The Open Hypertension Journal

2013, 5 : 1-11
Published online 2013 April 19. DOI: 10.2174/1876526201305010001
Publisher ID: TOHYPERJ-5-1

Effects of Perinatal Protein-Nacl Diets on Offspring's Blood Pressure and Renal Function in Lewis Rats

Jong Y. Lee and Silvia H. Azar
P.O. BOX 14945, Minneapolis, MN 55414, USA.

ABSTRACT

Perinatal diets may affect the cardiovascular-renal functions of offspring. To understand effects of maternal diet on the renal function and blood pressure (BP) of offspring, protein (10% low, LP; 23% normal, NP) and/or NaCl (4% high salt, HS; 0.6% normal, NS) diets were started at pre-pregnancy through pups' weaning to either a 4% high NaCl (hs) or 0.6% NaCl (ns) diet. Telemetered BP data was analyzed by methods of linear least square rhythmometry. Systolic BPs (circadian mean ±SE mm Hg) were: NPNSns, 131±2; NPNShs, 137±2; NPHSns, 137±0.2; NPHShs, 134±3; LPNSns, 138±1; LPNShs, 138±0.6; LPHSns, 135±2; LPHShs, 142±2. Offspring in NPNShs and NPHSns had significantly increased SBPs versus NPNSns (both P<0.05). Most LP-offspring had increased SBP (P<0.01 to <0.05) and lower body weight (BW) with smaller glomerular filtration rate changes (renal reserve, RR-GFR) following overnight acute highprotein loads: RR-GFRs (inulin, ml/min/g kidney) for groups stated above were, respectively: 0.935; 0.927; 0.537; -0.064; -0.229; 0.057; -0.515; -0.404. The kidney weight/BW ratio of offspring was higher on hs- than on ns-diets (all P<0.001). Rats on a low caloric diet had reduced sclerotic glomerular numbers compared to those on normal diets (11.2±1 vs. 15.7±2, P<0.001), though glomerular numbers were similar in both groups.

In summary, perinatal LP-HS diets significantly affected the BW, BP, renal injuries and kidney function of offspring. RR was seriously reduced, especially among offspring in hs- and perinatal LP groups. The most interesting result was the glomerular maturation staging in the pups, which suggests delayed nephrogenesis by a maternal LP diet.

Keywords:

Circadian blood pressure, Glomerular filtration rate, perinatal protein-salt diets.