Gralla Michael, Camporeale Gabriela, Zempleni Janos
Department of Nutrition and Health Sciences, University of Nebraska at Lincoln, Lincoln, NE 68583-0806, USA.
J Nutr Biochem. 2008 Jun;19(6):400-8. doi: 10.1016/j.jnutbio.2007.06.002. Epub 2007 Sep 27.
The sodium-dependent multivitamin transporter (SMVT) is essential for mediating and regulating biotin entry into mammalian cells. In cells, biotin is covalently linked to histones in a reaction catalyzed by holocarboxylase synthetase (HCS); biotinylation of lysine 12-biotinylated histone H4 (K12Bio H4) causes gene silencing. Here, we propose a novel role for HCS in sensing and regulating levels of biotin in eukaryotic cells. We hypothesized that nuclear translocation of HCS increases in response to biotin supplementation; HCS then biotinylates histone H4 at SMVT promoters, silencing biotin transporter genes. Jurkat lymphoma cells were cultured in media containing 0.025, 0.25, or 10 nmol/l biotin. The nuclear translocation of HCS correlated with biotin concentrations in media; the relative enrichment of both HCS and K12Bio H4 at SMVT promoter 1 (but not promoter 2) increased by 91% in cells cultured in medium containing 10 nmol/l biotin compared with 0.25 nmol/l biotin. This increase of K12Bio H4 at the SMVT promoter decreased SMVT expression by up to 86%. Biotin homeostasis by HCS-dependent chromatin remodeling at the SMVT promoter 1 locus was disrupted in HCS knockdown cells, as evidenced by abnormal chromatin structure (K12Bio H4 abundance) and increased SMVT expression. The findings from this study are consistent with the theory that HCS senses biotin, and that biotin regulates its own cellular uptake by participating in HCS-dependent chromatin remodeling events at the SMVT promoter 1 locus in Jurkat cells.
钠依赖性多种维生素转运蛋白(SMVT)对于介导和调节生物素进入哺乳动物细胞至关重要。在细胞中,生物素在全羧化酶合成酶(HCS)催化的反应中与组蛋白共价连接;赖氨酸12-生物素化组蛋白H4(K12Bio H4)的生物素化导致基因沉默。在此,我们提出HCS在感知和调节真核细胞中生物素水平方面具有新作用。我们假设,补充生物素会导致HCS核转位增加;然后HCS在SMVT启动子处将组蛋白H4生物素化,使生物素转运蛋白基因沉默。将Jurkat淋巴瘤细胞培养在含有0.025、0.25或10 nmol/L生物素的培养基中。HCS的核转位与培养基中的生物素浓度相关;与含有0.25 nmol/L生物素的培养基中培养的细胞相比,在含有10 nmol/L生物素的培养基中培养的细胞中,SMVT启动子1(而非启动子2)处HCS和K12Bio H4的相对富集增加了91%。SMVT启动子处K12Bio H4的这种增加使SMVT表达降低了多达86%。在HCS敲低细胞中,SMVT启动子1位点依赖于HCS的染色质重塑导致的生物素稳态被破坏,染色质结构异常(K12Bio H4丰度)和SMVT表达增加证明了这一点。这项研究的结果与以下理论一致,即HCS感知生物素,并且生物素通过参与Jurkat细胞中SMVT启动子1位点依赖于HCS的染色质重塑事件来调节其自身的细胞摄取。