The Role of Intestinal Cytochrome P450s in Vitamin D Metabolism
2024
Minori Uga | Ichiro Kaneko | Yuji Shiozaki | Megumi Koike | Naoko Tsugawa | Peter W. Jurutka | Ken-Ichi Miyamoto | Hiroko Segawa
Vitamin D hydroxylation in the liver/kidney results in conversion to its physiologically active form of 1,25-dihydroxyvitamin D<sub>3</sub> [1,25(OH)<sub>2</sub>D<sub>3</sub>]. 1,25(OH)<sub>2</sub>D<sub>3</sub> controls gene expression through the nuclear vitamin D receptor (VDR) mainly expressed in intestinal epithelial cells. Cytochrome P450 (CYP) 24A1 is a catabolic enzyme expressed in the kidneys. Interestingly, a recently identified mutation in another CYP enzyme, CYP3A4 (gain-of-function), caused type III vitamin D-dependent rickets. CYP3A are also expressed in the intestine, but their hydroxylation activities towards vitamin D substrates are unknown. We evaluated CYP3A or CYP24A1 activities on vitamin D action in cultured cells. In addition, we examined the expression level and regulation of CYP enzymes in intestines from mice. The expression of CYP3A or CYP24A1 significantly reduced 1,25(OH)<sub>2</sub>D<sub>3</sub>-VDRE activity. Moreover, in mice, <i>Cyp24a1</i> mRNA was significantly induced by 1,25(OH)<sub>2</sub>D<sub>3</sub> in the intestine, but a mature form (approximately 55 kDa protein) was also expressed in mitochondria and induced by 1,25(OH)<sub>2</sub>D<sub>3</sub>, and this mitochondrial enzyme appears to hydroxylate 25OHD<sub>3</sub> to 24,25(OH)<sub>2</sub>D<sub>3</sub>. Thus, CYP3A or CYP24A1 could locally attenuate 25OHD<sub>3</sub> or 1,25(OH)<sub>2</sub>D<sub>3</sub> action, and we suggest the small intestine is both a vitamin D target tissue, as well as a newly recognized vitamin D-metabolizing tissue.
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