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

IF 2.7 2区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Journal of Steroid Biochemistry and Molecular Biology 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) K_m 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 K_m values (0.3–2.9 μM) for the 3-keto-C₂₁-steroids than pCBR-N1 (K_m=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。

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来源期刊

Journal of Steroid Biochemistry and Molecular Biology 生物-内分泌学与代谢

CiteScore

8.60

自引率

2.40%

发文量

113

审稿时长

46 days

期刊介绍： The Journal of Steroid Biochemistry and Molecular Biology is devoted to new experimental and theoretical developments in areas related to steroids including vitamin D, lipids and their metabolomics. The Journal publishes a variety of contributions, including original articles, general and focused reviews, and rapid communications (brief articles of particular interest and clear novelty). Selected cutting-edge topics will be addressed in Special Issues managed by Guest Editors. Special Issues will contain both commissioned reviews and original research papers to provide comprehensive coverage of specific topics, and all submissions will undergo rigorous peer-review prior to publication.