Mechanisms of acute natriuresis in normal humans on low sodium diet

摘要

This study evaluates the relative importance of several mechanisms possibly involved in the natriuresis elicited by slow sodium loading, i.e. the renin-angiotensin-aldosterone system (RAAS), mean arterial blood pressure (MAP), glomerular filtration rate (GFR), atrial natriuretic peptide (ANP), oxytocin and nitric oxide (NO). Eight seated subjects on standardised sodium intake (30 mmol NaCl day⁻¹) received isotonic saline intravenously (NaLoading: 20 μmol Na⁺ kg⁻¹ min⁻¹ or ≈11 ml min⁻¹ for 240 min). NaLoading did not change MAP or GFR (by clearance of ⁵¹Cr-EDTA). Significant natriuresis occurred within 1 h (from 9 ± 3 to 13 ± 2 μmol min⁻¹). A 6-fold increase was found during the last hour of infusion as plasma renin activity, angiotensin II (ANGII) and aldosterone decreased markedly. Sodium excretion continued to increase after NaLoading. During NaLoading, plasma renin activity and ANGII were linearly related (R = 0.997) as were ANGII and aldosterone (R = 0.999). The slopes were 0.40 pm ANGII (mi.u. renin activity)⁻¹ and 22 pm aldosterone (pm ANGII)⁻¹. Plasma ANP and oxytocin remained unchanged, as did the urinary excretion rates of cGMP and NO metabolites (NOx). In conclusion, sodium excretion may increase 7-fold without changes in MAP, GFR, plasma ANP, plasma oxytocin, and cGMP- and NOx excretion, but concomitant with marked decreases in circulating RAAS components. The immediate renal response to sodium excess appears to be fading of ANGII-mediated tubular sodium reabsorption. Subsequently the decrease in aldosterone may become important.