Transcriptional regulation of the claudin-16 gene by Mg2+ availability.

BACKGROUND/AIMS:Renal tubular Mg(2+) reabsorption is mediated predominantly by the tight junction channel protein claudin-16 which is encoded by the gene CLDN16. Hypermagnesemia decreases, whereas hypomagnesemia increases Mg(2+) reabsorption. This study examines the role of claudin-16 in the adaptive response of the kidney to Mg(2+) availability. METHODS/RESULTS:Mice received a low-, normal- or high Mg(2+) diet for up to 3 days. Mg(2+)-loaded animals displayed hypermagnesemia with increasing urine Mg(2+)/Ca(2+) levels paralleled by a decrease in claudin-16 protein and mRNA in the kidney. Mg(2+)- deprived animals developed hypomagnesemia with decreasing urine Mg(2+)/Ca(2+) levels associated with an increase in claudin-16 protein and mRNA abundance. Mg(2+) depletion markedly increased and Mg(2+) load decreased endogenous claudin-16 mRNA levels in calcium-sensing receptor-transfected HEK293 cells compared with native HEK293 cells. The effect of Mg(2+) availability on the human CLDN16 (hCLDN16) gene promoter was examined. Using a 2.5kb hCLDN16 5'-flanking DNA sequence, we show that magnesium depletion increases and Mg(2+) load decreases hCLDN16 promoter activity in transfected HEK293 cells. CONCLUSIONS:Changes in Mg(2+) availability may influence claudin-16 mediated Mg(2+) transport at the transcriptional level. The possible involvement of the cell membrane bound Ca(2+)/Mg(2+) sensing receptor or the potential role of a hypothetical Mg(2+) response element on the CLDN16 promoter in the Mg(2+)-induced response remains to be explored.

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