Intestinal Na-Picotransporter adaptation to dietary Picontent in vitamin D receptor null mice

Abstract

Recent studies suggest that vitamin D may play a role in intestinal Na⁺-dependent phosphate transport adaptation to variable levels of dietary P_i. Therefore, the goal of the current study was to assess Na⁺-dependent P_icotransport activity in transgenic mice to determine whether vitamin D is an essential mediator of this process. Intestinal brush-border membrane (BBM), Na⁺-dependent P_icotransport activity was significantly decreased in vitamin D receptor (VDR) null [VDR (−/−)] mice compared with wild-type (VDR+/+) mice. While intestinal Na-P_icotransporter (type IIb) mRNA levels were similar in VDR (−/−) and VDR (+/+) mice, type IIb Na-P_icotransporter protein expression was markedly suppressed in VDR (−/−) mice compared with VDR (+/+) mice. Furthermore, Na-P_icotransport activity in renal BBM was similar in VDR (−/−) and VDR (+/+) mice, but type IIa Na-P_icotransporter protein expression was decreased in VDR (−/−) mice. After administration of a low-P_idiet, type IIb protein expression was significantly increased in VDR (+/+) and VDR (−/−) mice, and type IIb protein expression was present in the intestinal BBM of VDR (−/−) mice. These data demonstrate that intestinal Na-P_icotransport adaptation to a low-P_idiet occurs independently of vitamin D.