Phosphorus overload effects on NaP-IIb and PiT-1 cotransporters in control and uremic rats

Phosphorus is one of the most abundant minerals in the body besides being essential for many biological processes. Phosphorus homeostasis depends on absorption in the small intestine, renal excretion, bone remodeling and hormones such as parathyroid hormone, calcitriol and FGF-23. In patients with chronic kidney disease phosphorus urinary excretion is compromised leading to hyperphosphatemia, which contributes to increased morbidity and mortality of these patients. Intestinal absorption of phosphorus in the small intestine, particularly of NaP-IIb and PiT-1 cotransporters is poorly studied. The aim of this study was to evaluate the effects of diets with different concentrations of phosphorus in protein expression and gene of NaP-IIb and PiT-1 cotransporters as well as in apoptosis of enterocytes of different segments of intestine in control and uremic animals. We studied seventy-six male Wistar rats initially divided into two groups: controls (C) and uremic (Nx). Each group was subdivided into three others, according to the phosphorus concentration in the diet: Low diet (0.2% P), Standard diet (0.54% P) and High diet (0.9% P). We analyzed biochemical parameters (creatinine, P, iCa, PTH and FGF-23), protein expression of cotransporters, using Western Blot, ELISA, immunofluorescence, real-time PCR and apoptosis of enterocytes using the TUNEL technique. Results showed that serum creatinine, P, PTH and FGF-23 were significantly higher in Nx animals. In C animals with a diet low in P we observed increase in protein expression of NaP-IIb cotransporter in all segments of the intestine while in low Nx expression of this cotransporter was lower only in jejunum. As for PiT-1 expression was lower in the ileum of the high Nx group compared to their respective control. Gene expression of NaP-IIb cotransporter was lower in the jejunum of high Nx and higher in the ileum of the same group as compared to their respective controls. PiT-1 gene expression was higher in all segments of the low Nx group compared to their controls. We detected a direct correlation between the gene expression of NaP-IIb in jejunum and serum phosphorus. Gene expression of PiT-1 correlated with serum phosphorus in the jejunum, and correlated with the serum levels of FGF-23 in the jejunum and duodenum. In the duodenum and jejunum the percentage of apoptotic enterocytes was higher in high Nx animals compared to controls; particularly in the duodenum the percentage of these cells was also higher in low Nx group and standard control. In the jejunum in both low Nx group and standard Nx we observed fewer apoptotic cells than in their respective controls. When we analyze all intestinal segments together the high Nx group had more apoptotic cells than the control, and the opposite was observed in the low Nx group and standard Nx group. In conclusion, diets with different phosphorus concentrations promote changes in protein expression and gene of NaP-IIb and PiT-1 cotransporters in the small intestine that do not follow a uniform pattern. Phosphorus overhead increases the percentage of apoptotic enterocytes in uremic animals (AU)