Sure Florian, Afonso Sara, Essigke Daniel, Schmidt Paul, Kalo M Zaher, Nesterov Viatcheslav, Kißler Alicia, Bertog Marko, Rinke Ralf, Wittmann Sabine, Broeker Katharina A E, Gramberg Thomas, Artunc Ferruh, Korbmacher Christoph, Ilyaskin Alexandr V
Friedrich-Alexander-Universität Erlangen-Nürnberg, Institute of Cellular and Molecular Physiology, Erlangen, Germany.
Division of Endocrinology, Diabetology and Nephrology, Department of Internal Medicine, University Hospital Tübingen, Tübingen, Germany.
J Am Soc Nephrol. 2025 Mar 1;36(3):420-434. doi: 10.1681/ASN.0000000521. Epub 2024 Oct 23.
Proteolytic activation of the epithelial sodium channel (ENaC) was compromised by transmembrane serine protease 2 deficiency in murine cortical collecting duct cells and native mouse kidney. To compensate for impaired ENaC activation, rise in plasma aldosterone in response to low-salt diet was enhanced in mice. Transmembrane serine protease 2 may be a potential drug target to limit proteolytic ENaC activation in disorders with increased renal ENaC activity.
The renal epithelial sodium channel (ENaC) is essential for sodium balance and BP control. ENaC undergoes complex proteolytic activation by not yet clearly identified tubular proteases. Here, we examined a potential role of transmembrane serine protease 2 (TMPRSS2).
Murine ENaC and TMPRSS2 were (co)expressed in oocytes. ENaC cleavage and function were studied in TMPRSS2-deficient murine cortical collecting duct (mCCD) cells and TMPRSS2-knockout () mice. Short-circuit currents () were measured to assess ENaC-mediated transepithelial sodium transport of mCCD cells. The mCCD cell transcriptome was studied using RNA sequencing. The effect of low-sodium diet with or without high potassium were compared in and wild-type mice using metabolic cages. ENaC-mediated whole-cell currents were recorded from microdissected tubules of and wild-type mice.
In oocytes, coexpression of murine TMPRSS2 and ENaC resulted in fully cleaved -ENaC and approximately two-fold stimulation of ENaC currents. High baseline expression of TMPRSS2 was detected in mCCD cells without a stimulatory effect of aldosterone on its function or transcription. TMPRSS2 knockout in mCCD cells compromised -ENaC cleavage and reduced baseline and aldosterone-stimulated , which could be rescued by chymotrypsin. A compensatory transcriptional upregulation of other proteases was not observed. mice kept on standard diet exhibited no apparent phenotype, but renal -ENaC cleavage was altered. In response to a low-salt diet, particularly with high potassium intake, mice increased plasma aldosterone significantly more than wild-type mice to achieve a similar reduction of renal sodium excretion. Importantly, the stimulatory effect of trypsin on renal tubular ENaC currents was much more pronounced in mice than that in wild-type mice. This indicated the presence of incompletely cleaved and less active channels at the cell surface of TMPRSS2-deficient tubular epithelial cells.
TMPRSS2 contributes to proteolytic ENaC activation in mouse kidney .
在小鼠皮质集合管细胞和天然小鼠肾脏中,跨膜丝氨酸蛋白酶2缺乏会损害上皮钠通道(ENaC)的蛋白水解激活。为了补偿受损的ENaC激活,低盐饮食时小鼠血浆醛固酮的升高增强。跨膜丝氨酸蛋白酶2可能是限制肾ENaC活性增加的疾病中ENaC蛋白水解激活的潜在药物靶点。
肾上皮钠通道(ENaC)对钠平衡和血压控制至关重要。ENaC通过尚未明确的肾小管蛋白酶进行复杂的蛋白水解激活。在此,我们研究了跨膜丝氨酸蛋白酶2(TMPRSS2)的潜在作用。
在卵母细胞中(共)表达小鼠ENaC和TMPRSS2。在TMPRSS2缺陷的小鼠皮质集合管(mCCD)细胞和TMPRSS2基因敲除小鼠中研究ENaC的切割和功能。测量短路电流以评估mCCD细胞中ENaC介导的跨上皮钠转运。使用RNA测序研究mCCD细胞转录组。在基因敲除小鼠和野生型小鼠中,使用代谢笼比较含或不含高钾的低钠饮食的效果。从基因敲除小鼠和野生型小鼠的显微解剖小管中记录ENaC介导的全细胞电流。
在卵母细胞中,小鼠TMPRSS2和ENaC的共表达导致β-ENaC完全切割,并使ENaC电流刺激约两倍。在mCCD细胞中检测到TMPRSS2的高基线表达,醛固酮对其功能或转录无刺激作用。mCCD细胞中的TMPRSS2基因敲除损害了β-ENaC的切割,并降低了基线和醛固酮刺激的短路电流,这可以通过胰凝乳蛋白酶挽救。未观察到其他蛋白酶的代偿性转录上调。标准饮食喂养的基因敲除小鼠未表现出明显的表型,但肾β-ENaC切割发生改变。响应低盐饮食,特别是高钾摄入时,基因敲除小鼠比野生型小鼠显著增加血浆醛固酮,以实现类似的肾钠排泄减少。重要的是,胰蛋白酶对肾小管ENaC电流的刺激作用在基因敲除小鼠中比在野生型小鼠中更明显。这表明在TMPRSS2缺陷的肾小管上皮细胞表面存在切割不完全且活性较低的通道。
TMPRSS2有助于小鼠肾脏中ENaC的蛋白水解激活。
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