Involvement of porcine and human carbonyl reductases in the metabolism of epiandrosterone, 11-oxygenated steroids, neurosteroids, and corticosteroids

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-06-28 DOI:10.1016/j.jsbmb.2024.106574
Satoshi Endo , Yoshifumi Morikawa , Koichi Suenami , Yuji Sakai , Naohito Abe , Toshiyuki Matsunaga , Akira Hara , Masaki Takasu
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Abstract

Porcine carbonyl reductases (pCBR1 and pCBR-N1) and aldo-keto reductases (pAKR1C1 and pAKR1C4) exhibit hydroxysteroid dehydrogenase (HSD) activity. However, their roles in the metabolism of porcine-specific androgens (19-nortestosterone and epiandrosterone), 11-oxygenated androgens, neurosteroids, and corticosteroids remain unclear. Here, we compared the steroid specificity of the four recombinant enzymes by kinetic and product analyses. In C18/C19-steroids,11-keto- and 11β-hydroxy-5α-androstane-3,17-diones were reduced by all the enzymes, whereas 5α-dihydronandrolone (19-nortestosterone metabolite) and 11-ketodihydrotestosterone were reduced by pCBR1, pCBR-N1, and pAKR1C1, of which pCBR1 exhibited the lowest (submicromolar) Km values. Product analysis showed that pCBR1 and pCBR-N1 function as 3α/β-HSDs, in contrast to pAKR1C1 and pAKR1C4 (acting as 3β-HSD and 3α-HSD, respectively). Additionally, 17β-HSD activity was observed in pCBR1 and pCBR-N1 (toward epiandrosterone and its 11-oxygenated derivatives) and in pAKR1C1 (toward androsterone, 4-androstene-3,17-dione and their 11-oxygenated derivatives). The four enzymes also showed different substrate specificity for 3-keto-5α/β-dihydro-C21-steroids, including GABAergic neurosteroid precursors and corticosteroid metabolites. 5β-Dihydroprogesterone was reduced by all the enzymes, whereas 5α-dihydroprogesterone was reduced only by pCBR1, and 5α/β-dihydrodeoxycorticosterones by pCBR1 and pCBR-N1. The two pCBRs also reduced the 5α/β-dihydro-metabolites of cortisol, 11-deoxycortisol, cortisone, and corticosterone. pCBR1 exhibited lower Km values (0.3–2.9 μM) for the 3-keto-C21-steroids than pCBR-N1 (Km=10–36 μM). The reduced products of the 3-keto-C21-steroids by pCBR1 and pCBR-N1 were their 3α-hydroxy-metabolites. Finally, we found that human CBR1 has similar substrate specificity for the C18/C19/C21-steroids to pCBR-N1. Based on these results, it was concluded that porcine and human CBRs can be involved in the metabolism of the aforementioned steroids as 3α/β,17β-HSDs.

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猪和人的羰基还原酶参与了表雄酮、11-氧代类固醇、神经类固醇和皮质类固醇的代谢。
猪羰基还原酶(pCBR1 和 pCBR-N1)和醛酮还原酶(pAKR1C1 和 pAKR1C4)具有羟类固醇脱氢酶(HSD)活性。然而,它们在孔雀特异性雄激素(19-去甲睾酮和表雄酮)、11-氧代雄激素、神经类固醇和皮质类固醇的代谢中的作用仍不清楚。在这里,我们通过动力学和产物分析比较了四种重组酶的类固醇特异性。在C18/C19-类固醇中,11-酮和11β-羟基-5α-雄甾烷-3,17-二酮被所有酶还原,而5α-二氢诺龙(19-去甲睾酮代谢物)和11-酮二氢睾酮被pCBR1、pCBR-N1和pAKR1C1还原,其中pCBR1的Km值最低(亚微摩尔)。产物分析表明,pCBR1 和 pCBR-N1 作为 3α/β-HSD 起作用,而 pAKR1C1 和 pAKR1C4 则不同(分别作为 3β-HSD 和 3α-HSD)。此外,在 pCBR1 和 pCBR-N1(针对表雄酮及其 11 氧衍生物)以及 pAKR1C1(针对雄甾酮、4-雄烯-3,17-二酮及其 11 氧衍生物)中观察到了 17β-HSD 活性。这四种酶对 3-酮-5α/β-二氢-C21-类固醇(包括 GABA 能神经类固醇前体和皮质类固醇代谢物)也表现出不同的底物特异性。所有酶都能减少 5β-二氢黄体酮,而只有 pCBR1 能减少 5α-二氢黄体酮,pCBR1 和 pCBR-N1 能减少 5α/β-二氢脱氧皮质酮。pCBR1 对 3-酮-C21-类固醇的 Km 值(0.3-2.9μM)低于 pCBR-N1(Km=10-36μM)。pCBR1 和 pCBR-N1 对 3-酮-C21-类固醇的还原产物是它们的 3α-羟基代谢物。最后,我们发现人 CBR1 对 C18/C19/C21 类固醇的底物特异性与 pCBR-N1 相似。基于这些结果,我们得出结论:猪和人的 CBR 可作为 3α/β,17β-HSD,参与上述类固醇的代谢。
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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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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