瞬时受体潜在的美拉他汀6基因敲除小鼠是致命的，而杂合缺失导致轻度低镁血症。

Nephron Physiology Pub Date : 2011-01-01 Epub Date: 2010-09-01 DOI:10.1159/000320580

Titia E Woudenberg-Vrenken, Arjaree Sukinta, Annemiete W van der Kemp, René J M Bindels, Joost G J Hoenderop

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引用次数: 73

摘要

背景:低镁血症伴继发性低钙血症是由于肾脏和肠道镁(Mg(2+)) (re)吸收紊乱所致。潜在的缺陷是瞬时受体6型美拉他汀电位(TRPM6)的突变，这是一种在肾脏和肠道中表达的Mg(2+)渗透性离子通道。我们的目的是表征纯合子(-/-)和杂合子(+/-)TRPM6敲除小鼠对Mg(2+)稳态的影响。方法:TRPM6(+/-)小鼠分别饲喂正常(0.19% wt/wt Mg(2+))和高(0.48% wt/wt Mg(2+)) Mg(2+)日粮。测定后代24小时尿Mg(2+)和钙排泄量以及两者的血清浓度。测定肾脏和结肠组织中TRPM6 mRNA的表达。结果:在正常饮食条件下，30%的后代为TRPM6野生型(+/+)，70%为TRPM6(+/-)，没有TRPM6(-/-)。在0.48% Mg(2+)饲粮中，雏鸡的基因型分布保持不变。在两种饮食中，TRPM6(+/-)小鼠血清Mg(2+)水平显著降低，肾脏和肠道TRPM6 mRNA表达降低。尿Mg(2+)排泄未受影响。结论:纯合子TRPM6缺失对小鼠具有胚胎致死性。TRPM6的杂合缺失导致轻度低镁血症。富Mg(2+)饲料不能补偿TRPM6缺乏引起的胚胎致死或低镁血症。

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Transient receptor potential melastatin 6 knockout mice are lethal whereas heterozygous deletion results in mild hypomagnesemia.

Background: Hypomagnesemia with secondary hypocalcemia is due to disturbed renal and intestinal magnesium (Mg(2+)) (re)absorption. The underlying defect is a mutation in the transient receptor potential melastatin type 6 (TRPM6), a Mg(2+)-permeable ion channel expressed in the kidney and intestine. Our aim was to characterize homozygous (-/-) and heterozygous (+/-) TRPM6 knockout mice with respect to Mg(2+) homeostasis.

Methods: TRPM6(+/-) mice were bred on a normal (0.19% wt/wt Mg(2+)) and high (0.48% wt/wt Mg(2+)) Mg(2+) diet. In the offspring, 24-hour urinary Mg(2+) and calcium excretion as well as serum concentrations of both were determined. TRPM6 mRNA expression in the kidney and colon was measured.

Results: On the regular diet, 30% of the offspring were TRPM6 wild-type ((+/+)), 70% were TRPM6(+/-), and none were TRPM6(-/-). The genotypic distribution of the litters remained the same on the 0.48% Mg(2+) diet. In TRPM6(+/-) mice on both diets, serum Mg(2+) levels were significantly lower, and renal and intestinal TRPM6 mRNA expression was reduced. Urinary Mg(2+) excretion was unaffected.

Conclusions: Homozygous TRPM6 deletion is embryonic lethal in mice. Heterozygous deletion of TRPM6 results in a mild hypomagnesemia. The Mg(2+)-enriched diet could not compensate for either embryonic lethality or hypomagnesemia caused by TRPM6 deficiency.

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来源期刊

Nephron Physiology 医学-泌尿学与肾脏学

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>12 weeks