Schröder Annette, Newgreen Donald, Andersson Karl-Erik
Department of Clinical Pharmacology, Lund University Hospital, 221 85 Lund, Sweden.
J Urol. 2004 Sep;172(3):1166-70. doi: 10.1097/01.ju.0000134186.58854.2c.
Prostaglandins (PGs) are suggested to be involved in the pathophysiology of different bladder disorders and it has been demonstrated that cyclooxygenase-2 expression is increased as a consequence of bladder outflow obstruction. We investigated whether the PGE2 receptor EP1 is involved in the regulation of normal micturition, the response to intravesical PGE2 administration, and the development of bladder hypertrophy and overactivity due to bladder outlet obstruction (BOO).
Moderate BOO was created in EP1 receptor knockout (EP1KO) mice and their WT counterparts. After 1 week cystometry was performed in conscious animals before and after PGE2 instillation. Findings were compared to those in unobstructed control animals. Bladder wet weight was measured to document the degree of hypertrophy after BOO.
There was no difference between unobstructed EP1KO and WT mice in urodynamic parameters but EP1KO mice did not respond to intravesical PGE2 instillation, while WT mice showed detrusor overactivity. The lack of EP1 receptor did not prevent bladder hypertrophy due to BOO. After BOO WT mice had pronounced detrusor overactivity, while this was negligible in EP1KO mice.
The EP1 receptor appears not to be essential for normal micturition or the mediation of bladder hypertrophy due to BOO but it seems to have a role in the development of detrusor overactivity caused by PGE2 and outlet obstruction.
前列腺素(PGs)被认为参与了不同膀胱疾病的病理生理过程,并且已经证明环氧化酶-2的表达会因膀胱出口梗阻而增加。我们研究了前列腺素E2受体EP1是否参与正常排尿的调节、对膀胱内给予前列腺素E2的反应以及因膀胱出口梗阻(BOO)导致的膀胱肥大和膀胱过度活动症的发展。
在EP1受体基因敲除(EP1KO)小鼠及其野生型对照小鼠中制造中度BOO。1周后,在清醒动物中于膀胱内滴注前列腺素E2前后进行膀胱测压。将结果与未梗阻的对照动物的结果进行比较。测量膀胱湿重以记录BOO后的肥大程度。
未梗阻的EP1KO小鼠和野生型小鼠在尿动力学参数上没有差异,但EP1KO小鼠对膀胱内滴注前列腺素E2无反应,而野生型小鼠表现出逼尿肌过度活动。EP1受体的缺失并未阻止因BOO导致的膀胱肥大。BOO后,野生型小鼠有明显的逼尿肌过度活动,而在EP1KO小鼠中这种情况可忽略不计。
EP1受体似乎对于正常排尿或因BOO导致的膀胱肥大的介导并非必不可少,但它似乎在由前列腺素E2和出口梗阻引起的逼尿肌过度活动的发展中起作用。