Department of Reconstructive Urology, Royal Hallamshire Hospital, Sheffield, United Kingdom.
Eur Urol. 2010 Jun;57(6):1087-92. doi: 10.1016/j.eururo.2009.11.042. Epub 2009 Dec 3.
There is increased evidence to suggest a role for nonadrenergic-noncholinergic neurotransmission in the pathogenesis of bladder dysfunction.
In this set of experiments, we have assessed the contribution of the urothelium to purinergic activity by quantifying the amount of adenosine triphosphate (ATP) released from the urothelium of patients with idiopathic detrusor overactivity (IDO) and with neurogenic detrusor overactivity (NDO) and comparing these releases to those of controls.
DESIGN, SETTING, AND PARTICIPANTS: Bladder tissue with urodynamically and clinically proven NDO (n=8) and IDO (n=8) were included in this study. The carefully dissected urothelium was stimulated by mechanically stretching as well as electrically stimulating and the ATP; thus, release was quantified.
We used a Lucy Anthos 1 luminometre (Anthos Labtec Instruments GmBH, Wals, Austria) to perform the assay. The results were analysed using Stingray software (Dazdaq Ltd, Brighton, UK).
Both mechanical stretch and electric field stimulation (EFS) led to increased ATP release in both sets of tissues with overactivity compared to the controls; this rise was even more significant for the IDO urothelium (2416.7±479.8 pmol/g [p<0.005]) than for the NDO urothelium (133.1±22.4 pmol/g [p<0.01]); values for the controls were 77.6±16.2 pmol/g. ATP release following mechanical stretch was more sensitive to tetrodotoxin in bladders with NDO compared to those with IDO as well as to the controls, with ATP levels falling from 233.5±20.7 pmol/g to 107.2±11.6 pmol/g, expressed as percentage of basal levels (p<0.002). The experiments were performed in vitro, and the female patients were a mix of peri- and postmenopausal states.
These experiments suggested a significant rise in ATP release from the urothelium of bladders with NDO as well as those with IDO in comparison to controls. Most of the ATP released from bladders with NDO is primarily from neuronal sources.
越来越多的证据表明非肾上腺素能-非胆碱能神经传递在膀胱功能障碍的发病机制中起作用。
在这组实验中,我们通过定量测定特发性逼尿肌过度活动(IDO)和神经源性逼尿肌过度活动(NDO)患者的尿路上皮释放的三磷酸腺苷(ATP)量,评估尿路上皮在嘌呤能活性中的作用,并将这些释放与对照组进行比较。
设计、设置和参与者:本研究纳入了经尿动力学和临床证实患有 NDO(n=8)和 IDO(n=8)的膀胱组织。仔细解剖的尿路上皮通过机械拉伸和电刺激进行刺激,并定量测量 ATP 的释放量。
我们使用 Lucy Anthos 1 光度计(Anthos Labtec Instruments GmBH,奥地利瓦尔斯)进行测定。结果使用 Stingray 软件(英国布莱顿的 Dazdaq Ltd)进行分析。
与对照组相比,机械拉伸和电场刺激(EFS)均导致过度活动的两组组织中 ATP 释放增加;IDO 尿路上皮的增加更为显著(2416.7±479.8 pmol/g [p<0.005]),而 NDO 尿路上皮为 133.1±22.4 pmol/g [p<0.01];对照组为 77.6±16.2 pmol/g。与 IDO 和对照组相比,NDO 膀胱中 ATP 释放对河豚毒素更敏感,机械拉伸后 ATP 水平从 233.5±20.7 pmol/g 降至 107.2±11.6 pmol/g,占基础水平的百分比(p<0.002)。这些实验是在体外进行的,女性患者为绝经前和绝经后状态的混合体。
与对照组相比,NDO 和 IDO 膀胱的尿路上皮中 ATP 释放显著增加。NDO 膀胱释放的大部分 ATP 主要来自神经元来源。