Intestinal resistance to 1,25 dihydroxyvitamin D in mice heterozygous for the vitamin D receptor knockout allele |
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Authors: | Song Yurong Fleet James C |
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Institution: | Interdepartmental Nutrition Program and Department of Foods and Nutrition, Purdue University, 700 West State Street, West Lafayette, IN 47906-2059, USA. |
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Abstract: | We tested the hypothesis that low vitamin D receptor (VDR) level causes intestinal vitamin D resistance and intestinal calcium (Ca) malabsorption. To do so, we examined vitamin D regulated duodenal Ca absorption and gene expression transient receptor potential channel, vallinoid subfamily member 6 (TRPV6), 24-hydroxylase, calbindin D(9k) (CaBP) mRNA, and CaBP protein] in wild-type mice and mice with reduced tissue VDR levels i.e. heterozygotes for the VDR gene knockout (HT)]. Induction of 24-hydroxylase mRNA levels by 1,25 dihydroxyvitamin D(3) 1,25(OH)(2) D(3)] injection was significantly reduced in the duodenum and kidney of HT mice in both time-course and dose-response experiments. TRPV6 and CaBP mRNA levels in duodenum were significantly induced after 1,25(OH)(2) D(3) injection, but there was no difference in response between wild-type and HT mice. Feeding a low-calcium diet for 1 wk increased plasma PTH, renal 1alpha-hydroxylase (CYP27B1) mRNA level, and plasma 1,25(OH)(2) D(3), and this response was greater in HT mice (by 88, 55, and 37% higher, respectively). In contrast, duodenal TRPV6 and CaBP mRNA were not higher in HT mice fed the low-calcium diet. However, the response of duodenal Ca absorption and CaBP protein to increasing 1,25(OH)(2) D(3) levels was blunted by 40% in HT mice. Our data show that low VDR levels lead to resistance of intestinal Ca absorption to 1,25(OH)(2) D(3), and this resistance may be due to a role for the VDR (and VDR level) in the translation of CaBP. |
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