Polymorphisms in the hANP (human atrial natriuretic peptide) gene, albuminuria, and hypertension.

Atrial natriuretic peptide (ANP) jointly affects kidney function and blood pressure homeostasis and is a candidate susceptibility gene for both essential hypertension and kidney disease. We evaluated the relation between the ScaI and BstXI polymorphisms of the human ANP (hANP) gene, hypertension, and albuminuria in a clinical cohort of 1033 subjects, including type 1 and type 2 diabetic patients, nondiabetic subjects with essential hypertension, and nondiabetic normotensive control subjects. Microalbuminuria was present in 15%, 29%, and 2%, respectively, of type 1 diabetic, type 2 diabetic, and nondiabetic patients. Macroalbuminuria was present in 9% of type 1 diabetics, 21% of type 2 diabetics, and 31% of nondiabetics. Prevalence of hypertension was 31%, 58%, and 61% in normoalbuminuric, microalbuminuric, and macroalbuminuric subjects, respectively (P<0.0001). Genotype distributions were in Hardy-Weinberg equilibrium in all 4 patient subgroups. The frequency of the ScaI mutated allele (A(1)) was significantly lower in hypertensive than in control subjects (11% versus 19%, P=0.018) and in patients with macroalbuminuria (5%) as compared with normoalbuminuric subjects (16%; P<0.0001). In a nominal logistic model adjusting for gender, age, obesity, diabetes, micro/macroalbuminuria, and hypertension, the A(1) allele was independently associated with macroalbuminuria (odds ratio, 0.57; confidence interval, 1.39 to 3.59; P=0.003) but not with hypertension. In the same model, the frequency of the BstXI mutated allele (T(708)) was increased in the presence of microalbuminuria (odds ratio, 2.25; confidence interval, 1.39 to 3.59; P<0.001). We conclude that the mutated genotypes of the ScaI polymorphism are negatively associated with overt nephropathy, whereas the mutated genotypes of BstXI polymorphism are positively associated with microalbuminuria. hANP gene variants may exert a protective effect against the development and progression of kidney damage in diabetes.

1-alpha-OH-cholecalciferol (1-alpha-OHD3) and low phosphate diet in predialysis chronic renal failure: effects on renal function and on secondary hyperparathyroidism.

The effect of 1-alpha-OHD3 on the rate of decline of renal function was studied in 18 patients with predialytic chronic renal failure. 9 patients with serum creatinine 4.19 +/- 1.63 mg/dl, were treated with 1-alpha-OHD3 0.4 +/- 0.11 micrograms/day and a low phosphate diet and 9 patients, with serum creatinine 3.69 +/- 1.24 mg/dl, received the low phosphate diet alone. In the first group retrospectively in 8 patients up to 3-44 months and prospectively in all patients reciprocal values of serum creatinine levels fell linearly with time. Comparison of the slopes of the regression lines before and following the start of treatment did not show statistical differences in 6 cases, in 1 case the decline of renal function improved significantly and in 1 case it became positive. Serum calcium increased significantly (p less than 0.025), alkaline phosphatase decreased (p less than 0.005) and serum iPTH decreased in 6 of 8 cases. In the low phosphate diet group, serum calcium, alkaline phosphatase did not change while iPTH increased in 8 of 9 cases. The rate of decline of renal function before treatment in 3 cases did not improve after the institution of the diet. In conclusion improvement or prevention of secondary hyperparathyroidism in predialytic chronic renal failure can be achieved with daily doses of less than or equal to 0.5 micrograms 1-alpha OHD and a low phosphate diet. The small increment in serum calcium levels induced by the treatment did not accelerate the deterioration of renal function while showing a better control of alkaline phosphatase and serum iPTH than the low phosphate diet alone.