豚鼠膀胱上皮下肌成纤维细胞的嘌呤能调节
Purinergic regulation of guinea pig suburothelial myofibroblasts.
作者信息
Wu C, Sui G P, Fry C H
机构信息
Department of Medicine, University College London, UK.
出版信息
J Physiol. 2004 Aug 15;559(Pt 1):231-43. doi: 10.1113/jphysiol.2004.067934. Epub 2004 Jul 2.
The Ca(2+)-regulating and electrophysiological properties of guinea-pig suburothelial myofibroblasts have been measured in order to investigate their potential role in the sensation of bladder fullness, due to their strategic position between the urothelium and afferent fibres. Previous work has shown that stretch of the bladder wall releases ATP. Cells that stain positively for vimentin were isolated. About 45% of cells (median membrane capacitance 13.3 pF) exhibited spontaneous depolarizations to about -25 mV with a physiological Cl(-) gradient (frequency 2.6 +/- 1.5 min(-1), duration 14.5 +/- 2.2 s, n= 15). Under voltage-clamp spontaneous inward currents (frequency 1.5 +/- 0.2 min(-1), duration 14.5 +/- 7.0 s, n= 18) were recorded, with a similar reversal potential. The spontaneous currents were preceded by intracellular Ca(2+) transients with a magnitude that was independent of membrane potential. All cells tested responded to ATP by generating an intracellular Ca(2+) transient, followed by inward currents; the currents had a similar reversal potential and slope conductance to their spontaneous counterparts. ATP-generated transients were mimicked by UTP and ADP but not by alpha,beta-methylene-ATP (1-10 microm) or CTP (30 microm), indicating that ATP acts via a P2Y receptor. Transients were partially attenuated by 1 mm suramin but PPADS (80 microm) had no effect. These data indicate that ATP acts via a P2Y receptor, but responses were resistant to the P2Y(1) antagonist MRS2179. ATP-generated transients were abolished by intracellular perfusion with heparin and TMB-8 indicating that IP(3) was the intracellular second messenger. The reversal potentials of the spontaneous and ATP-generated currents were shifted by about +45 mV by a 12-fold reduction of the extracellular [Cl(-)] and the currents were greatly attenuated by 1 mm DIDS. No transients were generated on exposure to the muscarinic agonist carbachol. We propose that these cells may play a regulatory step in the sensation of bladder fullness by responding to ATP. The precise mechanism whereby they couple urothelial ATP release to afferent excitation is the next step to be elucidated.
为了研究豚鼠膀胱上皮下肌成纤维细胞在膀胱充盈感觉中的潜在作用,我们测量了其钙调节和电生理特性,因为它们位于尿路上皮和传入纤维之间的关键位置。先前的研究表明,膀胱壁的拉伸会释放ATP。分离出波形蛋白染色呈阳性的细胞。约45%的细胞(中位膜电容13.3 pF)在生理Cl⁻梯度下表现出自发去极化至约 -25 mV(频率2.6±1.5 min⁻¹,持续时间14.5±2.2 s,n = 15)。在电压钳下记录到自发内向电流(频率1.5±0.2 min⁻¹,持续时间14.5±7.0 s,n = 18),其反转电位相似。自发电流之前有细胞内Ca²⁺瞬变,其幅度与膜电位无关。所有测试细胞对ATP的反应都是产生细胞内Ca²⁺瞬变,随后是内向电流;这些电流的反转电位和斜率电导与其自发对应物相似。UTP和ADP可模拟ATP产生的瞬变,但α,β - 亚甲基 - ATP(1 - 10 μM)或CTP(30 μM)则不能,这表明ATP通过P2Y受体起作用。1 mM苏拉明可部分减弱瞬变,但PPADS(80 μM)无作用。这些数据表明ATP通过P2Y受体起作用,但反应对P2Y₁拮抗剂MRS2179有抗性。用肝素和TMB - 8进行细胞内灌注可消除ATP产生的瞬变,表明IP₃是细胞内第二信使。细胞外[Cl⁻]降低12倍可使自发电流和ATP产生电流的反转电位偏移约 +45 mV,并且1 mM DIDS可使电流大大减弱。暴露于毒蕈碱激动剂卡巴胆碱时不产生瞬变。我们认为这些细胞可能通过对ATP的反应在膀胱充盈感觉中发挥调节作用。它们将尿路上皮ATP释放与传入兴奋耦合的精确机制是下一步需要阐明的。
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