37 It is important to note that this website these observations were obtained using the hepatoma cell line Huh7.5, which is the only highly permissive cell line for HCV production.26 They have nonfunctional RIG-I and TLR3 pathways resulting in impaired IFN responses.32 Indeed, in our study infection with HCV resulted in only a minor expression of IFN-β mRNA. Similarly, the exposure to vitamin D3 or calcitriol alone had minimal effect on IFN signaling. In contrast, treatment of HCV-infected cells with vitamin D or calcitriol significantly
up-regulated the expression of IFN-β and of the ISG MxA. The mechanism by which vitamin D enhances the expression of INF-β signaling in these RIG-I and TLR3-deficient cells requires further investigation. We also studied the effect of vitamin D in combination with IFN-α treatment on HCV production. Combined treatment of infected cells with low concentrations of IFN-α and vitamin D or calcitriol, which by themselves had almost no antiviral effect, resulted in a synergistic inhibition of viral
production. These in vitro studies point to the fact that in the presence of vitamin D lower IFN-α concentrations are sufficient to achieve a vigorous antiviral effect. These results may underlie the recently published clinical studies of improved anti-HCV therapy with vitamin D supplementation to the standard Peg-IFN and ribavirin therapy.21, 22 Although further studies are needed to address the question of how relevant are our in vitro results to the in vivo setting, 上海皓元医药股份有限公司 it seems possible that vitamin D will have an interferon-sparing www.selleckchem.com/products/OSI-906.html effect, thus providing a therapy opportunity to patients who cannot tolerate the standard interferon regimen. Vitamin D inhibited HCV production presumably through its active hormonal form calcitriol. The conversion to calcitriol, the second step in vitamin D bioactivation, occurs mainly in the kidney by the renal 1α-hydroxylase. However, there is substantial evidence for additional extrarenal sites of production of calcitriol, which primarily serves as an autocrine/paracrine factor with cell-specific functions.9 1α-Hydroxylase has been
reported in many cells and tissues including the skin, prostate, brain, breast, colon, lung, pancreatic islets, lymph nodes, monocytes, parathyroid, placenta, colonic epithelial cells, and in adipose tissue.9-12 However, to the best of our knowledge, no previous reports have shown either the expression of 1α-hydroxylase in hepatocytes or the synthesis of calcitriol in these cells. In our study we describe for the first time the expression of the 1α-hydroxylase gene, CYP27B1, in hepatoma cells. This expression is reflected in the production of calcitriol in cell cultures supplemented with vitamin D3 (Fig. 2). Moreover, treatment of these cells with calcitriol or with vitamin D3 resulted in up-regulation of the 24-hydroxylase gene, CYP24A1, a vitamin D target gene which is transactivated by the vitamin D receptor.