膀胱逼尿肌神经介导的 ATP 释放的特征及其病理意义。

Characterisation of nerve-mediated ATP release from bladder detrusor muscle and its pathological implications.

机构信息

Instituto de Investigaciones en Medicina Traslacional (IIMT), Facultad de Ciencias Biomédicas, Austral University, Buenos Aires, Argentina.

Department of Surgery, University College London, London, UK.

出版信息

Br J Pharmacol. 2019 Dec;176(24):4720-4730. doi: 10.1111/bph.14840. Epub 2019 Nov 3.

DOI:10.1111/bph.14840

PMID:31430833

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6965683/

Abstract

BACKGROUND AND PURPOSE

This study aims to characterise the molecular mechanisms that determine variability of atropine resistance of nerve-mediated contractions in human and guinea pig detrusor smooth muscle.

EXPERIMENTAL APPROACH

Atropine resistance of nerve-mediated contractions and the role of P2X1 receptors, were assessed in isolated preparations from guinea pigs and also humans with or without overactive bladder syndrome, from which the mucosa was removed. Nerve-mediated ATP release was measured directly with amperometric ATP-sensitive electrodes. Ecto-ATPase activity of guinea pig and human detrusor samples was measured in vitro by measuring the concentration-dependent rate of ATP breakdown. The transcription of ecto-ATPase subtypes in human samples was measured by qPCR.

KEY RESULTS

Atropine resistance was greatest in guinea pig detrusor, absent in human tissue from normally functioning bladders, and intermediate in human overactive bladder. Greater atropine resistance correlated with reduction of contractions by the ATP-diphosphohydrolase apyrase, directly implicating ATP in their generation. E-NTPDase-1 was the most abundantly transcribed ecto-ATPase of those tested, and transcription was reduced in tissue from human overactive, compared to normal, bladders. E-NTPDase-1 enzymic activity was inversely related to the magnitude of atropine resistance. Nerve-mediated ATP release was continually measured and varied with stimulation frequency over the range of 1-16 Hz.

CONCLUSION AND IMPLICATIONS

Atropine resistance in nerve-mediated detrusor contractions is due to ATP release and its magnitude is inversely related to E-NTPDase-1 activity. ATP is released under different stimulation conditions compared with ACh, implying different routes for their release.

摘要

背景和目的

本研究旨在描述决定人及豚鼠逼尿肌平滑肌神经介导收缩中阿托品抵抗变异性的分子机制。

实验方法

在从具有或不具有膀胱过度活动症且去除黏膜的豚鼠和人中分离的标本中评估神经介导的收缩的阿托品抵抗和 P2X1 受体的作用。用安培型 ATP 敏感电极直接测量神经介导的 ATP 释放。通过测量 ATP 分解的浓度依赖性速率，在体外测量豚鼠和人逼尿肌样本的外核苷酸酶活性。通过 qPCR 测量人样本中外核苷酸酶亚型的转录。

主要结果

豚鼠逼尿肌的阿托品抵抗最大，正常功能膀胱的人组织中不存在，人膀胱过度活动症的中间。更大的阿托品抵抗与 ATP 二磷酸水解酶 apyrase 减少收缩相关，直接表明 ATP 在其产生中起作用。在测试的外核苷酸酶中，E-NTPDase-1 的转录最为丰富，与正常膀胱相比，人膀胱过度活动症组织中的转录减少。E-NTPDase-1 酶活性与阿托品抵抗的幅度成反比。持续测量神经介导的 ATP 释放，其随刺激频率在 1-16 Hz 的范围内变化。

结论和意义

神经介导的逼尿肌收缩中的阿托品抵抗归因于 ATP 释放，其幅度与 E-NTPDase-1 活性成反比。与 ACh 相比，ATP 在不同的刺激条件下释放，这意味着它们释放的途径不同。

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