Cloutier M, Fleury A, Courtemanche J, Ducharme L, Mason J I, Lehoux J G
Department of Biochemistry, Faculty of Medicine, University of Sherbrooke, QC, Canada.
DNA Cell Biol. 1997 Mar;16(3):357-68. doi: 10.1089/dna.1997.16.357.
The hamster, like the human produces cortisol as its major glucocorticoid, rather than corticosterone, typical of most enzyme rodents. It is not known, however, if the hamster cytochrome P450C17 (P450C17), a key enzyme for cortisol formation, also exhibits 17,20-lyase activity and if it catalyzes the formation of dehydroepiandrosterone (DHEA) at the adrenal level. To study this, we isolated the cDNA of P450C17 from a hamster adrenal library. This cDNA was sequenced and was found to have an open reading frame for a protein of 511 amino acids, as compared to the human P450C17, which contains 508 amino acids. The hamster P450C17 cDNA, in the coding region, is 76% homologous with the human P450C17 cDNA. The cDNA was then cloned in the expression vector pSV-SPORT 1, which was transiently transfected into COS 1 cells. The transfected cells were used for temporal studies on the transformation of radiolabeled C21-delta5- and C21-delta4-precursors. When transfected cells were incubated with [14C]pregnenolone, rapid formation of [14C]DHEA occurred. The intermediate 17alpha-hydroxypregnenolone accumulated initially with subsequent metabolism to DHEA. Likewise, when incubated with C21-delta4-steroids, [14C]progesterone and [3H]17alpha-hydroxyprogesterone, the 17,20-lyase product androstenedione was produced efficiently. In these studies, with respect to the delta5 pathway, the expressed hamster P450C17 gave similar results to bovine P450C17 cDNA inserted in the same expression vector. However, in contrast to the bovine enzyme, which converted low amounts of progesterone to androstenedione, the expressed hamster P450C17 enzyme showed an active metabolism via the delta4 pathway. Northern blot analysis, using the complete alpha-32P labeled hamster P450C17 cDNA as the probe, demonstrated a strong presence of P450C17 mRNA in hamster adrenals, a weaker presence in testes and ovaries, and no detectable species in brain, mesentery, and kidney. Immunoblotting analysis using an anti-rat P450C17 antibody demonstrated the presence of P450C17 protein in hamster adrenals, testes, and ovaries. Hamster adrenal cell suspensions and microsomal preparations were used to demonstrate the biosynthesis of [14C]17alpha-hydroxypregnenolone and [14C]DHEA from [14C]pregnenolone; both metabolites were formed during incubations. However, the ratio of [14C]DHEA/[14C]17alpha-hydroxypregnenolone was much lower in adrenal cells than in transfected COS 1 cells, indicating the presence of putative factors in hamster adrenal cells, favoring the 17alpha-hydroxylase activity rather than that of the 17,20-lyase. In conclusion, these studies demonstrate that the hamster adrenal is both a DHEA and a cortisol producer, and, therefore, this animal could be a suitable small animal model for the study of the role of DHEA in relation to human biochemistry and physiology.
仓鼠与人一样,主要产生皮质醇作为其糖皮质激素,而非大多数啮齿动物典型的皮质酮。然而,尚不清楚仓鼠细胞色素P450C17(P450C17),一种皮质醇形成的关键酶,是否也具有17,20-裂解酶活性,以及它是否在肾上腺水平催化脱氢表雄酮(DHEA)的形成。为了研究这一点,我们从仓鼠肾上腺文库中分离出P450C17的cDNA。对该cDNA进行测序后发现,其具有一个编码511个氨基酸的蛋白质的开放阅读框,而人类P450C17含有508个氨基酸。仓鼠P450C17 cDNA在编码区与人类P450C17 cDNA的同源性为76%。然后将该cDNA克隆到表达载体pSV-SPORT 1中,并瞬时转染到COS 1细胞中。将转染后的细胞用于对放射性标记的C21-δ5和C21-δ4前体转化的时间研究。当将转染后的细胞与[14C]孕烯醇酮一起孵育时,迅速形成了[14C]DHEA。中间产物17α-羟孕烯醇酮最初积累,随后代谢为DHEA。同样,当与C21-δ4-类固醇、[14C]孕酮和[3H]17α-羟孕酮一起孵育时,高效产生了17,20-裂解酶产物雄烯二酮。在这些研究中,就δ5途径而言,表达的仓鼠P450C17与插入相同表达载体中的牛P450C17 cDNA产生了相似的结果。然而,与将少量孕酮转化为雄烯二酮的牛酶不同,表达的仓鼠P450C17酶通过δ4途径表现出活跃的代谢。使用完全α-32P标记的仓鼠P450C17 cDNA作为探针进行的Northern印迹分析表明,P450C17 mRNA在仓鼠肾上腺中大量存在,在睾丸和卵巢中存在较少,而在脑、肠系膜和肾脏中未检测到。使用抗大鼠P450C17抗体进行的免疫印迹分析表明,P450C17蛋白存在于仓鼠肾上腺、睾丸和卵巢中。使用仓鼠肾上腺细胞悬液和微粒体制剂来证明从[14C]孕烯醇酮生物合成[14C]17α-羟孕烯醇酮和[14C]DHEA;在孵育过程中形成了这两种代谢产物。然而,肾上腺细胞中[14C]DHEA/[14C]17α-羟孕烯醇酮的比率远低于转染的COS 1细胞,这表明仓鼠肾上腺细胞中存在假定的因子,有利于17α-羟化酶活性而非17,20-裂解酶活性。总之,这些研究表明仓鼠肾上腺既是DHEA的产生者也是皮质醇的产生者,因此,这种动物可能是研究DHEA在人类生物化学和生理学中作用的合适的小动物模型。
