尿路上皮的新进展：膀胱黏膜如何感知膀胱充盈。

Urothelium update: how the bladder mucosa measures bladder filling.

作者信息

Janssen D A W, Schalken J A, Heesakkers J P F A

机构信息

Department of Urology, Radboud University Nijmegen Medical Centre, Nijmegen, The Netherlands.

出版信息

Acta Physiol (Oxf). 2017 Jun;220(2):201-217. doi: 10.1111/apha.12824. Epub 2016 Dec 14.

DOI:10.1111/apha.12824

PMID:27804256

Abstract

AIM

This review critically evaluates the evidence on mechanoreceptors and pathways in the bladder urothelium that are involved in normal bladder filling signalling.

METHODS

Evidence from in vitro and in vivo studies on (i) signalling pathways like the adenosine triphosphate pathway, cholinergic pathway and nitric oxide and adrenergic pathway, and (ii) different urothelial receptors that are involved in bladder filling signalling like purinergic receptors, sodium channels and TRP channels will be evaluated. Other potential pathways and receptors will also be discussed.

RESULTS

Bladder filling results in continuous changes in bladder wall stretch and exposure to urine. Both barrier and afferent signalling functions in the urothelium are constantly adapting to cope with these dynamics. Current evidence shows that the bladder mucosa hosts essential pathways and receptors that mediate bladder filling signalling. Intracellular calcium ion increase is a dominant factor in this signalling process. However, there is still no complete understanding how interacting receptors and pathways create a bladder filling signal. Currently, there are still novel receptors investigated that could also be participating in bladder filling signalling.

CONCLUSIONS

Normal bladder filling sensation is dependent on multiple interacting mechanoreceptors and signalling pathways. Research efforts need to focus on how these pathways and receptors interact to fully understand normal bladder filling signalling.

摘要

目的

本综述批判性地评估膀胱尿路上皮中参与正常膀胱充盈信号传导的机械感受器和通路的相关证据。

方法

将评估来自体外和体内研究的证据，这些研究涉及（i）信号通路，如三磷酸腺苷通路、胆碱能通路、一氧化氮和肾上腺素能通路，以及（ii）参与膀胱充盈信号传导的不同尿路上皮受体，如嘌呤能受体、钠通道和瞬时受体电位通道。还将讨论其他潜在的通路和受体。

结果

膀胱充盈导致膀胱壁张力持续变化以及暴露于尿液中。尿路上皮的屏障和传入信号功能不断适应以应对这些动态变化。目前的证据表明，膀胱黏膜拥有介导膀胱充盈信号传导的重要通路和受体。细胞内钙离子增加是该信号传导过程中的一个主导因素。然而，对于相互作用的受体和通路如何产生膀胱充盈信号仍未完全理解。目前，仍有新的受体在研究中，它们也可能参与膀胱充盈信号传导。

结论

正常的膀胱充盈感觉依赖于多种相互作用的机械感受器和信号通路。研究工作需要聚焦于这些通路和受体如何相互作用，以充分理解正常的膀胱充盈信号传导。

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尿路上皮的新进展：膀胱黏膜如何感知膀胱充盈。

Urothelium update: how the bladder mucosa measures bladder filling.

作者信息

机构信息

出版信息

AIM

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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