慢性周期性膀胱过度扩张上调缺氧依赖途径。
Chronic cyclic bladder over distention up-regulates hypoxia dependent pathways.
机构信息
Division of Pediatric Urology, Monroe Carell Jr. Children's Hospital at Vanderbilt, Nashville, Tennessee.
出版信息
J Urol. 2013 Oct;190(4 Suppl):1603-9. doi: 10.1016/j.juro.2013.02.026. Epub 2013 Feb 19.
PURPOSE
Bladder over distention secondary to anatomical or functional obstruction can eventually lead to pathological changes, including decreased elasticity and contractile dysfunction. We hypothesized that chronic bladder distention in a murine model would activate hypoxia dependent signaling pathways despite intermittent relief of distention.
MATERIALS AND METHODS
Female C57Bl/6 mice were oophorectomized at age 5 to 6 weeks and underwent urethral catheterization and 90-minute bladder distention. Acute and chronic time points were evaluated. Bladder tissue was harvested for hematoxylin and eosin, and immunohistochemical staining with the hypoxia markers Glut-1 (EMD Millipore, Merck, Darmstadt, Germany) and Hypoxyprobe™-1. Bladder tissue was also harvested for real-time polymerase chain reaction and oxidative stress measurement. Hypoxia polymerase chain reaction arrays were done to determine changes in gene expression. Oxidative stress was measured using F2-IsoP. Functional bladder changes were evaluated using voided urine blots.
RESULTS
After acute distention and 5 consecutive distentions, bladders showed marked inflammatory changes on hematoxylin and eosin staining, and evidence of tissue hypoxia on immunohistochemistry. Quantitative real-time polymerase chain reaction revealed up-regulation of hypoxia and oxidative stress related genes, including Hif1a, Arnt2, Ctgf, Gpx1 and Hmox1. Measurements of oxidative stress with F2-IsoP did not change. Voided urine blots before and after bladder distention showed marked changes with an overactive voiding pattern.
CONCLUSIONS
Chronic bladder distention is possible in the female mouse. It generates hypoxic injury, as characterized functionally by increased voiding patterns. This bladder injury model might more closely replicate bladder dysfunction in patients with poor bladder emptying due to neurological disease, including those noncompliant with intermittent catheterization.
目的
由于解剖或功能阻塞导致的膀胱过度扩张最终会导致病理变化,包括弹性降低和收缩功能障碍。我们假设,在鼠模型中,尽管间歇性解除扩张,但慢性膀胱扩张仍会激活缺氧依赖信号通路。
材料和方法
5 至 6 周龄的雌性 C57Bl/6 小鼠接受卵巢切除术,并进行尿道导管插入术和 90 分钟的膀胱扩张。评估急性和慢性时间点。采集膀胱组织进行苏木精和伊红染色以及缺氧标志物 Glut-1(EMD Millipore,Merck,Darmstadt,德国)和 Hypoxyprobe-1 的免疫组织化学染色。还采集膀胱组织进行实时聚合酶链反应和氧化应激测量。进行缺氧聚合酶链反应阵列以确定基因表达的变化。使用 F2-IsoP 测量氧化应激。使用排空尿液印迹评估功能性膀胱变化。
结果
在急性扩张和连续 5 次扩张后,膀胱组织的苏木精和伊红染色显示出明显的炎症变化,免疫组织化学显示出组织缺氧的证据。实时聚合酶链反应显示缺氧和氧化应激相关基因的上调,包括 Hif1a、Arnt2、Ctgf、Gpx1 和 Hmox1。使用 F2-IsoP 测量的氧化应激没有变化。在膀胱扩张前后的排空尿液印迹显示出明显的变化,具有过度活跃的排空模式。
结论
在雌性小鼠中可以进行慢性膀胱扩张。它会产生缺氧损伤,功能上表现为排尿模式增加。这种膀胱损伤模型可能更能模拟因神经疾病导致排空不良的患者的膀胱功能障碍,包括那些不遵守间歇性导尿的患者。
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