酶诱导的缺氧导致体外尿路上皮细胞的炎症反应。

Enzyme-induced hypoxia leads to inflammation in urothelial cells in vitro.

机构信息

Department of Bioengineering, 301 Rhodes Engineering Research Center, Clemson University, Clemson, SC, 29634-0905, USA.

Department of Surgery, Division of Urology, Duke University Medical Center, Durham, NC, USA.

出版信息

Int Urol Nephrol. 2024 May;56(5):1565-1575. doi: 10.1007/s11255-023-03900-x. Epub 2023 Dec 22.

DOI:10.1007/s11255-023-03900-x

PMID:38133728

Abstract

PURPOSE

To determine the contributions of different durations of hypoxia to NLRP3 inflammasome activation in urothelial cells and how ischemic changes in bladder tissues is an important chemical que that leads to pathological changes seen in BOO.

METHODS

A rat urothelial cell line (MYP3) was exposed to either a short duration (2 h) or long duration (6 h) of enzyme-induced hypoxia. Following exposure to a short duration of hypoxia, NO and ATP concentrations were measured from supernatant media and caspase-1 levels were measured from cell lysates. In a separate experiment, cells were fixed following hypoxia exposure and immunostained for HIF-1α stabilization.

RESULTS

Although short exposure of low oxygen conditions resulted in a hypoxic response in MYP3 cells, as indicated by HIF-1α stabilization and increased NO activity, NLRP3 inflammasome activation was not observed as caspase-1 activity remained unchanged. However, exposure of MYP3 cells to a longer duration of hypoxia resulted in an increase in intracellular caspase-1 activity. Furthermore, treatment with antioxidant (GSH) or TXNIP inhibitor (verapamil) attenuated the hypoxia-induced increase in caspase-1 levels indicating that hypoxia primarily drives inflammation through a ROS-mediated TXNIP/NLRP3 pathway.

CONCLUSION

We conclude that hypoxia induced bladder damage requires a duration that is more likely related to elevated storage pressures/hypoxia, seen in later stages of BOO, as compared to shorter duration pressure elevation/hypoxia that is encountered in normal micturition cycles or early in the BOO pathology where storage pressures are still normal.

摘要

目的

确定不同时长缺氧对尿路上皮细胞中 NLRP3 炎性体激活的贡献，以及膀胱组织的缺血变化如何成为导致 BOO 中所见病理变化的重要化学触发因素。

方法

将大鼠尿路上皮细胞系（MYP3）暴露于短时长（2 小时）或长时长（6 小时）的酶诱导性缺氧中。在短时长缺氧暴露后，从上清液中测量 NO 和 ATP 浓度，并从细胞裂解物中测量 caspase-1 水平。在另一个实验中，在缺氧暴露后固定细胞并进行 HIF-1α稳定的免疫染色。

结果

尽管短时间暴露于低氧条件导致 MYP3 细胞出现缺氧反应，如 HIF-1α稳定和 NO 活性增加所示，但 NLRP3 炎性体激活并未观察到，因为 caspase-1 活性保持不变。然而，MYP3 细胞暴露于更长时长的缺氧会导致细胞内 caspase-1 活性增加。此外，抗氧化剂（GSH）或 TXNIP 抑制剂（维拉帕米）的处理减轻了缺氧诱导的 caspase-1 水平增加，表明缺氧主要通过 ROS 介导的 TXNIP/NLRP3 途径驱动炎症。

结论

我们得出结论，缺氧诱导的膀胱损伤需要更长的时间，这更可能与 BOO 后期所见的储存压力升高/缺氧有关，而不是在正常排尿周期或 BOO 病理早期遇到的较短时间的压力升高/缺氧，此时储存压力仍然正常。

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酶诱导的缺氧导致体外尿路上皮细胞的炎症反应。

Enzyme-induced hypoxia leads to inflammation in urothelial cells in vitro.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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