我们需要关注哪些分子靶点来改善下尿路功能障碍？ICI-RS 2017。

Which molecular targets do we need to focus on to improve lower urinary tract dysfunction? ICI-RS 2017.

机构信息

Institute for Regenerative Medicine, Wake Forest University School of Medicine, Winston Salem NC, and Institute of Clinical Medicine, Aarhus University, Aarhus, Denmark.

Department of Uro-Neurology, The National Hospital for Neurology and Neurosurgery and UCL Institute of Neurology, London, United Kingdom.

出版信息

Neurourol Urodyn. 2018 Jun;37(S4):S117-S126. doi: 10.1002/nau.23516.

DOI:10.1002/nau.23516

PMID:30133792

Abstract

AIMS

Update on some molecular targets for new drugs to improve lower urinary tract (LUT) dysfunction.

METHODS

Using PubMed, a search for literature on molecular targets in the LUT was performed to identify relevant clinical and animal studies. Keywords were entered as Medical Subject Headings (MeSH) or as text words. The Mesh terms were used in various combinations and usually included the terms lower urinary AND pharmacology. Other Mesh term included: bladder, urethra, CNS, physiology, afferent activity, ATP, prostanoids, cannabinoids, fibrosis. Search results were assessed for their overall relevance to this review.

RESULTS

In a normal bladder, ATP contributes little to detrusor contraction, but in a diseased bladder ATP may contribute to OAB. Selective decrease of ATP release via adenosine A1 receptor stimulation offers a potential treatment possibility. Candidates for relaxation of the smooth muscle of the urethra can be found among, for example, the receptor subtypes of PGE , and PGD . Drugs for relaxation of the striated sphincter can target the muscle directly or the spinal sphincter control. Fibrosis is a major problem in LUT dysfunction and agents with an inhibitory effect on the TGFβ pathway, for example relaxin and BMP7, may be promising avenues. Available drugs with a CNS site of action are often limited by low efficacy or adverse effects. Inhibitors of the glycine receptor Gly-T2 or antagonists of the adenosine A2 receptor may be new alternatives.

CONCLUSION

New molecular targets for drugs aiming at improvement of voiding function can be identified, but their translational impact remains to be established.

摘要

目的

更新一些用于改善下尿路（LUT）功能障碍的新药的分子靶点。

方法

使用 PubMed，对 LUT 中的分子靶点进行文献检索，以确定相关的临床和动物研究。关键词作为医学主题词（MeSH）或文本词输入。Mesh 术语以各种组合使用，通常包括下尿路和药理学术语。其他 Mesh 术语包括：膀胱、尿道、中枢神经系统、生理学、传入活动、ATP、前列腺素、大麻素、纤维化。评估搜索结果与本综述的整体相关性。

结果

在正常膀胱中，ATP 对逼尿肌收缩的贡献很小，但在患病膀胱中，ATP 可能有助于 OAB。通过刺激腺苷 A1 受体选择性减少 ATP 释放为潜在的治疗提供了可能。例如，PGE 和 PGD 的受体亚型可以作为尿道平滑肌松弛的候选药物。用于放松横纹肌的药物可以直接针对肌肉或脊髓括约肌控制。纤维化是 LUT 功能障碍的一个主要问题，具有抑制 TGFβ 途径作用的药物，例如松弛素和 BMP7，可能是有前途的途径。具有中枢作用的现有药物通常因疗效低或不良反应而受到限制。甘氨酸受体 Gly-T2 的抑制剂或腺苷 A2 受体拮抗剂可能是新的选择。

结论

可以确定旨在改善排尿功能的药物的新分子靶点，但它们的转化影响仍有待确定。

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我们需要关注哪些分子靶点来改善下尿路功能障碍？ICI-RS 2017。

Which molecular targets do we need to focus on to improve lower urinary tract dysfunction? ICI-RS 2017.

机构信息

出版信息

AIMS

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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