膀胱尿路上皮中 Piezo1 和 TRPV4 的昼夜表达与细胞内 Ca2+ 内流的振荡有关。

The oscillation of intracellular Ca influx associated with the circadian expression of Piezo1 and TRPV4 in the bladder urothelium.

机构信息

Department of Urology, Interdisciplinary Graduate School of Medicine, University of Yamanashi, Chuo, Yamanashi, Japan.

Department of Immunology, Interdisciplinary Graduate School of Medicine, University of Yamanashi, Chuo, Yamanashi, Japan.

出版信息

Sci Rep. 2018 Apr 9;8(1):5699. doi: 10.1038/s41598-018-23115-w.

DOI:10.1038/s41598-018-23115-w

PMID:29632308

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5890282/

Abstract

We previously showed that bladder functions are controlled by clock genes with circadian rhythm. The sensation of bladder fullness (SBF) is sensed by mechano-sensor such as Piezo1 and TRPV4 in the mouse bladder urothelium. However, functional circadian rhythms of such mechano-sensors remain unknown. To investigate functional circadian changes of these mechano-sensors, we measured circadian changes in stretch-evoked intracellular Ca influx ([Ca] ) using mouse primary cultured urothelial cells (MPCUCs). Using Ca imaging, stretch-evoked [Ca] was quantified every 4 h in MPCUCs derived from wild-type (WT) and Clock mice, which showed a nocturia phenotype. Furthermore, a Piezo1 inhibitor GsMTx4 and a TRPV4 inhibitor Ruthenium Red were applied and stretch-evoked [Ca] in MPCUCs was measured to investigate their contribution to SBF. Stretch-evoked [Ca] showed a circadian rhythm in the WT mice. In contrast, Clock mice showed disrupted circadian rhythm. The administration of both GsMTx4 and Ruthenium Red eliminated the circadian rhythm of stretch-evoked [Ca] in WT mice. We conclude that SBF may have a circadian rhythm, which is created by functional circadian changes of Piezo1 and TRPV4 being controlled by clock genes to be active during wakefulness and inactive during sleep. Abnormalities of clock genes disrupt SBF, and induce nocturia.

摘要

我们之前的研究表明，膀胱功能受生物钟基因的调控，具有昼夜节律。膀胱充盈感（SBF）是由小鼠膀胱尿路上皮中的机械感受器 Piezo1 和 TRPV4 等感觉的。然而，这些机械感受器的功能昼夜节律尚不清楚。为了研究这些机械感受器的功能昼夜变化，我们使用小鼠原代培养的尿路上皮细胞（MPCUCs）测量了拉伸诱发的细胞内 Ca 内流（[Ca]i）的昼夜变化。通过钙成像，我们每 4 小时在源自野生型（WT）和 Clock 小鼠的 MPCUCs 中量化拉伸诱发的 [Ca]i，Clock 小鼠表现出夜尿症表型。此外，我们还应用了 Piezo1 抑制剂 GsMTx4 和 TRPV4 抑制剂 Ruthenium Red，并测量了 MPCUCs 中拉伸诱发的 [Ca]i，以研究它们对 SBF 的贡献。在 WT 小鼠中，拉伸诱发的 [Ca]i 呈现昼夜节律。相比之下，Clock 小鼠的昼夜节律紊乱。在 WT 小鼠中，GsMTx4 和 Ruthenium Red 的联合应用消除了拉伸诱发的 [Ca]i 的昼夜节律。我们的结论是，SBF 可能具有昼夜节律，这是由Piezo1 和 TRPV4 的功能昼夜变化引起的，这些变化受生物钟基因的控制，在觉醒时活跃，在睡眠时不活跃。时钟基因的异常会破坏 SBF，并导致夜尿症。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/57b3/5890282/88688b30fba8/41598_2018_23115_Fig1_HTML.jpg

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膀胱尿路上皮中 Piezo1 和 TRPV4 的昼夜表达与细胞内 Ca2+ 内流的振荡有关。

The oscillation of intracellular Ca influx associated with the circadian expression of Piezo1 and TRPV4 in the bladder urothelium.

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