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Salt sensitivity of volume and blood pressure in a mouse with globally reduced ENaC γ-subunit expression

上皮钠通道 内分泌学 内科学 醛固酮 细胞外液 平衡 蛋白质亚单位 体液 血压 化学 重吸收 血容量 肾单位 生物 流体室 细胞外 基因 医学 体重 生物化学 有机化学
作者
Evan C. Ray,Ashley Pitzer,Tracey Lam,Alexa Cross Jordahl,Ritam Patel,Mingfang Ao,Allison L. Marciszyn,Aaliyah Winfrey,Yaacov Barak,Shaohu Sheng,Annet Kirabo,Thomas R. Kleyman
出处
期刊:American Journal of Physiology-renal Physiology [American Physical Society]
卷期号:321 (6): F705-F714 被引量:7
标识
DOI:10.1152/ajprenal.00559.2020
摘要

The epithelial Na+ channel (ENaC) promotes the absorption of Na+ in the aldosterone-sensitive distal nephron, colon, and respiratory epithelia. Deletion of genes encoding subunits of ENaC results in early postnatal mortality. Here, we present the initial characterization of a mouse with dramatically suppressed expression of the ENaC γ-subunit. We used this hypomorphic (γmt) allele to explore the importance of this subunit in homeostasis of electrolytes and body fluid volume. At baseline, γ-subunit expression in γmt/mt mice was markedly suppressed in the kidney and lung, whereas electrolytes resembled those of littermate controls. Aldosterone levels in γmt/mt mice exceeded those seen in littermate controls. Quantitative magnetic resonance measurement of body composition revealed similar baseline body water, lean tissue mass, and fat tissue mass in γmt/mt mice and controls. γmt/mt mice exhibited a more rapid decline in body water and lean tissue mass in response to a low-Na+ diet than the controls. Replacement of drinking water with 2% saline selectively and transiently increased body water and lean tissue mass in γmt/mt mice relative to the controls. Lower blood pressures were variably observed in γmt/mt mice on a high-salt diet compared with the controls. γmt/mt also exhibited reduced diurnal blood pressure variation, a "nondipping" phenotype, on a high-Na+ diet. Although ENaC in the renal tubules and colon works to prevent extracellular fluid volume depletion, our observations suggest that ENaC in other tissues may participate in regulating extracellular fluid volume and blood pressure.NEW & NOTEWORTHY A mouse with globally suppressed expression of the epithelial Na+ channel γ-subunit showed enhanced sensitivity to dietary salt, including a transient increase in total body fluid, reduced blood pressure, and reduced diurnal blood pressure variation when given a dietary NaCl challenge. These results point to a role for the epithelial Na+ channel in regulating body fluid and blood pressure beyond classical transepithelial Na+ transport mechanisms.

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