Clinical and Biochemical Phenotype Across the Genotypic Spectrum of 21-Hydroxylase Deficiency in 457 Individuals.

IF 5.1

The Journal of clinical endocrinology and metabolism Pub Date : 2025-10-06 DOI:10.1210/clinem/dgaf546

Qizong Lao, Annie Schulman, Sarah Kulkarni, Sarah Kollender, Daniella Bick, Amy Moon, Deepika Burkardt, Deborah P Merke

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Abstract

Context: Genetic testing for 21-hydroxylase deficiency (21OHD) is advantageous when hormonal testing is equivocal, to molecularly confirm diagnosis, and for genetic counseling.

Objectives: To characterize the clinical and biochemical phenotype across the genotypic spectrum of 21OHD in a large cohort using updated genetic methodology.

Design: Retrospective study of 457 individuals with 21OHD enrolled in a Natural History study at the NIH Clinical Center.

Results: The majority (79%) were compound heterozygous, 46% with chimeric alleles/30-kb deletions including 2.6% with attenuated chimeras, 10.1% with CAH-X (33% with cardiac defects) and 3.7% with genotype-phenotype discordance. The most common mutations among individuals with salt-wasting (SW), simple-virilizing (SV), and nonclassic (NC) phenotypes were In2G, I172N, and V281L respectively. Rare or novel mutations accounted for 4.3% alleles, 0.33% arose de novo. 17OHP levels at diagnosis varied by genotype group (Null>In2G> SV genotypes > P30L > Other NC; P<0.001); but maximum values obtained during clinical care over time were similar among all classic and among all NC genotypes. Individuals with P30L had higher 17OHP and lower cortisol at diagnosis compared to other NC genotypes (P<0.001) and were more likely to have basal 17OHP >1,000ng/dL (P<0.001). Individuals with cryptic NC had lower 17OHP post cosyntropin stimulation compared to those with symptomatic NC (P=0.02).

Conclusion: A continuum of disease phenotypes exists with biochemical overlap that increases with age. Improving genotype accuracy to include chimera subtyping to identify attenuated chimeras and CAH-X and consideration of P30L as a unique group are important to guide genetic counseling and provide anticipatory guidance in disease management.

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457例21-羟化酶缺乏症基因型谱的临床和生化表型

背景：基因检测21-羟化酶缺乏症（21OHD）是有利的，当激素检测是模棱两可的，分子确认诊断，遗传咨询。目的：利用最新的遗传方法，在一个大型队列中描述21OHD基因型谱的临床和生化表型。设计：在美国国立卫生研究院临床中心的一项自然史研究中，对457名21OHD患者进行回顾性研究。结果：大多数（79%）为复合杂合，46%为嵌合等位基因/ 30kb缺失，其中2.6%为减重嵌合体，10.1%为CAH-X（33%为心脏缺陷），3.7%为基因型-表型不一致。盐损耗型（SW）、单纯化型（SV）和非经典型（NC）个体中最常见的突变分别是In2G、I172N和V281L。罕见或新突变占4.3%，新突变占0.33%。诊断时的ohp水平因基因型组而异（Null>In2G> SV基因型> P30L > Other NC; p1000 ng/dL）结论：疾病表型连续存在，随着年龄的增长生化重叠增加。提高基因型准确性，包括嵌合体亚型，以识别减毒嵌合体和CAH-X，并考虑P30L作为一个独特的群体，对指导遗传咨询和提供疾病管理的预期指导很重要。

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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The Journal of clinical endocrinology and metabolism

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