Formation of Double Stranded RNA Provokes Smooth Muscle Contractions and Structural Modifications in Bladder Ischemia.

IF 4.7 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2022-11-16 eCollection Date: 2022-01-01 DOI:10.2147/RRU.S388464

Jing-Hua Yang, Zuohui Zhao, Wanting Niu, Han-Pil Choi, Kazem M Azadzoi

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Abstract

Purpose: Growing evidence suggests that ischemia provokes detrusor overactivity and degenerative responses in the bladder. Underlying mechanisms appear to involve modification of smooth muscle contractile rudiments by hypoxia, redox, cellular stress and cell survival signaling. Downstream pathways of cellular stress and stress response molecules eliciting bladder dysfunction in ischemia remain largely elusive. Our goal was to define the role of double stranded RNA (dsRNA), a stress response molecule provoked by redox, in ischemia mediated bladder dysfunction.

Methods: A rat model of pelvic ischemia along with a cell culture hypoxia model were used to investigate the expression levels, functional consequences, structural aspects, and regulatory mechanisms of dsRNA in the bladder. Gene and protein expression were examined by reverse transcription polymerase chain reaction (RT-PCR), dot blot, and Western blotting, respectively. Tissue structure and function were assessed using histological staining and organ bath. Regulatory mechanisms were analyzed in cultured bladder smooth muscle cells.

Results: The data presented here provide the first evidence of the formation of dsRNA in the overactive bladder. dsRNA is a cellular stress response molecule that sensitizes smooth muscle and regulates inflammatory and degenerative rejoinders. Our data suggest that the production of dsRNA in the bladder is provoked by ischemia. Formation of dsRNA appears to augment bladder smooth muscle contractions and provoke fibrotic and apoptotic responses. Downstream actions of dsRNA in the bladder may involve upregulation of dsRNA-activated protein kinase R (PKR) and caspase-3, the executioner of apoptosis.

Conclusion: Activation of dsRNA/PKR pathway may play a role in sensitization of bladder smooth muscle cells to contractile stimuli, whereas dsRNA and caspase-3 crosstalk appear to modulate cellular stress and instigate degenerative responses in bladder ischemia. These observations suggest the role of dsRNA in bladder dysfunction and may open new perspectives to overcome overactive smooth muscle contractions and structural damage in the bladder.

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双链 RNA 的形成促使膀胱缺血时平滑肌收缩和结构改变

目的：越来越多的证据表明，缺血会引起膀胱中的逼尿肌过度活动和退行性反应。其基本机制似乎涉及缺氧、氧化还原、细胞应激和细胞存活信号对平滑肌收缩原的改变。缺血时细胞应激和应激反应分子引起膀胱功能障碍的下游途径在很大程度上仍然难以捉摸。我们的目标是确定由氧化还原引发的应激反应分子双链 RNA（dsRNA）在缺血介导的膀胱功能障碍中的作用：方法：利用大鼠盆腔缺血模型和细胞培养缺氧模型来研究膀胱中 dsRNA 的表达水平、功能后果、结构方面和调控机制。基因和蛋白质表达分别通过反转录聚合酶链反应（RT-PCR）、点印迹和 Western 印迹法进行检测。组织结构和功能通过组织学染色和器官浴进行评估。在培养的膀胱平滑肌细胞中分析了调控机制：dsRNA是一种细胞应激反应分子，能使平滑肌敏感并调节炎症和退行性反应。我们的数据表明，膀胱中dsRNA的产生是由缺血引起的。dsRNA的形成似乎会增强膀胱平滑肌的收缩，并引发纤维化和细胞凋亡反应。dsRNA在膀胱中的下游作用可能包括上调dsRNA激活的蛋白激酶R（PKR）和细胞凋亡的执行者caspase-3：结论：dsRNA/PKR途径的激活可能在膀胱平滑肌细胞对收缩刺激的敏感性中发挥作用，而dsRNA和caspase-3的串扰似乎能调节细胞应激，并在膀胱缺血时引发退行性反应。这些观察结果表明了 dsRNA 在膀胱功能障碍中的作用，并为克服膀胱平滑肌过度活跃收缩和结构损伤开辟了新的前景。

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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464

期刊介绍： ACS Applied Bio Materials is an interdisciplinary journal publishing original research covering all aspects of biomaterials and biointerfaces including and beyond the traditional biosensing, biomedical and therapeutic applications. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrates knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important bio applications. The journal is specifically interested in work that addresses the relationship between structure and function and assesses the stability and degradation of materials under relevant environmental and biological conditions.