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新型超氧化物增多突变小鼠模型的膀胱功能障碍——一氧化氮缺乏?

Bladder dysfunction in a new mutant mouse model with increased superoxide--lack of nitric oxide?

机构信息

Wake Forest Institute for Regenerative Medicine, Wake Forest University, Winston Salem, North Carolina, USA.

出版信息

J Urol. 2010 Feb;183(2):780-5. doi: 10.1016/j.juro.2009.09.074.

DOI:10.1016/j.juro.2009.09.074
PMID:20022053
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3772662/
Abstract

PURPOSE

Nitric oxide mediates urethral smooth muscle relaxation and may also be involved in detrusor activity control. Mice with mutation in the Immp2l gene have high superoxide ion levels and a consequent decrease in the bioavailable amount of nitric oxide. We studied bladder function in this mouse model.

MATERIAL AND METHODS

Young male mutants at ages 4 to 6 months, old female mutants at age 18 months and healthy WT age matched controls were used. The detrusor contractile response to carbachol and electrical field stimulation was tested in isolated detrusor strips in organ baths. In vivo bladder function was evaluated by cystometry in conscious animals.

RESULTS

Young male mutants had significantly lower micturition and higher post-void residual volume than WT controls. They had pronounced voiding difficulty and strained when initiating micturition. Detrusor contractile responses to carbachol and electrical field stimulation were similar in mutant and WT mice. Old female mutant mice had lower bladder capacity and micturition volume, and higher micturition frequency and bladder-to-body weight ratio than WT controls. In the in vitro study detrusor strips from mutants showed a lower maximum response to carbachol.

CONCLUSIONS

Mice with mutation in the Immp2l gene have bladder dysfunction, mainly characterized by emptying abnormalities in young males and increased detrusor activity in old females. Detrusor function was preserved in young males and impaired in old females. These animals are a natural model of oxidative stress with low bioavailable nitric oxide. Thus, they are interesting tools in which to evaluate the role of these conditions on bladder dysfunction.

摘要

目的

一氧化氮介导尿道平滑肌松弛,并且可能参与控制逼尿肌活动。Immp2l 基因突变的小鼠具有较高的超氧离子水平,导致生物可利用的一氧化氮量减少。我们在这种小鼠模型中研究了膀胱功能。

材料和方法

使用年龄在 4 至 6 个月的年轻雄性突变体、18 个月的老年雌性突变体和健康的 WT 年龄匹配对照。在器官浴中的分离的逼尿肌条中测试了毒蕈碱和电刺激引起的逼尿肌收缩反应。通过在清醒动物中进行膀胱测压评估体内膀胱功能。

结果

年轻雄性突变体的排尿量明显低于 WT 对照组,且残余尿量较高。它们在开始排尿时排尿困难,且排尿费力。毒蕈碱和电刺激引起的逼尿肌收缩反应在突变体和 WT 小鼠中相似。老年雌性突变体小鼠的膀胱容量和排尿量较低,排尿频率和膀胱体重比较高。在体外研究中,突变体的逼尿肌条对毒蕈碱的最大反应较低。

结论

Immp2l 基因突变的小鼠存在膀胱功能障碍,主要表现为年轻雄性排空异常和老年雌性逼尿肌活动增加。年轻雄性的逼尿肌功能正常,而老年雌性的逼尿肌功能受损。这些动物是具有低生物可利用一氧化氮的氧化应激的天然模型。因此,它们是评估这些条件对膀胱功能障碍影响的有趣工具。

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A mutation in the inner mitochondrial membrane peptidase 2-like gene (Immp2l) affects mitochondrial function and impairs fertility in mice.线粒体内膜肽酶2样基因(Immp2l)的突变会影响线粒体功能并损害小鼠的生育能力。
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