低肾单位数 GDNF+/- 小鼠高盐饮食的心血管和肾脏效应。

Cardiovascular and renal effects of high salt diet in GDNF+/- mice with low nephron number.

机构信息

Department of Pathology, IZKF Nachwuchsgruppe, Department of Nephrology and Hypertension, Department of Pediatrics, University of Erlangen-Nürnberg, Germany.

出版信息

Kidney Blood Press Res. 2013;37(4-5):379-91. doi: 10.1159/000355716. Epub 2013 Sep 27.

DOI:10.1159/000355716

PMID:24247178

Abstract

AIMS

To test the suggested association of low nephron number and later development of renal and cardiovascular disease we investigated the effects of high sodium diet in heterozygous GDNF+/- mice.

METHODS

Aged wild type and GDNF+/- mice were grouped together according to high sodium (HS, 4%) or low sodium (LS, 0.03%) diet for 4 weeks. The heart, the aorta and the kidneys were processed for morphometric and stereological evaluations and TaqMan PCR.

RESULTS

On HS GDNF+/- mice showed significantly higher drinking volume and urine production than wt and mean arterial blood pressure tended to be higher. Heart weight was higher in GDNF+/- than in wt, but the difference was only significant for LS. HS significantly increased cardiac interstitial tissue in GDNF+/-, but not in wt. On LS GDNF+/- mice had significantly larger glomeruli than wt and HS led to an additional two fold increase of glomerular area compared to LS. On electron microscopy glomerular damage after HS was seen in GDNF+/-, but not in wt. Dietary salt intake modulated renal IL-10 gene expression in GDNF+/-.

CONCLUSION

In the setting of 30% lower nephron number HS diet favoured maladaptive changes of the kidney as well as of the cardiovascular system.

摘要

目的

为了验证低肾单位数与肾脏和心血管疾病后期发展之间的关联，我们研究了高盐饮食对杂合型 GDNF+/- 小鼠的影响。

方法

将老年野生型和 GDNF+/- 小鼠根据高盐（HS，4%）或低盐（LS，0.03%）饮食分组，共 4 周。对心脏、主动脉和肾脏进行形态计量和体视学评估以及 TaqMan PCR。

结果

在 HS 饮食中，GDNF+/- 小鼠的饮水量和尿量明显高于 wt 组，平均动脉血压也有升高的趋势。GDNF+/- 组的心脏重量高于 wt 组，但仅在 LS 组有显著差异。HS 饮食显著增加了 GDNF+/- 组的心脏间质组织，但在 wt 组没有增加。在 LS 饮食中，GDNF+/- 小鼠的肾小球比 wt 组大，而 HS 饮食导致肾小球面积比 LS 饮食增加了两倍。在电镜下，HS 饮食后 GDNF+/- 组的肾小球出现损伤，但 wt 组没有。盐摄入量调节 GDNF+/- 小鼠的肾脏白细胞介素 10 基因表达。

结论

在肾单位数减少 30%的情况下，HS 饮食促进了肾脏和心血管系统的适应性变化。

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低肾单位数 GDNF+/- 小鼠高盐饮食的心血管和肾脏效应。

Cardiovascular and renal effects of high salt diet in GDNF+/- mice with low nephron number.

机构信息

出版信息

AIMS

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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