Prostaglandin-H-synthase competent cells derived from ram seminal vesicles: a tool for studying cooxidation of xenobiotics.

Molecular toxicology Pub Date : 1987-09-01
A Freyberger, R Schnitzler, D Schiffmann, G H Degen
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Abstract

Prostaglandin-H-synthase (PHS) peroxidase has been suggested to mediate drug metabolism particularly in extrahepatic tissues low in monooxygenase (MFO) activity. PHS can oxidize various xenobiotics in vitro; its contribution in vivo is still uncertain and is currently assessed by differences in the MFO- and PHS-catalyzed product/adduct formation of a few suitable substrates. Cells in culture that are PHS competent but MFO deficient can provide an additional approach for further investigating the role of PHS in the metabolic activation of foreign compounds. To this end, a cell line has been derived from ram seminal vesicles (SEMV), a tissue known as a good source of PHS but shown to be devoid of MFO activity. SEMV cells can be cultured in IBR or in RPMI medium supplemented with fetal calf serum, and have been subcultured until passage 30. The arachidonic acid (AA) metabolism in these cells has been characterized: besides incorporation in the lipid pool, AA was mainly metabolized to prostaglandin (PG) E2; minor products were PGF2 alpha and the lipoxygenase products 12- and 15-HETE. The PGE2 production (17 nmol/10(6) cells.24 h) of SEMV cells (passage 10) exceeded at least 10-fold that of other cells cultured under similar conditions. These data, indicative of high PHS activity, suggest that the cells can be a useful tool for future studies on the objectives outlined above.

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从公羊精囊中提取的前列腺素- h合成酶活性细胞:研究外源药物协同作用的工具。
前列腺素- h合成酶(PHS)过氧化物酶已被认为介导药物代谢,特别是在低单氧合酶(MFO)活性的肝外组织。小灵通能在体外氧化多种外源性药物;其在体内的作用仍不确定,目前是通过几种合适底物的MFO和phs催化产物/加合物形成的差异来评估的。培养的小灵通但缺乏MFO的细胞可以为进一步研究小灵通在外源化合物代谢激活中的作用提供另一种方法。为此,从公羊精囊(SEMV)中衍生出细胞系,这种组织被认为是小灵通的良好来源,但缺乏MFO活性。SEMV细胞可以在IBR或添加胎牛血清的RPMI培养基中培养,并已传代至30代。花生四烯酸(AA)在这些细胞中的代谢特征:除了在脂质池中掺入外,AA主要代谢为前列腺素(PG) E2;次要产物是PGF2 α和脂氧合酶产物12-和15-HETE。PGE2产量为17 nmol/10(6)个细胞。24 h)的SEMV细胞(传代10)比在相似条件下培养的其他细胞至少高出10倍。这些数据表明小灵通细胞具有较高的活性,表明这些细胞可以成为实现上述目标的未来研究的有用工具。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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