Is cerebral control of plasma [Na] a major determinant for systemic sodium balance?

Abstract

To evaluate the role of volume expansion for prandial/postprandial natriuresis, we first determined spontaneous daily NaCl, H2O, and diet turnover and Evans blue and inulin spaces in male Wistar rats on various high-salt diets. Second, we measured the time course of Na and water clearance in chloralose/ketamine anesthetized rats over 270 minutes after a single intragastric Na load (0, 290.4, or 581 micromol/100 g body weight). Finally, similar measurements were made during and after a local [NaCl] increase in the left carotid artery supplying the brain for 60 minutes. Daily NaCl, H2O, and diet intake per rat was 2 to 74 mmol, 13 to 223 ml, and 1.5 to 33 g, respectively. Only inulin space and plasma [Na] correlated with daily Na uptake (X; regressions Y = 0.02X + 15.13, N = 99, r2 = 0.0716, P = 0.02; and Y = 141.7 + 0.1005X, N = 179, r2 = 0.104, P < 0.0001, respectively). Under chloralose/ketamine anesthesia, 86% to 102% of the total (i.v. plus i.g.) Na load and some 50% of the unilaterally administered intracarotid Na were excreted. Chloralose/ketamine anesthesia is thus suitable for studies on Na balance mechanisms. Plasma [Na] is under cerebral control. Because of its immediate onset, this mechanism might be the principal determinant of prandial and postprandial natriuresis and hence for the systemic Na balance.