Fuda Hirotoshi, Javitt Normal B, Mitamura Kuniko, Ikegawa Shigeo, Strott Charles A
Section on Steroid Regulation, Endocrinology and Reproduction Research Branch, National Institute of Child Health and Human Development, National Institutes of Health, Bethesda, MD 20892-4510, USA.
J Lipid Res. 2007 Jun;48(6):1343-52. doi: 10.1194/jlr.M700018-JLR200. Epub 2007 Mar 8.
Oxysterols constitute a class of cholesterol derivatives that exhibit broad biological effects ranging from cytotoxicity to regulation of nuclear receptors. The role of oxysterols such as 7-ketocholesterol (7-KC) in the development of retinal macular degeneration and atheromatous lesions is of particular interest, but little is known of their metabolic fate. We establish that the steroid/sterol sulfotransferase SULT2B1b, known to efficiently sulfonate cholesterol, also effectively sulfonates a variety of oxysterols, including 7-KC. The cytotoxic effect of 7-KC on 293T cells was attenuated when these cells, which do not express SULT2B1b, were transfected with SULT2B1b cDNA. Importantly, protection from 7-KC-induced loss of cell viability with transfection correlated with the synthesis of SULT2B1b protein and the production of the 7-KC sulfoconjugate (7-KCS). Moreover, when 7-KCS was added to the culture medium of 293T cells in amounts equimolar to 7-KC, no loss of cell viability occurred. Additionally, MCF-7 cells, which highly express SULT2B1b, were significantly more resistant to the cytotoxic effect of 7-KC. We extended the range of oxysterol substrates for SULT2B1b to include 7alpha/7beta-hydroxycholesterol and 5alpha,6alpha/5beta,6beta-epoxycholesterol as well as the 7alpha-hydroperoxide derivative of cholesterol. Thus, SULT2B1b, by acting on a variety of oxysterols, offers a potential pathway for modulating in vivo the injurious effects of these compounds.
氧化甾醇是一类胆固醇衍生物,具有广泛的生物学效应,从细胞毒性到核受体调节。诸如7-酮胆固醇(7-KC)等氧化甾醇在视网膜黄斑变性和动脉粥样硬化病变发展中的作用尤其令人关注,但其代谢命运却知之甚少。我们证实,已知能有效磺化胆固醇的类固醇/甾醇磺基转移酶SULT2B1b,也能有效磺化多种氧化甾醇,包括7-KC。当不表达SULT2B1b的293T细胞转染SULT2B1b cDNA时,7-KC对这些细胞的细胞毒性作用减弱。重要的是,转染后对7-KC诱导的细胞活力丧失的保护作用与SULT2B1b蛋白的合成以及7-KC硫酸酯共轭物(7-KCS)的产生相关。此外,当以与7-KC等摩尔的量将7-KCS添加到293T细胞的培养基中时,未发生细胞活力丧失。另外,高表达SULT2B1b的MCF-7细胞对7-KC的细胞毒性作用具有明显更高的抗性。我们将SULT2B1b的氧化甾醇底物范围扩展到包括7α/7β-羟基胆固醇和5α,6α/5β,6β-环氧胆固醇以及胆固醇的7α-氢过氧化物衍生物。因此,SULT2B1b通过作用于多种氧化甾醇,为体内调节这些化合物的有害作用提供了一条潜在途径。
