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缺乏所有一氧化氮合酶亚型的小鼠中的肾性尿崩症。

Nephrogenic diabetes insipidus in mice lacking all nitric oxide synthase isoforms.

作者信息

Morishita Tsuyoshi, Tsutsui Masato, Shimokawa Hiroaki, Sabanai Ken, Tasaki Hiromi, Suda Osamu, Nakata Sei, Tanimoto Akihide, Wang Ke-Yong, Ueta Yoichi, Sasaguri Yasuyuki, Nakashima Yasuhide, Yanagihara Nobuyuki

机构信息

Second Department of Internal Medicine, University of Occupational and Environmental Health, 1-1 Iseigaoka, Yahatanishi-ku, Kitakyushu 807-8555, Japan.

出版信息

Proc Natl Acad Sci U S A. 2005 Jul 26;102(30):10616-21. doi: 10.1073/pnas.0502236102. Epub 2005 Jul 15.

DOI:10.1073/pnas.0502236102
PMID:16024729
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1175830/
Abstract

Nitric oxide (NO) is produced in almost all tissues and organs, exerting a variety of biological actions under physiological and pathological conditions. NO is synthesized by three different isoforms of NO synthase (NOS), including neuronal, inducible, and endothelial NOSs. Because there are substantial compensatory interactions among the NOS isoforms, the ultimate roles of endogenous NO in our body still remain to be fully elucidated. Here, we have successfully developed mice in which all three NOS genes are completely deleted by crossbreeding singly NOS-/- mice. NOS expression and activities were totally absent in the triply NOS-/- mice before and after treatment with lipopolysaccharide. Although the triply NOS-/- mice were viable and appeared normal, their survival and fertility rates were markedly reduced as compared with the wild-type mice. Furthermore, these mice exhibited marked hypotonic polyuria, polydipsia, and renal unresponsiveness to an antidiuretic hormone, vasopressin, all of which are characteristics consistent with nephrogenic diabetes insipidus. In the kidney of the triply NOS-/- mice, vasopressin-induced cAMP production and membranous aquaporin-2 water channel expression were reduced associated with tubuloglomerular lesion formation. These results provide evidence that the NOS system plays a critical role in maintaining homeostasis, especially in the kidney.

摘要

一氧化氮(NO)几乎在所有组织和器官中产生,在生理和病理条件下发挥多种生物学作用。NO由三种不同的一氧化氮合酶(NOS)同工型合成,包括神经元型、诱导型和内皮型NOS。由于NOS同工型之间存在大量的代偿性相互作用,内源性NO在我们体内的最终作用仍有待充分阐明。在这里,我们通过将单个NOS-/-小鼠进行杂交,成功培育出了所有三种NOS基因均被完全敲除的小鼠。在用脂多糖处理前后,三重NOS-/-小鼠中均完全不存在NOS表达和活性。尽管三重NOS-/-小鼠能够存活且外观正常,但与野生型小鼠相比,它们的存活率和繁殖率显著降低。此外,这些小鼠表现出明显的低渗性多尿、多饮以及肾脏对抗利尿激素血管加压素无反应,所有这些特征均与肾性尿崩症一致。在三重NOS-/-小鼠的肾脏中,血管加压素诱导的cAMP产生以及膜性水通道蛋白-2水通道表达减少,并伴有肾小管-肾小球病变形成。这些结果证明NOS系统在维持体内平衡,尤其是在肾脏中,起着关键作用。

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