4.5 Article

Optogenetic urothelial cell stimulation induces bladder contractions and pelvic nerve afferent firing

期刊

AMERICAN JOURNAL OF PHYSIOLOGY-RENAL PHYSIOLOGY
卷 325, 期 2, 页码 F150-F163

出版社

AMER PHYSIOLOGICAL SOC
DOI: 10.1152/ajprenal.00035.2023

关键词

bladder; purinergic signaling; sensory neurons; urothelium

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Urothelial cells play an important role in both barrier function and sensory function in the bladder. A mouse model using optogenetics was developed to directly stimulate urothelial cells and study their communication with sensory neurons.
Urothelial cells, which play an essential role in barrier function, are also thought to play a sensory role in bladder physiology by releasing signaling molecules in response to sensory stimuli that act upon adjacent sensory neurons. However, it is challenging to study this communication due to the overlap in receptor expression and proximity of urothelial cells to sensory neurons. To overcome this challenge, we developed a mouse model where we can directly stimulate urothelial cells using optogenetics. We crossed a uroplakin II (UPK2) cre mouse with a mouse that expresses the light-activated cation channel channelrhodopsin-2 (ChR2) in the presence of cre expression. Optogenetic stimulation of urothelial cells cultured from UPK2-ChR2 mice initiates cel-lular depolarization and release of ATP. Cystometry recordings demonstrated that optical stimulation of urothelial cells increases bladder pressure and pelvic nerve activity. Increases in bladder pressure persisted, albeit to a lesser extent, when the bladder was excised in an in vitro preparation. The P2X receptor antagonist PPADS significantly reduced optically evoked bladder con-tractions in vivo and ex vivo. Furthermore, corresponding nerve activity was also inhibited with PPADS. Our data suggest that urothelial cells can initiate robust bladder contractions via sensory nerve signaling or contractions through local signaling mecha-nisms. These data support a foundation of literature demonstrating communication between sensory neurons and urothelial cells. Importantly, with further use of these optogenetic tools, we hope to scrutinize this signaling mechanism, its importance for normal micturition and nociception, and how it may be altered in pathophysiological conditions.

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