Abstract
Salt sensitivity affects approximately 20% of adults worldwide and has similar mortality and morbidity sequalae as hypertension. Research has focused on the harmful effects of a high salt diet but have not focused on the harmful effects of a low salt diet. Inverse salt sensitive (ISS) individuals require high salt intake in order to maintain a normal blood pressure. Aldosterone increases ENaC and sodium reabsorption via the mineralocorticoid receptor (MR). We previously reported that αENaC was significantly lower in ISS renal tubule cells isolated from urine (uRTC), while these cells showed higher ENaC like activities under trypsin stimulation. We hypothesized that aldosterone may act as a stimulus and play a role in ISS high blood pressure on a low salt diet (LSD). Plasma aldosterone was significantly increased on LSD in all salt study participants, and ISS individuals showed the highest aldosterone level (ISS HS 3.8±0.38, n=26; ISS LS 35±3.38, n=22; SR HS 4.34±0.18, n=180; SR LS 32.62±1.6, n=152; SS HS 4.65±0.35, n=43; SS LS 26.08±2.18, n=38; HS Vs LS, p<0.001, two-way ANOVA). Moreover, both aldosterone and plasma renin activity (PRA) were significantly lower in salt sensitive (SS) individuals on LSD (PRA LS: ISS 6.05±0.87, n=17; SR 5.94±0.36, n=108; SS 4.43±0.57, n=34; p<0.05, one-way ANOVA), indicating LSD was protective to SS individuals. Treatment of uRTCs with 1 μM aldosterone increased MR and αENaC expression in ISS but not in SR (salt resistant) cells (MR: SR VEH 12164±213; SR Aldosterone 12327±128; ISS VEH 12128±40 vs ISS Aldosterone 13506±128, n=3, p<0.001, two-way ANOVA; αENaC: SR VEH 5023±46; SR Aldosterone 4895±55; ISS VEH 4270±21 vs ISS Aldosterone 5013±113, n=3, p<0.001, two-way ANOVA). High salt treatment further decreased MR in ISS but not in SR cells (ISS: 142mM 11066±188 vs 192mM 10425±74; p<0.05, n=3 two-way ANOVA). These results are consistent with the hypothesis that ISS individuals retain excess Na + and exhibit decreased BP when compared to SR or SS individuals under high salt diet, but reabsorb more sodium and exhibit elevated blood pressure under low salt diet. Higher circulating aldosterone and ex-vivo urine derived renal cell aldosterone sensitivity under low salt conditions may be a novel diagnostic test to identify ISS individuals.
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