Division of Matrix Biology, Beth Israel Deaconess Medical Center, Boston, MA 02215, USA.
FASEB J. 2013 May;27(5):1950-61. doi: 10.1096/fj.12-223404. Epub 2013 Feb 8.
Bladder urothelium senses and communicates information about bladder fullness. However, the mechanoreceptors that respond to tissue stretch are poorly defined. Integrins are mechanotransducers in other tissues. Therefore, we eliminated β1-integrin selectively in urothelium of mice using Cre-LoxP targeted gene deletion. β1-Integrin localized to basal/intermediate urothelial cells by confocal microscopy. β1-Integrin conditional-knockout (β1-cKO) mice lacking urothelial β1-integrin exhibited down-regulation and mislocalization of α3- and α5-integrins by immunohistochemistry but, surprisingly, had normal morphology, permeability, and transepithelial resistance when compared with Cre-negative littermate controls. β1-cKO mice were incontinent, as judged by random urine leakage on filter paper (4-fold higher spotting, P<0.01; 2.5-fold higher urine area percentage, P<0.05). Urodynamic function assessed by cystometry revealed bladder overfilling with 80% longer intercontractile intervals (P<0.05) and detrusor hyperactivity (3-fold more prevoid contractions, P<0.05), but smooth muscle contractility remained intact. ATP secretion into the lumen was elevated (49 vs. 22 nM, P<0.05), indicating abnormal filling-induced purinergic signaling, and short-circuit currents (measured in Ussing chambers) revealed 2-fold higher stretch-activated ion channel conductances in response to hydrostatic pressure of 1 cmH2O (P<0.05). We conclude that loss of integrin signaling from urothelium results in incontinence and overactive bladder due to abnormal mechanotransduction; more broadly, our findings indicate that urothelium itself directly modulates voiding.
膀胱尿路上皮感知并传递关于膀胱充盈的信息。然而,对组织拉伸起反应的机械感受器尚未明确。整合素是其他组织中的机械转导物。因此,我们使用 Cre-LoxP 靶向基因缺失,在小鼠的尿路上皮中选择性地消除了β1 整合素。共聚焦显微镜显示,β1 整合素定位于基底/中间尿路上皮细胞。β1 整合素条件敲除(β1-cKO)小鼠缺乏尿路上皮β1 整合素,免疫组织化学显示α3 和α5 整合素表达下调和定位错误,但令人惊讶的是,与 Cre 阴性同窝对照相比,其形态、通透性和跨上皮电阻正常。β1-cKO 小鼠失禁,滤纸随机尿漏判断(斑点高出 4 倍,P<0.01;尿液面积百分比高出 2.5 倍,P<0.05)。膀胱测压评估的尿动力学功能显示膀胱过度充盈,收缩间期延长 80%(P<0.05)和逼尿肌过度活动(预排空收缩增加 3 倍,P<0.05),但平滑肌收缩力保持完整。腔内 ATP 分泌增加(49 比 22 nM,P<0.05),表明异常充盈诱导的嘌呤能信号,短电流(在 Ussing 室中测量)显示对 1 cmH2O 静水压力的伸展激活离子通道电导增加 2 倍(P<0.05)。我们得出结论,尿路上皮整合素信号的丧失导致尿失禁和膀胱过度活动,原因是异常的机械转导;更广泛地说,我们的发现表明尿路上皮本身直接调节排尿。