生长小鼠肾脏电解质排泄动力学。

Nephron Physiology Pub Date : 2013-01-01 Epub Date: 2013-11-26 DOI:10.1159/000356816
Katharina Schmidt, Maria Ripper, Ines Tegtmeier, Evelyn Humberg, Christina Sterner, Markus Reichold, Richard Warth, Sascha Bandulik
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引用次数: 3

摘要

转基因小鼠是阐明肾脏病理生理的重要模型,但基因缺失经常导致严重的失败。在这种情况下,对表型的分析通常仅限于生命的最初几周,此时肾脏排泄功能经历了剧烈的生理变化。在这里,我们研究了小鼠出生后尿离子排泄的动力学。使用自动离子色谱系统检测小鼠从出生到断奶后的尿电解质排泄情况。出生后,小鼠的生长速度约为0.4 g/天,但体重增加较慢的两个阶段除外:(i)出生后直接适应子宫外环境(P0-P2)和(ii)断奶期间(P15-P21),营养从母乳转变为固体食物和水。在出生后的前3天,尿中Na(+)、Ca(2+)、Mg(2+)和磷酸盐浓度发生了显著变化,而K(+)和Cl(-)浓度几乎没有变化。从出生后4-14天,Na(+)、Ca(2+)、Mg(2+)、K(+)和Cl(-)浓度保持相对稳定的低水平。尿肌酐、NH4(+)、磷酸盐和硫酸盐浓度从出生到断奶后不断升高。KCNJ10(-/-)小鼠的盐排泄谱证明了尿排泄年龄依赖性分析的相关性。总之,在出生后的最初几周,分析肾脏离子排泄最关键的阶段是刚出生和断奶期间。尿排泄的年龄依赖性因不同的离子而异。在生命最初几周内研究小鼠肾脏表型时,应考虑到这一点。
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Dynamics of renal electrolyte excretion in growing mice.

Genetically modified mice represent important models for elucidating renal pathophysiology, but gene deletions frequently cause severe failure to thrive. In such cases, the analysis of the phenotype is often limited to the first weeks of life when renal excretory function undergoes dramatic physiological changes. Here, we investigated the postnatal dynamics of urinary ion excretion in mice. The profiles of urinary electrolyte excretion of mice were examined from birth until after weaning using an automated ion chromatography system. Postnatally, mice grew about 0.4 g/day, except during two phases with slower weight gain: (i) directly after birth during adaptation to extrauterine conditions (P0-P2) and (ii) during the weaning period (P15-P21), when nutrition changed from mother's milk to solid chow and water. During the first 3 days after birth, remarkable changes in urinary Na(+), Ca(2+), Mg(2+), and phosphate concentrations occurred, whereas K(+) and Cl(-) concentrations hardly changed. From days 4-14 after birth, Na(+), Ca(2+), Mg(2+), K(+), and Cl(-) concentrations remained relatively stable at low levels. Urinary concentrations of creatinine, NH4(+), phosphate, and sulfate constantly increased from birth until after weaning. Profiles of salt excretion in KCNJ10(-/-) mice exemplified the relevance of age-dependent analysis of urinary excretion. In conclusion, the most critical phases for analysis of renal ion excretion during the first weeks of life are directly after birth and during the weaning period. The age dependence of urinary excretion varies for the different ions. This should be taken into consideration when the renal phenotype of mice is investigated during the first weeks of life.

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来源期刊
Nephron Physiology
Nephron Physiology 医学-泌尿学与肾脏学
自引率
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0
审稿时长
>12 weeks
期刊最新文献
Contents Vol. 128, 2014 Contents Vol. 26, 2014 Front & Back Matter Front & Back Matter Contents Vol. 124, 2013
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