UTP, CTP and GTP. These agents all produced contractions and had an agonist potency order of AMP-PNP = APPCP > ATP gamma S = 2-MeSATP > ATP > UTP = CTP = GTP. The agonist potency order for inhibition of PNS nerve-evoked bladder contractions was APPCP = AMP-PNP = ATP gamma S > 2-MeSATP = ATP > UTP = CTP = GTP. Reactive Blue 2 and Coomassie's Brilliant Blue G, two putative P2Y receptor antagonists, antagonized purine-induced actions. This antagonism and the agonist potency orders suggest the possible presence of novel receptors in detrusor smooth muscle and/or the presence of multiple receptors in detrusor smooth muscle.     

Nucleotide-mediated relaxation in guinea-pig aorta: selective inhibition by MRS2179

The vasodilatory effects of nucleotides in the guinea-pig thoracic aorta were examined to determine the relationship between molecular expression and function of P2Y receptors. In aortic rings precontracted with norepinephrine, vasodilatory responses to purine nucleotides exhibited a rank-order of potency of 2-methylthio-ATP>ADP>ATP. Responses to UTP, but not UDP suggested a functional role for P2Y4 but not P2Y6 receptors. Aortic endothelial cells express at least four P2Y receptors; P2Y1, P2Y2, P2Y4 and P2Y6. In primary culture, these cells exhibit desensitizing transient calcium responses characteristic of P2Y1, P2Y2 and P2Y4, but not P2Y6 receptors. UDP had no effect on endothelial cell calcium. The pyrimidinergic receptor agonist UTP is capable of eliciting robust vasodilation in aortic rings and causing calcium responses in cultured guineapig aortic endothelial cells. These responses are equivalent to the maximum responses observed to ATP and ADP. Measurement of intracellular calcium release in response to ATP and 2-methylthio-ATP were similar, however only the 2-methylthio-ATP response was sensitive to the P2Y1 antagonist N(6)-methyl-2'-deoxyadenosine-3',5'-bisphosphate (MRS2179). In aortic rings, vasodilatory responses to 2-methylthio-ATP, ATP and ADP were all blocked by pre-incubation of tissues with MRS2179. MRS2179 pretreatment had no effect of the ability of UTP to cause relaxation of norepinephrine responses in aortic rings or the ability of UTP to cause calcium release in aortic endothelial cells. We demonstrate robust effects of purine and pyrimidine nucleotides in guineapig aorta and provide functional and biochemical evidence that MRS2179 is a selective P2Y1 antagonist.     

P2Y receptor-mediated Ca2+ signalling in cultured rat aortic smooth muscle cells.

1. ATP, UTP, ADP and ADP-beta-S elicited Ca2+ -signals in cultured aortic smooth muscle cells although ADP, UDP and ADP-beta-S gave approximately 40% of the maximal response seen with ATP and UTP. Adenosine, AMP or alpha,beta-methylene-ATP had no effect. These responses were attributed to P2Y2/4 and P2Y1 receptors, which we assumed could be selectively activated by UTP and ADP-beta-S respectively. 2. The response to UTP was reduced (approximately 50%) by pertussis toxin, whilst this toxin had no effect upon the response to ADP-beta-S. This suggests P2Y2/4 receptors simultaneously couple to pertussis toxin-sensitive and -resistant G proteins whilst P2Y1 receptors couple to only the toxin-resistant proteins. 3. Repeated stimulation with UTP or ADP-beta-S caused desensitization which was potentiated by 12-O-tetradecanoyl phorbol-13-acetate (TPA) and attenuated by staurosporine. 4. TPA completely abolished sensitivity to ADP-beta-S but the response to UTP had a TPA-resistant component. In pertussis toxin-treated cells, however, TPA could completely abolish sensitivity to UTP and so the TPA-resistant part of this response seems to be mediated by pertussis toxin-sensitive G proteins. 5. Loss of sensitivity to UTP did not occur when pertussis toxin-treated cells were repeatedly stimulated with this nucleotide, suggesting that pertussis toxin-sensitive G proteins mediate this effect. The toxin did not, however affect desensitization to ADP-beta-S.     

Stimulation of vascular prostacyclin by SKF 525-A (proadifen) and related compounds

SKF 525-A (proadifen), a well-known inhibitor of drug metabolism and cytochrome P-450 activity, stimulated the release of prostacyclin (PGI2) from the rabbit aorta in vitro. The threshold concentration producing a detectable effect was 20 microM; the time course of SKF 525-A action exhibited particular features--progressive onset, long duration and slow reversibility--distinct from those of other stimuli (ADP, ionophore A23187 f.i.). The PGI2-stimulating activity of SKF 525-A was characterized by specific structural requirements: activity was abolished by the deletion of the terminal propyl group and increased by its elongation into an isobutyl group; chlorination of the phenyl groups increased the potency. SKF 525-A increased the production of PGI2 by cultured endothelial cells from bovine aorta and human umbilical vein, but had no effect on cultured smooth muscle from the bovine aortic media. Stimulation of PGI2 release could be explained by an increased availability of free arachidonic acid, which was probably independent from cytochrome P-450 inhibition. In human platelets, SKF 525-A inhibited prostaglandin and thromboxane production induced by A23187, thrombin and ADP. Simultaneous stimulation of endothelial PGI2 and inhibition of platelet TxA2 represents an original pharmacological profile: SKF 525-A might thus constitute the prototype of a new class of antiplatelet drugs.     

Effects of changes in extra- and intracellular K+ on the endothelial production of prostacyclin.

1. Changes in the KCl concentration of the incubation medium, from 0 to 80 mM, had no effect on the basal or ATP-stimulated release of prostacyclin (PGI2) from bovine aortic endothelial cells. 2. The monovalent cation ionophores, valinomycin and nigericin (5 microM), enhanced the release of PGI2 from endothelial cells stimulated by ATP or bradykinin. 3. The action of nigericin, unlike that of valinomycin, was time-dependent, abolished in a high-KCl medium and associated with an increased efflux of 86Rb and a time-dependent depletion of intracellular K+. 4. Ouabain (1-100 microM) also enhanced the release of PGI2 in response to ATP and induced a significant depletion of intracellular K+ in bovine aortic endothelial cells. 5. In conclusion, modifications of the endothelial cell membrane potential, resulting from changes in the extracellular K+ concentration, do not modulate the basal or ATP-stimulated production of PGI2. An acute depletion of intracellular K+ by nigericin or ouabain enhances the production of PGI2 in aortic endothelial cells stimulated by ATP or bradykinin.     

The regulation of aortic endothelial cells by purines and pyrimidines involves co-existing P2y-purinoceptors and nucleotide receptors linked to phospholipase C.

1. We have examined the phospholipase C responses in bovine aortic endothelial cells to purines (ATP, ADP and analogues) and the pyrimidine, uridine triphosphate (UTP). 2. The cells responded to purines in a manner consistent with the presence of P2y purinoceptors; both 2-methylthioadenosine 5'-triphosphate (2MeSATP) and adenosine 5'-0-(2-thiodiphosphate) (ADP beta S) were potent agonists (EC50 0.41 microM and 0.85 microM respectively) while beta, gamma-methylene ATP at 300 microM was not. 3. The cells also responded to UTP. The maximal response to UTP was less than that for either 2MeSATP and ADP beta S while adenosine 5'-0-(3-thiotriphosphate) (ATP gamma S) gave the largest maximal response. 4. The concentration-effect curve to UTP was additive in the presence of either 2MeSATP or ADP beta S. However, the concentration-effect curves to ATP gamma S reached the same maximum in the presence or absence of UTP. 5. Suramin, at concentrations between 10 microM and 100 microM was a competitive antagonist for the response to ADP beta S and 2MeSATP but not the response to UTP. 6. The results show that there are two separate, co-existing, receptor populations: P2y-purinoceptors (responding to purines) and nucleotide receptors (responding to both purines and pyrimidines). We conclude that purines such as ATP/ADP may regulate aortic endothelial cells by interacting with two phospholipase C-linked receptors.     

P2X receptors counteract the vasodilatory effects of endothelium derived hyperpolarising factor

Dilatory responses of extracellular nucleotides were examined in the precontracted isolated rat mesenteric artery. Dilatation mediated by endothelium-derived hyperpolarising factor (EDHF) was studied in the presence of Nomega-nitro-L-arginine (L-NOARG) and indomethacin, and was most potently induced by the selective P2Y(1) receptor agonist adenosine 5'-O-thiodiphosphate (ADPbetaS), while 2-methylthioadenosine triphosphate (2-MeSATP) and adenosine triphosphate (ATP) were almost inactive. However, after P2X receptor desensitisation (with alphabeta-methylene-adenosine triphosphate, alphabeta-MeATP), 2-MeSATP and ATP potently stimulated EDHF-mediated dilatation. This can be explained by simultaneous activation of endothelial P2Y receptors that release EDHF, and depolarising P2X receptors on smooth muscle cells. Uridine triphosphate (UTP) also induced potent dilatation, suggesting EDHF release via P2Y(2)/P2Y(4) receptors. Uridine diphosphate (UDP) had only minor dilatory effects, and when pretreated with hexokinase it was almost inactive, suggesting a minor role for P2Y(6) receptors. The nitric oxide (NO) mediated dilatation was studied in the presence of charybdotoxin, apamin and indomethacin. ADPbetaS, 2-MeSATP, ATP and UTP were all potent relaxant agonists suggesting NO release via P2Y(1) and P2Y(2)/P2Y(4) receptors, while UDP was much less potent and efficacious. P2X receptor desensitisation had only minor effect on the NO-mediated dilatations. In conclusion, both EDHF and NO-mediated dilatation can be induced by activation of P2Y(1) and P2Y(2)/P2Y(4) receptors. P2X receptor stimulation of smooth muscle cells selectively counteracts the dilatory effect of EDHF.     

ATP and UTP responses of cultured rat aortic smooth muscle cells revisited: dominance of P2Y2 receptors

1. It has previously been shown that ATP and UTP stimulate P2Y receptors in vascular smooth muscle cells (VSMCs), but the nature of these receptors, in particular the contribution of P2Y2 and P2Y4 subtypes, has not been firmly established. Here we undertake a further pharmacological analysis of [3H]inositol polyphosphate responses to nucleotides in cultured rat VSMCs. 2. ATP generated a response that was partial compared to UTP, as reported earlier. 3. In the presence of a creatine phosphokinase (CPK) system for regenerating nucleoside triphosphates, the response to ATP was increased, the response to UTP was unchanged, and the difference between UTP and ATP concentration-response curves disappeared. Chromatographic analysis showed that ATP was degraded slightly faster than UTP. 4. The response to UDP was always smaller than that to UTP, but with a shallow slope and a high potency component. In the presence of hexokinase (which prevents the accumulation of ATP/UTP from ADP/UDP), the maximum response to UDP was reduced and the high-potency component of the curve was retained. By contrast, the response to ADP was weaker throughout in the presence of hexokinase. 5. ATP gamma S was an effective agonist with a similar EC50 to UTP, but with a lower maximum. ITP was a weak agonist compared with UTP. 6. Suramin was an effective antagonist of the response to UTP (pA2=4.48), but not when ATP was the agonist. However, suramin was an effective antagonist (pA2=4.45) when stimulation with ATP was in the presence of the CPK regenerating system. 7. Taken together with the results of others, these findings indicate that the response of cultured rat VSMCs to UTP and to ATP is predominantly at the P2Y2 receptor, and that there is also a response to UDP at the P2Y6 receptor.     

Indications for P2-purinoceptor subtypes in guinea pig smooth muscle

The effects of ADP, ATP, 2-methylthio ATP, alpha,beta-methylene ADP (alpha,beta meADP) and alpha,beta meATP on smooth muscle tone and the responses to transmural nerve stimulation were studied in isolated longitudinal ileum muscle, in vas deferens and in taenia coli of the guinea pig. The nucleotides evoked contractile responses in the ileum and vas deferens preparations which were blocked by p-chloromercuribenzene sulfonic acid (PCMBS) and evoked relaxation in the taenia which was not affected by PCMBS. The potency order of the agonists in the ileum (2-methylthio ATP was more potent than ATP which was equipotent with ADP) is consistent with the suggestion that there are P2Y receptors in the taenia. The antagonist pattern, including the inefficacy of reactive blue 2, instead suggests a similarity between the ileum receptors and the P2X receptors in vas deferens. However, alpha,beta meATP did not antagonize the contractile effect of ATP in the ileum, in contrast to its effect in the vas deferens where alpha,beta meATP did abolish the contractile effect of ATP. The possibilities for classification of a new receptor/site of purine nucleotide action, P2S, are considered.     

P2 receptors in the murine gastrointestinal tract

The actions of adenosine, adenosine 5'-triphosphate (ATP), 2-methylthio adenosine diphosphate ADP (2-MeSADP), 2-methylthio ATP (2-MeSATP), alpha,beta-methylene ATP (alpha,beta-meATP) and uridine triphosphate (UTP) on isolated segments of mouse stomach (fundus), duodenum, ileum and colon were investigated. The localization of P2Y(1), P2Y(2), P2Y(4), P2X(1) and P2X(2) receptors and neuronal nitric oxide synthase (NOS) were examined immunohistochemically, and P2Y(1) mRNA was examined with in situ hybridization. The order of potency for relaxation of longitudinal muscle of all regions was: 2-MeSADP>/=2-MeSATP>alpha,beta-meATP>ATP=UTP=adenosine. This is suggestive of P2Y(1)-mediated relaxation and perhaps a further P2Y receptor subtype sensitive to alpha,beta-meATP. As ATP and UTP are equipotent, the presence of a P2Y(2) receptor is indicated. ATP responses were inhibited by the P2Y(1)-selective antagonist MRS 2179, and suramin. P2Y(1) receptors were visualized immunohistochemically in the smooth muscle of the ileum and in a subpopulation for myenteric neurones, which also stained for NOS. P2Y(1) mRNA was localized in neurones in both myenteric and submucosal ganglia in the ileum. Taken together, these results suggest that ATP was acting on non-adrenergic, non-cholinergic inhibitory neurons, which release both nitric oxide (NO) and ATP. Reduced relaxations to 2-MeSADP by tetrodotoxin and N(omega)-nitro-L-arginine methyl ester, are consistent with this possibility. Adenosine acts via P1 receptors to relax smooth muscle of the mouse gut. Segments of mouse colon (in contrast to the stomach and small intestine) were contracted by nucleotides with the potency order: 2-MeSATP>alpha,betameATP>ATP; the contractions showed no desensitization and were antagonized by suramin and PPADS, consistent with responses mediated by P2X(2) receptors. Immunoreactivity to P2X(2) receptors was demonstrated on both longitudinal and circular muscle of the colon, but not in the other regions of the gut, except for a small subpopulation of myenteric neurones. In summary, neuronal P2Y(1) receptors appear to mediate relaxation, largely through NO in all regions of the mouse gut, and to a lesser extent by P2Y(1), P2Y(2) and a novel P2Y receptor subtype responsive to alpha,beta-meATP in smooth muscle, while P2X(2) receptors mediate contraction of colonic smooth muscle.     

Purinoceptor mediated stimulation of prostacyclin release in the porcine pulmonary vasculature.

Prostacyclin (PGI2) release from the piglet isolated perfused lung was measured by radioimmunoassay of 6-keto-PGF1 alpha in the venous effluent. Basal release of PGI2 was transiently stimulated up to 30 fold, in a dose-dependent manner, by bolus injections of ATP (0.03-3 mumol). A continuous infusion of ATP also produced a transient response. Dose-response curves for purinergic stimulation of PGI2 release showed that ADP was equipotent with ATP, while AMP and adenosine were virtually inactive. The non-hydrolyzable ATP analogue, ATP-gamma-S, elicited PGI2 release of similar magnitude and duration to that of ATP, suggesting that pulmonary catabolism of ATP is not required to induce PGI2 release. The results suggest that the porcine pulmonary vasculature possesses P2-purinoceptors through which the synthesis and release of PGI2 can be mediated.     

Two subtypes of G protein-coupled nucleotide receptors, P2Y(1) and P2Y(2) are involved in calcium signalling in glioma C6 cells

1. In glioma C6 cells, the stimulation of P2Y receptors by ADP, ATP and UTP initiated an increase in the intracellular Ca2+ concentration, in a process that involved the release of Ca2+ from InsP(3)-sensitive store and the capacitative, extracellular Ca2+ entry. The presence of external Ca2+ was not necessary to elevate Ca(2+). 2. The rank order of potencies of nucleotide analogues in stimulating [Ca2+](i) was: 2MeSADP > ADP > 2MeSATP = 2ClATP > ATP > UTP. alpha,beta-Methylene ATP, adenosine and AMP were ineffective. 3. ADP and UTP effects were additive, while actions of ATP and UTP were not additive on [Ca2+](i) increase. Similarly, cross-desensitization between ATP and UTP but not between ADP and UTP occurred. 4. Suramin, a non-specific nucleotide receptors inhibitor, antagonized ATP-, UTP- and ADP-evoked Ca2+ responses. PPADS, a selective antagonist of the P2Y(1) receptor-generated InsP(3) accumulation, decreased ADP-initiated Ca2+ response with no effect on ATP and UTP. 5. Pertussis toxin (PTX) reduced ADP- and ATP-induced Ca2+ increases. Short-term treatment with TPA, inhibited both ATP and ADP stimulatory effects on [Ca2+](i). 6. ADP inhibited isoproterenol-induced cyclic AMP accumulation. PTX blocked this effect, but PPADS did not. 7. RT - PCR analysis revealed the molecular identity of P2Y receptors expressed by glioma C6 cells to be both P2Y(1) and P2Y(2). 8. It is concluded that both P2Y(1) and P2Y(2) receptors co-exist in glioma C6 cells. ADP acts as agonist of the first, and ATP and UTP of the second one. Both receptors are linked to phospholipase C (PLC).     

Selective inhibition of agonist-induced but not shear stress-dependent release of endothelial autacoids by thapsigargin.

1. The effects of the Ca(2+)-ATPase inhibitor, thapsigargin, on the shear stress-dependent and on the agonist-stimulated release of endothelium-derived relaxing factor, i.e. nitric oxide (NO), and prostacyclin (PGI2) were studied in bovine and human cultured endothelial cells as well as in endothelium-intact arterial segments of the rabbit. 2. Preincubation with thapsigargin (1 microM for 10 min) had no effect on the shear stress-dependent release of NO from bovine aortic endothelial cells grown on beads, but abolished the release of NO induced by ADP, bradykinin, ionomycin or poly-L-lysine. Similarly, thapsigargin completely abrogated the agonist-stimulated PGI2 release from these cells, but had no effect on the shear stress-dependent release of PGI2. 3. The acetylcholine-induced release of NO from the luminally perfused thoracic aorta and femoral artery of the rabbit was suppressed by pretreatment with thapsigargin (1 microM). In contrast, thapsigargin did not affect the shear stress-dependent release of NO from the femoral artery. 4. Administration of thapsigargin to these vascular preparations or to cultured endothelial cells alone produced a substantial release of both NO and PGI2. This release declined towards previous values after washout of thapsigargin. 5. In human and bovine cultured endothelial cells, thapsigargin (1-1000 nM) caused a dose-dependent sustained rise in [Ca2+]i, an effect that was abolished in the absence of extracellular Ca2+. Stimulation of these cells with bradykinin, histamine, ADP or ionomycin after previous exposure to thapsigargin (30-1000 nM) no longer caused an increase in [Ca2+]i.(ABSTRACT TRUNCATED AT 250 WORDS)     

Regulation of P2y-purinoceptor-mediated prostacyclin release from human endothelial cells by cytoplasmic calcium concentration.

1. ATP and ATP analogues induced prostacyclin (PGI2) secretion from human cultured umbilical vein endothelial cells. 2. The threshold active concentration for ATP was less than or equal to 1 microM. The rank order of potency of analogues was 2-chloroadenosine 5'-triphosphate (2-ClATP) greater than 2-methylthioadenosine 5'-triphosphate (2-MeSATP) greater than ATP greater than ADP, while adenosine 5'-(alpha,beta-methylene)triphosphonate, AMP and adenosine were inactive, indicating the presence of P2y-purinoceptors. 3. In contrast to their actions on P2y-receptors in guinea-pig taenia coli, isopolar analogues of 2-methylthioadenosine 5'-(beta, gamma-methylene)triphosphonate were less effective than ATP. 4. ATP and ATP analogues increased intracellular free calcium ions, [Ca2+]i, giving a rapid transient peak due predominantly to release from intracellular stores, followed by a maintained steady-state elevated level due to influx. 5. The dose-response curves for peak [Ca2+]i induced by ATP, 2-ClATP and 2-MeSATP were very similar to those for PGI2 production. 6. Elevations of [Ca2+]i, above a threshold value of 0.8-1 microM, were necessary for PGI2 production in response to P2y-receptor activation. 7. The dose relationships between PGI2 release and peak [Ca2+]i were equivalent whether [Ca2+]i was raised by ionomycin or via P2y-receptor activation by ATP or 2-ClATP, indicating that elevations of [Ca2+]i provide the major, if not the exclusive intracellular pathway for P2y-purinoceptor-mediated PGI2 synthesis.     

Evidence for two distinct P2-purinoceptors subserving contraction of the rat anococcygeus smooth muscle.

1. The effects of the P2-purinoceptor agonists, adenosine 5'-triphosphate (ATP), alpha, beta-methylene ATP (alpha, beta-MeATP), beta, gamma-methylene ATP (beta, gamma-MeATP), L-beta, gamma-methylene ATP (L-beta, gamma-MeATP), adenosine-5'-O-(2-thiodiphosphate) (ADP beta S), and 2-methylthio ATP (2-MeSATP) were investigated on the isometric tension of the rat anococcygeus muscle. 2. Non-cumulative additions of ATP (100-1500 microM), alpha, beta-MeATP (1-300 microM), beta, gamma-MeATP (10-300 microM), L-beta, gamma-MeATP (3-100 microM) and ADP beta S (1-100 microM) produced concentration-dependent contractions, whereas 2-MeSATP (1-100 microM) had no effect. The rank order of potency was alpha, beta-MeATP > L-beta, gamma-MeATP > or = ADP beta S > beta, gamma-MeATP > > ATP > 2-MeSATP. 3. Contractions to cumulative additions of ATP, alpha, beta-MeATP, beta, gamma-MeATP and L-beta, gamma-MeATP were subject to desensitization whilst those to ADP beta S were unaffected. 4. Contractions to ATP, alpha, beta-MeATP, beta, gamma-MeATP and ADP beta S were abolished by the non-selective P2X/. P2Y-purinoceptor antagonist, suramin (100 microM). In contrast, contractions to ATP, alpha, beta-MeATP and beta, gamma-MeATP were not affected by the non-selective P1-purinoceptor antagonist 8-(p-sulphophenyl)-theophylline (8SPT, 30 microM). Blockade of P2X-purinoceptors with the selective P2X-purinoceptor antagonist pyridoxal-phosphate-6-azophenyl-2',4'-disulphonic acid (PPADS, 10 microM) or desensitization with L-beta, gamma-MeATP (10 microM) abolished contractions to alpha, beta-MeATP, but enhanced those to ADP beta S. The P2Y-purinoceptor antagonist, reactive blue 2 (RB2, 100 microM) enhanced contractions to ATP and alpha, beta-MeATP but abolished those to ADP beta S. 5. Simultaneous addition of alpha, beta-MeATP and ADP beta S produced an additive contraction. 6. The findings suggest that in the rat anococcygeus, smooth muscle cells are endowed with two distinct P2-purinoceptors which subserve contractions: a P2X-purinoceptor activated by ATP and its analogues, and another type of P2-purinoceptor activated by ADP beta S.     

Prostacylin receptor activation inhibits proliferation of aortic smooth muscle cells by regulating cAMP response element-binding protein- and pocket protein-dependent cyclin a gene expression

The prostanoid prostacyclin (PGI2) inhibits aortic smooth muscle cell proliferation by blocking cell cycle progression from G1-to S-phase. However, the mechanism of this inhibition is poorly understood. We report here that the PGI2 mimetic, cicaprost, inhibits the induction of cyclin A and activation of the cyclin A promoter in primary and established rodent aortic smooth muscle cells. The inhibition of cyclin A gene expression is associated with a block in cyclin E-cdk2 activity and phosphorylation of both the retinoblastoma protein and p107. Inactivation of pocket proteins with human papilloma virus protein E7 partially, but not completely, restored cyclin A promoter activity in cicaprost-treated cells. Complementary studies showed that occupancy of the cAMP response element (CRE) is required for efficient activation of the cyclin A promoter in aortic smooth muscle cells, that the CRE is primarily occupied by the CRE-binding protein (CREB) and phospho-CREB, and that cicaprost blocks the binding of CREB and phospho-CREB to the cyclin A promoter CRE. Treatment with pertussis toxin reversed the inhibitory effects of cicaprost on CRE occupancy, cyclin E-cdk2 activity, and S phase entry, suggesting the involvement of Gi signaling in cicaprost action. We conclude that PGI2 inhibits proliferation of aortic smooth muscle cells by coordinately blocking CRE- and pocket protein-dependent cyclin A gene expression.     

Adrenergic stimulation of vascular prostacyclin: role of alpha 1-receptors in smooth muscle cells

Epinephrine and norepinephrine (1-10 microM) stimulated the release of prostacyclin (PGI2) from the rabbit aorta in vitro. The stimulation was maintained for at least 2 h in the continuous presence of epinephrine. Phenylephrine mimicked this effect, whereas the selective alpha 2-agonist UK-14,304 was completely ineffective. The action of epinephrine was abolished by prazosin (1 microM) and was maintained in the presence of yohimbine. Epinephrine or phenylephrine neither increased the basal release of PGI2 from bovine aortic endothelial cells nor potentiated the stimulatory action of adenine nucleotides, which is mediated by P2-purine receptors. The response to epinephrine was lost in freshly deendothelialized strips of rabbit aorta, possibly because of cyclooxygenase self-inactivation. The response recovered however following overnight incubation of these strips in a cell culture medium. The response to epinephrine was mimicked by neither phorbol 12-myristate,13-acetate nor ionophore A23187. It was not inhibited by pretreatment with pertussis toxin. It is concluded that adrenergic agents stimulate the vascular production of PGI2, by activating alpha 1-receptors located on smooth muscle cells.     

Purification and functional reconstitution of the human P2Y12 receptor

The human P2Y12 receptor (P2Y12-R) is a member of the G protein coupled P2Y receptor family, which is intimately involved in platelet physiology. We describe here the purification and functional characterization of recombinant P2Y12-R after high-level expression from a baculovirus in Sf9 insect cells. Purified P2Y12-R, Gbeta1gamma2, and various Galpha-subunits were reconstituted in lipid vesicles, and steady-state GTPase activity was quantified. GTP hydrolysis in proteoliposomes formed with purified P2Y12-R and Galphai2beta1gamma2 was stimulated by addition of either 2-methylthio-ADP (2MeSADP) or RGS4 and was markedly enhanced by their combined presence. 2MeSADP was the most potent agonist (EC50 = 80 nM) examined, whereas ADP, the cognate agonist of the P2Y12-R, was 3 orders of magnitude less potent. ATP had no effect alone but inhibited the action of 2MeSADP; therefore, ATP is a relatively low-affinity antagonist of the P2Y12-R. The G protein selectivity of the P2Y12-R was examined by reconstitution with various G protein alpha-subunits in heterotrimeric form with Gbeta1gamma2. The most robust coupling of the P2Y12-R was to Galphai2, but effective coupling also occurred to Galphai1 and Galphai3. In contrast, little or no coupling occurred to Galphao or Galphaq. These results illustrate that the signaling properties of the P2Y12-R can be studied as a purified protein under conditions that circumvent the complications that occur in vivo because of nucleotide metabolism and interconversion as well as nucleotide release.