P2z／P2x7嘌呤能受体的研究进展

P2受体是许多种类细胞共有的一类膜受体,能选择性地与胞外ATP(ATPe)结合,产生多种生物效应。P2受体不同于P1受体,因后者也是一类嘌呤能受体,但仅选择性识别腺嘌呤,现称为A1、A2受体。包括ATP在内的多种天然或合成的核苷酸对不同亚型的P2受体有着不同的激活能力,因此根据药理学性质将P2受体分为五类:P2x、P2y、P2u、P2z和P2t,其中前四种是ATP受体,而P2t则是血小板(PLT)表达的ADP受体。P2z受体有一个     

氢溴酸槟榔碱对豚鼠离体胃窦环行肌条收缩活动的影响

目的：观察氢溴酸槟榔碱对豚鼠离体胃窦环行肌条的收缩活动并探讨其作用机理。方法：将胃窦环行肌条置于灌流肌槽内,采用累积加氢溴酸槟榔碱和分别加阻断剂的方法,观察对肌条的收缩活动的影响。结果：10^-7mol/L、10^-6mol/L浓度的槟榔碱对胃窦环行肌条的收缩波平均振幅有增大作用;10^-6mol/L浓度槟榔碱增高环行肌条的张力,4-DAMP可阻断槟榔碱增加胃窦环行肌条的收缩活动的作用,加拉明未阻断槟榔碱兴奋胃窦环行肌条的作用。结论：氢溴酸槟榔碱可兴奋豚鼠胃窦环行肌条的收缩活动,该作用经由胆碱能M3受体,而不是胆碱能M2受体的途径。     

P2Y1嘌呤受体在心血管系统的研究进展

P2Y1嘌呤受体是最早被发现并克隆的P2Y受体家族成员,属G蛋白偶联受体,其内源性激动剂主要是ADP及ATP。随着研究深入,人们发现该受体在多个方面有着重要作用,参与机体多种生理病理过程。本文对该受体近年来在心血管系统方面的研究进行综述,提示P2Y1受体有可能成为疾病治疗的潜在靶点。     

克隆的P2受体亚型的药理学研究进展

细胞外嘌呤（腺苷,ADP,ATP）及嘧啶（UDP,UTP）为重要的信使分子,通过细胞表面P2受体介导产生不同的生物效应,P2嘌吟受体的概念于1978年被提出,随后根据药理学特征又被分为P2X及P2X嘌呤受体,90年代,采用分子生物学手段,一系列配体门控的P2X受体及G蛋白耦联的P2Y受体被克隆及功能表达,迄今为止,已有七型P2X受体亚型（P2X1－7）及六型P2Y受体亚型被克隆（P2Y1,2,4,6,11,12）,各型具有不同的分子结构,药理学特征及组织分布,本文还讨论了目前可用于区分各亚型激动剂及拮抗剂。     

神经系统中的嘌呤信号

三磷酸腺苷(ATP)作用于嘌呤受体(P2受体),引起离子通道开放或通过第二信使调节神经细胞功能,不仅参与了特殊感觉、神经元与神经胶质细胞相互作用等生理活动,而且参与了神经损伤修复和疼痛等病理过程.神经系统中的嘌呤信号系统研究,不仅为解释神经系统生理功能及其病理过程提供了新的思路,而且为治疗神经系统损伤和疼痛等疾病开辟了新的希望.     

P物质对5—HT引起的大鼠回肠纵行肌收缩效应的影响及其机制分析

本文采用离体大鼠回肠纵行肌-肌间神经丛(LM-MP)标本,观察SP对5-HT引起的LMMP标本收缩效应的影响,并对其作用机制进行了分析。实验结果:(1) 阈下剂量的SP(5nmol/L)可明显加强5-HT(100nmol/L)引起的LM-MP收缩效应;(2) SP受体拮抗剂[D-Pro~2、DTrp~(7,9)]SP、M受体阻断剂阿托品可抑制或阻断SP对5-HT的加强效应。表明这种效应是通过SP受体中介的;(3) M受体阻断剂阿托品也可阻断SP的加强效应,而平滑肌5-HT受体阻断剂BOL对SP的加强效应似无阻断作用。这些结果提示,阈下剂量的SP对5-HT具有调制作用,并与胆碱能机制有关。     

多形核白细胞上嘌呤受体的初步研究

ATP和ADP能激活多型核白细胞引起细胞内［Ca²⁺］_i的明显升高,AMP则无此作用.多型核白细胞对ATP和ADP具有不同的浓度依赖性.当细胞外的钙离子被螯合后,ATP和ADP仍能引起细胞内游离钙浓度的升高.结果表明多形核白细胞存在着对ATP和ADP敏感的P2型嘌呤受体,并且属于P2型受体中的P2Y亚类.     

P2X4受体的结构功能关系研究进展

嘌呤能受体P2X4是三磷酸腺苷(ATP)-门控的阳离子通道,对生物体内多种重要生命活动起一定的调节作用。二次跨膜的三聚体通道P2X4受体的三维空间组成是由胞外结构域、跨膜域及胞内N-、C-端组成。ATP的三磷酸基团能被位于亚基界面的ATP结合口袋的带正电氨基酸特异性识别,嘌呤环则被疏水氨基酸和部分氨基酸的主链氧所识别。P2X4受体激活后,胞外阳离子更多是通过侧窗路径进入细胞内。就P2X4受体的空间结构、配体的识别、离子通透途径及门控机制作一综述。     

P2Y 受体研究进展

P2受体作为一类核苷酸受体,可分为门控离子通道P2X受体和G蛋白偶联P2Y受体。P2Y受体在人体内分布广泛,功能复杂,迄今为止已从人体组织细胞克隆出9种P2Y受体,分别为P2Y1,2,4,6,11,1,13,14,15受体。本文对P2Y受体的结构特征、生理功能、药理特性和临床应用进行综述。     

P2X7受体与疾病的相关性

P2X受体是一类离子型配体门控通道,分为7个不同的亚型(P2X1～7)。嘌呤能离子通道型受体7(purinergic ligand-gated ion channel 7 receptor, P2X7R)是ATP门控的,非选择性的阳离子通道,属于嘌呤受体P2X家族。P2X7受体广泛表达于神经系统、肌肉组织和免疫系统。在胞外ATP作用下,P2X7受体偶联多种胞内信号通路,参与细胞增殖、凋亡及炎症因子的释放等多种生理功能。研究发现,P2X7受体与诸多疾病有着密切联系,包括自身免疫性疾病(如关节炎和炎症性肠病)、神经退行性疾病、慢性疼痛、情绪障碍和癌症等。P2X7受体异常表达会导致这些疾病的发生,增加疾病的易感性与病变程度。现就P2X7受体的生物学特征、P2X7受体与疾病的关系及其特异性阻断剂和激动剂进行综述。     

Developmental changes of purinergic control of intestinal motor activity during metamorphosis in the African clawed frog, Xenopus laevis

Little is known about the purinergic regulation of intestinal motor activity in amphibians. Purinergic control of intestinal motility is subject to changes during development in mammals. The aim of this study was to investigate purinergic control of intestinal smooth muscle in the amphibian Xenopus laevis and explore possible changes in this system during the developmental phase of metamorphosis. Effects of purinergic compounds on mean force and contraction frequency in intestinal circular muscle strips from prometamorphic, metamorphic, and juvenile animals were investigated. Before metamorphosis, low concentrations of ATP reduced motor activity, whereas the effects were reversed at higher concentrations. ATP-induced relaxation was not inhibited by the P2-receptor antagonist pyridoxalphosphate-6-azophenyl-2',4'-disulfonic acid (PPADS) but was blocked by the ecto-nucleotidase inhibitor 6-N,N-diethyl-d-beta,gamma-dibromomethylene ATP (ARL67256), indicating that an ATP-derived metabolite mediated the relaxation response at this stage. Adenosine induced relaxation before, during, and after metamorphosis, which was blocked by the A(1)-receptor antagonist 1,3-dipropyl-8-cyclopentylxanthine (DPCPX). The stable ATP-analog adenosine 5'-[gamma-thio]-triphosphate (ATPgammaS) and 2-methylthioATP (2-MeSATP) elicited contractions in the circular muscle strips in prometamorphic tadpoles. However, in juvenile froglets, 2-MeSATP caused relaxation, as did ATPgammaS at low concentrations. The P2Y(11)/P2X(1)-receptor antagonist NF157 antagonized the ATPgammaS-induced relaxation. The P2X-preferring agonist alpha-beta-methyleneadenosine 5'-triphosphate (alpha-beta-MeATP) evoked PPADS-sensitive increases in mean force at all stages investigated. This study demonstrates the existence of an adenosine A(1)-like receptor mediating relaxation and a P2X-like receptor mediating contraction in the X. laevis gut before, during, and after metamorphosis. Furthermore, the development of a P2Y(11)-like receptor-mediated relaxation during metamorphosis is shown.     

Evidence for a lower oesophageal sphincter in the guinea-pig

1. In vitro balloon pull-through experiments have been used to identify the guinea-pig lower oesophageal sphincter (LOS). 2. Histologically, the LOS forms a 1-2 mm ring of smooth muscle at the distal termination of the oesophagus, immediately adjacent to the gastric sling muscle. 3. Tetrodotoxin (10(-6) M) sensitive, guanethidine (10(-6) M) insensitive "on" relaxation of circular LOS muscle strips was evoked by electrical field stimulation (ES). 4. ES evoked atropine (10(-6) M) sensitive "on" contractions of gastric sling and fundus smooth muscle strips. 5. Following cessation of ES a partially atropine-sensitive "off" contraction was observed in all the smooth muscle strips. 6. The predominant response of the LOS to ES was relaxation.     

Effect of exogenous ATP on canine jejunal smooth muscle

Intracellular recordings were made from the circular smooth muscle cells of the canine jejunum to study the effect of exogenous ATP and to compare the ATP response to the nonadrenergic, noncholinergic (NANC) inhibitory junction potential (IJP) evoked by electrical field stimulation (EFS). Under NANC conditions, exogenous ATP evoked a transient hyperpolarization (6.5 +/- 0.6 mV) and EFS evoked a NANC IJP (17 +/- 0.4 mV). Omega-conotoxin GVIA (100 nM) and a low-Ca(2+), high-Mg(2+) solution abolished the NANC IJP but had no effect on the ATP-evoked hyperpolarization. The ATP-evoked hyperpolarization and the NANC IJP were abolished by apamin (1 microM) and N(G)-nitro-L-arginine (100 microM). Oxyhemoglobin (5 microM) partially (38.8 +/- 5.5%) reduced the amplitude of the NANC IJP but had no effect on the ATP-evoked hyperpolarization. Neither the NANC IJP nor the ATP-evoked hyperpolarization was affected by P2 receptor antagonists or agonists, including suramin, reactive blue 2, 1-(N, O-bis-[5-isoquinolinesulfonyl]-N-methyl-L-tyrosyl)-4-phenylpiperazine , pyridoxal phosphate-6-azophenyl-2',4'-disulfonic acid, alpha, beta-methylene ATP, 2-methylthioadenosine 5'-triphosphate tetrasodium salt, and adenosine 5'-O-2-thiodiphosphate. The data suggest that ATP evoked an apamin-sensitive hyperpolarization in circular smooth muscle cells of the canine jejunum via local production of NO in a postsynaptic target cell.     

Excitatory regulation of angiotensin II on gastric motility and its mechanism in guinea pig

In the present study, we investigated the effect of Ang II on gastric smooth muscle motility and its mechanism using intracellular recording and whole-cell patch clamp techniques. Ang II dose-dependently increased the tonic contraction and the frequency of spontaneous contraction in the gastric antral circular smooth muscles of guinea pig. ZD7155, an Ang II type 1 receptor (AT(1)R) blocker, completely blocked the effect of Ang II on the spontaneous contraction of gastric smooth muscle. In contrast, TTX, a sodium channel blocker, failed to block the effect. Furthermore, nicardipine, a voltage-gated Ca(2+)-channel antagonist, did not block the effect of Ang II on the tonic contraction of gastric smooth muscle, but external free-calcium almost completely blocked this effect. Both ryanodine, an inhibitor of calcium-induced Ca(2+) release (CICR) from ryanodine-sensitive calcium stores, and thapsigargin, which depletes calcium in calcium stores, almost completely blocked the effect of Ang II on tonic contraction. However, 2-APB, an inositol trisphosphate (IP(3)) receptor blocker, significantly, but not completely, blocked the Ang II effect on tonic contraction. We also determined that Ang II depolarized membrane potential and increased slow wave frequency in a dose-dependent manner. It also inhibited delayed rectifying potassium currents in a dose-dependent manner, but did not affect L-type calcium currents or calcium-activated potassium currents. These results suggest that Ang II plays an excitatory regulation in gastric motility via AT(1)R-IP(3) and the CICR signaling pathway. The Ang II-induced inhibition of delayed rectifying potassium currents that depolarize membrane potential is also involved in the potentiation of tonic contraction and the frequency of spontaneous contraction in the gastric smooth muscle of guinea pig.     

Involvement of Secondary Intracellular Messengers in the Mechanisms of Purinergic Inhibition of Intestinal Smooth Muscles

We studied the role of adenylate cyclase and phospholipase C in the control of ATP-induced relaxation of carbachol-evoked contraction of smooth muscles of the guinea-pig taenia coli. We showed that ATP-induced relaxation of carbachol-caused contraction is completely realized under control conditions via activation of inositol trisphosphate-sensitive (InsP₃) receptors of the sarcoplasmic reticulum of smooth muscle cells (SMCs). In the case where phospholipase C was blocked, the relaxing action of ATP on smooth muscles continues to be mediated mostly by activation of InsP₃ receptors, but other mechanisms begin to participate in this process. Intracellular processes are also involved in ATP-induced relaxation where the signal is transferred from purine receptors via activation of phospholipase C under conditions of parallel activation of adenylate cyclase by forskolin; these processes also include activation of InsP₃ receptors of the sarcoplasmic reticulum of SMCs and some other events. After U73122-induced blocking of phospholipase C and forskolin-induced activation of adenylate cyclase, ATP-caused relaxation can completely be removed by an inhibitor of InsP₃ receptors, 2-APB. This indicates that, under the above conditions, such relaxation is realized exclusively via InsP₃ receptors of the sarcoplasmic reticulum of SMCs. At the same time, ATP-induced relaxation caused by activation of phospholipase C and inactivation of adenylate cyclase is also nearly completely realized with involvement of InsP₃ receptors of the sarcoplasmic reticulum. However, removing the activity of phospholipase C under conditions of blocking of adenylate cyclase and InsP₃ receptors of the sarcoplasmic reticulum in SMCs leads to the recovery of ATP-induced relaxation with the participation of the other intracellular processes. Therefore, two intracellular messengers, phospholipase C and adenylate cyclase, are involved in purinergic inhibition of smooth muscles. Upon their action, multiple intracellular signal pathways are triggered. The level of their participation can be influenced by the initial functional state of intestinal SMCs. These changes are always directed toward the maintenance of normal functioning of the respective organs.     

Comparative effects of galanin on isolated smooth muscle cells from ileum in five mammalian species.

Effect of galanin and CCK8 were studied on isolated smooth muscle cells obtained from pig, guinea-pig, rat, rabbit and dog ileum circular muscle layer. Galanin as well as CCK8 induced a concentration-dependent contraction of pig, rat, rabbit and guinea-pig ileum smooth muscle cells. Maximal contraction ranged between 23.7 +/- 1.9% and 26.1 +/- 3.1% decrease in cell length from control in the presence of both peptides. This maximal contraction was obtained at 1 nM galanin in pig, rat, rabbit, 1 nM CCK8 in rat, rabbit, guinea-pig, at 10 nM galanin in guinea-pig and 10 nM CCK8 in pig. Concentrations of galanin inducing a half maximal contraction (EC50) ranged between 8 pM and 80 pM in these species. In dog, CCK8 induced a concentration-dependent contraction of ileum smooth muscle cells, with a maximal contraction (24.5 +/- 2.3%) at 1nM and an EC50 of 50 pM while galanin inhibited cell contraction induced by CCK8. The CCK-induced contraction was abolished at 10 nM galanin and 10 nM VIP. Concentrations of galanin and VIP inducing a half-maximal relaxation of contracted cells were 2 pM and 3 pM respectively. It is concluded that galanin may induce cell contraction of pig, guinea-pig, rat and rabbit ileum circular muscle layer and cell relaxation of dog ileum by a direct myogenic effect.     

Immunohistochemical localization of substance P, vasoactive intestinal polypeptide and gastrin-releasing peptide in vas deferens and seminal vesicle, and the effect of these and eight other neuropeptides on resting tension and neurally evoked contractile activity

Immunohistochemical studies of the vas deferens and seminal vesicle of mouse, guinea-pig, and rabbit showed the presence of nerve fibres containing vasoactive intestinal polypeptide (VIP), substance P (SP), and gastrin-releasing peptide (GRP) supplying the smooth muscle layers as well as blood vessels. The nerve supply was better developed in the seminal vesicle than in the vas deferens. The motor activity of the vas deferens and seminal vesicle of the guinea-pig was studied in vitro. The vas deferens responded to transmural electrical stimulation with a twitch followed by a slow contraction. The twitch was blocked by guanethidine and tetrodotoxin, but not by atropine, propranolol, phenoxybenzamine, or fluphenazine. The slow contraction exhibited features of an alpha-receptor-mediated response. SP, physalaemin and eledoisin contracted the smooth muscle and also potentiated the twitch response to electrical nerve stimulation in a concentration-dependent manner. The SP blocking agent, (D-Pro2,D-Trp7,9)-SP, affected neither the resting tension nor the response to electrical stimulation. It is therefore suggested that the SP fibres act mainly prejunctionally. VIP, Leu-enkephalin, cholecystokinin octapeptide (CCK-8), angiotensin II, vasopressin, neurotensin, bombesin, and GRP had no effect on either the resting tension or the response to electrical nerve stimulation. The seminal vesicle responded to electrical stimulation with a contraction which was unimpaired by atropine, propranolol, phenoxybenzamine, and guanethidine, but abolished by tetrodotoxin. Hence, this contraction is mediated by a non-adrenergic, non-cholinergic neurotransmitter. Bombesin, GRP, SP, physalaemin and eledoisin contracted the smooth muscle and potentiated the response to electrical stimulation. VIP, Leu-enkephalin, CCK-8, angiotensin II, vasopressin, and neurotensin had no effect on the resting tension or on the response to transmural electrical stimulation. The SP antagonist abolished the contraction elicited by SP but did not influence the response to nerve stimulation. The results suggest that the SP and GRP nerves may have prejunctional and facilitating postjunctional effects in the seminal vesicle.     

Capsaicin inhibits the voltage-operated calcium channels intracellularly in the antral circular myocytes of guinea-pig stomach

Studies of the effect of capsaicin (CAP) on the smooth muscle contractions have shown both contraction and relaxation in various preparations. The direct effect of CAP on gastric smooth muscle itself has not yet been reported, though CAP was reported to relax the isolated guinea-pig stomach by releasing nitric oxide from the CAP-sensitive sensory neurons. Here we showed an evidence that CAP evokes a prolonged relaxation of gastric antral circular smooth muscle (CAP-induced relaxation) by blocking the voltage-operated Ca2+ channels (VOCC) from inside of the cell. CAP suppressed dose-dependently the spontaneous contractions of guinea-pig gastric circular muscle strip under the condition without neural influence (IC50 = 5.8 microM). The inhibitory effects of CAP both on the high K+ contracture induced by 50 mM K+ Tyrode solution and on the slow waves recorded using a conventional intracellular microelectrode technique were similar to those of Ca2+ channel antagonists, indicating that Ca2+ influx through the VOCC is decreased by CAP. Ca2+ channel current (I(Ba)) decreased in a concentration-dependent manner on superfusing the physiological salt solution containing various concentrations of CAP. The steady-state activation and inactivation curves of I(Ba) were not affected by the treatment with CAP. The experiment using a synthetic water-soluble analog of CAP, DA-5018 x HCl, suggested that the acting site of CAP is present in the intracellular side. Spontaneous transient outward K+ currents (STOCs) recorded at a holding potential of 0 mV were also inhibited by CAP and verapamil, Ca channel blocker. Taken together, these results indicate that CAP-induced relaxation is associated with the direct inhibitory action on the VOCC from inside of the cell.     

Comparison of the effect of ATP on intracellular calcium ion dynamics between rat testicular and cerebral arteriole smooth muscle cells

Adenosine 5'-triphosphate (ATP), when released from neuronal and non-neuronal tissues, interacts with cell surface receptors produces a broad range of physiological responses. The goal of the present study was to examine the issue of whether vascular smooth muscle cells respond to ATP. To this end, the dynamics of the intracellular concentration of calcium ions ([Ca(2+)](i)) in smooth muscle cells in testicular and cerebral arterioles was examined by laser scanning confocal microscopy. ATP produced an increase in [Ca(2+)](i) in arteriole smooth muscle cells. While P1 purinoceptor agonists had no effect on this process, P2 purinoceptor agonists induced a [Ca(2+)](i) increase and a P2 purinoceptor antagonist, suramin, completely inhibited ATP-induced [Ca(2+)](i) dynamics in both arteriole smooth muscle cells.In testicular arterioles, Ca(2+) channel blockers and the removal of extracellular Ca(2+), but not thapsigargin pretreatment, abolished the ATP-induced [Ca(2+)](i) dynamics. In contrast, Ca(2+) channel blockers and the removal of extracellular Ca(2+) did not completely inhibit ATP-induced [Ca(2+)](i) dynamics in cerebral arterioles. Uridine 5'-triphosphate caused an increase in [Ca(2+)](i) only in cerebral arterioles and alpha,beta-methylene ATP caused an increase in [Ca(2+)](i) in both testicular and cerebral arterioles.We conclude that testicular arteriole smooth muscle cells respond to extracellular ATP via P2X purinoceptors and that cerebral arteriole smooth muscle cells respond via P2X and P2Y purinoceptors.     

Inhibitory effect of mitragynine, an analgesic alkaloid from Thai herbal medicine, on neurogenic contraction of the vas deferens

The effect of an indole-alkaloid mitragynine isolated from the Thai medicinal herb kratom (Mitragyna speciosa) on neurogenic contraction of smooth muscle was studied in guinea-pig vas deferens. Mitragynine inhibited the contraction of the vas deferens produced by electrical transmural stimulation. On the other hand, mitragynine failed to affect the responses to norepinephrine and ATP. Mitragynine did not reduce KCl-induced contraction in the presence of tetrodotoxin, prazosin and alpha,beta-methylene ATP. Mitragynine inhibited nicotine- or tyramine-induced contraction. By using the patch-clamp technique, mitragynine was found to block T- and L-type Ca2+ channel currents in N1E-115 neuroblastoma cells. In the Ca2+ measurement by a fluorescent dye method, mitragynine reduced KCl-induced Ca2+ influx in neuroblastoma cells. The present results suggest that mitragynine inhibits the vas deferens contraction elicited by nerve stimulation, probably through its blockade of neuronal Ca2+ channels.