肠特异性 TRPM6 基因敲除 C57BL/6 J 小鼠的特征:短期奥美拉唑治疗的影响

Anastasia Adella, Lisanne M. M. Gommers, Caro Bos, Pieter A. Leermakers, Jeroen H. F. de Baaij, Joost G. J. Hoenderop
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引用次数: 0

摘要

瞬时受体电位美司他丁 6 型(TRPM6)是一种二价阳离子通道,对维持 Mg2+ 平衡至关重要。Mg2+ 平衡紊乱与长期使用奥美拉唑等质子泵抑制剂(PPI)有关。在本研究中,我们利用肠特异性 TRPM6 基因敲除(Vill1-TRPM6-/-)小鼠研究了 TRPM6 是否在介导短期(4 天)奥美拉唑治疗对肠道 Mg2+ 吸收不良的影响中发挥作用。为此,研究人员对48只成年雄性C57BL/6 J小鼠(50% TRPM6fl/fl和50% Vill1-TRPM6-/-)进行了特征描述,并对这些小鼠的远端结肠进行了RNA测序。此外,这些小鼠暴露于 20 毫克/千克体重的奥美拉唑或安慰剂 4 天。与对照组TRPM6fl/fl小鼠相比,Vill1-TRPM6-/-小鼠的25Mg2+吸收率明显降低,同时血清中的Mg2+水平和尿液中的Mg2+排泄量也较低。此外,这些动物的肾脏Slc41a3、Trpm6和Trpm7基因表达量较高,这表明存在通过肾脏进行代偿的机制。远端结肠的 RNA 测序显示,Mn2+ 转运体 Slc30a10 的表达下调。然而,血清、尿液和粪便中的 Mn2+ 水平没有发生变化。此外,4 天的奥美拉唑治疗并未影响 Mg2+ 的平衡,因为血清 25Mg2+ 和总 Mg2+ 均未发生变化。总之,我们在此首次证明了 Vill1-TRPM6-/- 小鼠肠道对 Mg2+ 的吸收率较低。此外,短期奥美拉唑治疗不会改变 Vill1-TRPM6-/- 和 TRPM6fl/fl 小鼠对 Mg2+ 的吸收。这表明肠道中 TRPM6 介导的 Mg2+ 吸收不受短期服用 PPI 的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Characterization of intestine-specific TRPM6 knockout C57BL/6 J mice: effects of short-term omeprazole treatment

Characterization of intestine-specific TRPM6 knockout C57BL/6 J mice: effects of short-term omeprazole treatment

The transient receptor potential melastatin type 6 (TRPM6) is a divalent cation channel pivotal for gatekeeping Mg2+ balance. Disturbance in Mg2+ balance has been associated with the chronic use of proton pump inhibitors (PPIs) such as omeprazole. In this study, we investigated if TRPM6 plays a role in mediating the effects of short-term (4 days) omeprazole treatment on intestinal Mg2+ malabsorption using intestine-specific TRPM6 knockout (Vill1-TRPM6−/−) mice. To do this, forty-eight adult male C57BL/6 J mice (50% TRPM6fl/fl and 50% Vill1-TRPM6−/−) were characterized, and the distal colon of these mice was subjected to RNA sequencing. Moreover, these mice were exposed to 20 mg/kg bodyweight omeprazole or placebo for 4 days. Vill1-TRPM6−/− mice had a significantly lower 25Mg2+ absorption compared to control TRPM6fl/fl mice, accompanied by lower Mg2+ serum levels, and urinary Mg2+ excretion. Furthermore, renal Slc41a3, Trpm6, and Trpm7 gene expressions were higher in these animals, indicating a compensatory mechanism via the kidney. RNA sequencing of the distal colon revealed a downregulation of the Mn2+ transporter Slc30a10. However, no changes in Mn2+ serum, urine, and feces levels were observed. Moreover, 4 days omeprazole treatment did not affect Mg2+ homeostasis as no changes in serum 25Mg2+ and total Mg2+ were seen. In conclusion, we demonstrate here for the first time that Vill1-TRPM6−/− mice have a lower Mg2+ absorption in the intestines. Moreover, short-term omeprazole treatment does not alter Mg2+ absorption in both Vill1-TRPM6−/− and TRPM6fl/fl mice. This suggests that TRPM6-mediated Mg2+ absorption in the intestines is not affected by short-term PPI administration.

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