Abstract
This study is aimed at investigating the molecular expression of voltage‐gated potassium (KCNQ) channels in urinary bladder smooth muscle (UBSM) and to reveal their functional role in regulating the contractility of this tissue. Using native, freshly‐isolated human UBSM single cells and whole UBSM tissue, we examined the mRNA and protein expression for all KCNQ channel subtypes and elucidated their functional role in human UBSM contractility using RT‐PCR, western blot, and isometric UBSM tension recordings of isolated human UBSM strips. Human UBSM tissues were collected from open bladder surgeries and represent patients without preoperative symptoms of overactive bladder. Expression of KCNQ channel subtypes were identified at both the mRNA and protein levels in human UBSM. Functional studies revealed that spontaneous phasic contractility was significantly increased by the KCNQ channel inhibitor, XE991. On the contrary, the KCNQ channel activators retigabine, L‐364,373 (R‐L3), and ICA‐069673 attenuated UBSM spontaneous phasic contractions. This study demonstrates the novel findings that KCNQ channels are functionally expressed in human UBSM, whereby they serve an important functional role in regulating the spontaneous contractility of this tissue.Grant Funding Source: Supported by NIH R01 DK084284 to Georgi V. Petkov
Published Version
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