类固醇17-羟化酶和17,20-裂解酶缺乏症，遗传学与药理学

Steroid 17-hydroxylase and 17,20-lyase deficiencies, genetic and pharmacologic.

作者信息

Auchus Richard J

机构信息

Division of Metabolism, Endocrinology, and Diabetes, Department of Internal Medicine and Department of Pharmacology, University of Michigan, Rm. 5560A MSRBII, 1150 W Medical Center Drive, Ann Arbor, MI 48109, United States.

出版信息

J Steroid Biochem Mol Biol. 2017 Jan;165(Pt A):71-78. doi: 10.1016/j.jsbmb.2016.02.002. Epub 2016 Feb 6.

DOI:10.1016/j.jsbmb.2016.02.002

PMID:26862015

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4976049/

Abstract

Steroid 17-hydroxylase 17,20-lyase (cytochrome P450c17, P450 17A1, CYP17A1) catalyzes two major reactions: steroid 17-hydroxylation followed by the 17,20-lyase reactions. The most severe mutations in the cognate CYP17A1 gene abrogate all activities and cause combined 17-hydroxylase/17,20-lyase deficiency (17OHD), a biochemical phenotype that is replicated by treatment with the potent CYP17A1 inhibitor abiraterone acetate. The adrenals of patients with 17OHD synthesize 11-deoxycorticosterone (DOC) and corticosterone but no 19-carbon steroids, similar to the rodent adrenal, and DOC causes hypertension and hypokalemia. Loss of 17,20-lyase activity precludes sex steroid synthesis and leads to sexual infantilism. Rare missense CYP17A1 mutations minimally disrupt 17-hydroxylase activity but cause isolated 17,20-lyase deficiency (ILD), Mutations in the POR gene encoding the required cofactor protein cytochrome P450-oxidoreductase causes a spectrum of disease from ILD to 17OHD combined with 21-hydroxylase and aromatase deficiencies, sometimes including skeletal malformations. Mutations in the CYB5A gene encoding a second cofactor protein cytochrome b also selectively disrupt 17,20-lyase activity and cause the purest form of ILD. The clinical manifestations of these conditions are best understood in the context of the biochemistry of CYP17A1.

摘要

类固醇17α-羟化酶/17,20-裂解酶（细胞色素P450c17、P450 17A1、CYP17A1）催化两个主要反应：类固醇17α-羟化反应，随后是17,20-裂解反应。同源CYP17A1基因中最严重的突变会消除所有活性，并导致联合17α-羟化酶/17,20-裂解酶缺乏症（17OHD），这种生化表型可通过用强效CYP17A1抑制剂醋酸阿比特龙治疗来重现。17OHD患者的肾上腺合成11-脱氧皮质酮（DOC）和皮质酮，但不合成19碳类固醇，这与啮齿动物的肾上腺相似，且DOC会导致高血压和低钾血症。17,20-裂解酶活性的丧失会妨碍性类固醇的合成，并导致性幼稚症。罕见的错义CYP17A1突变对17α-羟化酶活性的破坏最小，但会导致孤立性17,20-裂解酶缺乏症（ILD）。编码所需辅因子蛋白细胞色素P450氧化还原酶的POR基因中的突变会导致一系列疾病，从ILD到17OHD，同时伴有21-羟化酶和芳香化酶缺乏症，有时还包括骨骼畸形。编码另一种辅因子蛋白细胞色素b5的CYB5A基因中的突变也会选择性地破坏17,20-裂解酶活性，并导致最纯粹形式的ILD。在CYP17A1生物化学的背景下，这些病症的临床表现最容易理解。

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