链脲佐菌素诱导的糖尿病小鼠远端肾钾处理能力受损。

Peng Wu, Shu-Ting Li, Ting-Ting Shu, Zi-Hui Mao, Wen-Jia Fu, Yuan-Yuan Yang, Shao-Kang Pan, Dong-Wei Liu, Zhang-Suo Liu, Zhong-Xiuzi Gao
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引用次数: 0

摘要

在疾病进展和治疗过程中,糖尿病与 K+ 紊乱密切相关。然而,肾功能正常的糖尿病患者是否会出现 K+ 失衡仍不清楚。在这项研究中,我们研究了膳食 K+ 摄入量对链脲佐菌素(STZ)诱导的糖尿病小鼠全身 K+ 平衡和肾脏 K+ 处理的影响。给对照组和 STZ 小鼠喂食低 K+或高 K+饮食 7 天,研究饮食 K+摄入在肾脏 K+排泄和 K+平衡中的作用,并通过评估远端肾小球中与 K+分泌相关的转运蛋白探讨其潜在机制。与对照组小鼠相比,K+缺乏饮食会导致STZ小鼠尿液中K+流失过多,降低日K+平衡,并导致严重的低钾血症。相反,STZ 小鼠在 K+ 负荷条件下的日 K+ 平衡增加,血浆 K+ 水平升高。在喂食低钾或高钾饮食的糖尿病小鼠中,观察到 NaCl 共转运体(NCC)、上皮 Na+ 通道(ENaC)和肾外髓质 K+ 通道(ROMK)失调。此外,阿米洛利治疗可减少 K+ 限制的 STZ 小鼠的尿 K+ 排泄并纠正低钾血症。另一方面,达帕格列净(dapagliflozin)抑制 SGLT2 可促进 K+ 补充的 STZ 小鼠的尿 K+ 排泄并使血浆 K+ 水平正常化,至少部分原因是通过增加 ENaC 活性。我们的结论是,STZ 小鼠在低或高 K+饮食条件下均表现出异常的 K+平衡和肾脏 K+处理能力受损,这可能主要归因于 ENaC 依赖性肾脏 K+排泄途径的功能障碍,尽管 NCC 可能起了作用。
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Impaired distal renal potassium handling in streptozotocin-induced diabetic mice.

Diabetes is closely associated with K+ disturbances during disease progression and treatment. However, it remains unclear whether K+ imbalance occurs in diabetes with normal kidney function. In this study, we examined the effects of dietary K+ intake on systemic K+ balance and renal K+ handling in streptozotocin (STZ)-induced diabetic mice. The control and STZ mice were fed low or high K+ diet for 7 days to investigate the role of dietary K+ intake in renal K+ excretion and K+ homeostasis and to explore the underlying mechanism by evaluating K+ secretion-related transport proteins in distal nephrons. K+-deficient diet caused excessive urinary K+ loss, decreased daily K+ balance, and led to severe hypokalemia in STZ mice compared with control mice. In contrast, STZ mice showed an increased daily K+ balance and elevated plasma K+ level under K+-loading conditions. Dysregulation of the NaCl cotransporter (NCC), epithelial Na+ channel (ENaC), and renal outer medullary K+ channel (ROMK) was observed in diabetic mice fed either low or high K+ diet. Moreover, amiloride treatment reduced urinary K+ excretion and corrected hypokalemia in K+-restricted STZ mice. On the other hand, inhibition of SGLT2 by dapagliflozin promoted urinary K+ excretion and normalized plasma K+ levels in K+-supplemented STZ mice, at least partly by increasing ENaC activity. We conclude that STZ mice exhibited abnormal K+ balance and impaired renal K+ handling under either low or high K+ diet, which could be primarily attributed to the dysfunction of ENaC-dependent renal K+ excretion pathway, despite the possible role of NCC.NEW & NOTEWORTHY Neither low dietary K+ intake nor high dietary K+ intake effectively modulates renal K+ excretion and K+ homeostasis in STZ mice, which is closely related to the abnormality of ENaC expression and activity. SGLT2 inhibitor increases urinary K+ excretion and reduces plasma K+ level in STZ mice under high dietary K+ intake, an effect that may be partly due to the upregulation of ENaC activity.

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