Clinical, Genetic, and Structural Basis of Apparent Mineralocorticoid Excess Due to 11β-hydroxysteroid Dehydrogenase Type 2 Deficiency

Overview

Journal Proc Natl Acad Sci U S A

Specialty Science

Date 2017 Dec 13

PMID 29229831

Citations 22

Authors

Mabel Yau

Shozeb Haider

Ahmed Khattab

Chen Ling

Mehr Mathew

Samir Zaidi

Madison Bloch

Monica Patel

Sinead Ewert

Wafa Abdullah

Aysenur Toygar

Vitalii Mudryi

Maryam Al Badi

Mouch Alzubdi

Robert C Wilson

Hanan Said Al Azkawi

Hatice Nur Ozdemir

Wahid Abu-Amer

Jozef Hertecant

Maryam Razzaghy-Azar

John W Funder

Aisha Al Senani

Li Sun

Se-Min Kim

Tony Yuen

Mone Zaidi

Maria I New

Affiliations

Soon will be listed here.

Abstract

Mutations in 11β-hydroxysteroid dehydrogenase type 2 gene () cause an extraordinarily rare autosomal recessive disorder, apparent mineralocorticoid excess (AME). AME is a form of low renin hypertension that is potentially fatal if untreated. Mutations in the gene result either in severe AME or a milder phenotype (type 2 AME). To date, ∼40 causative mutations have been identified. As part of the International Consortium for Rare Steroid Disorders, we have diagnosed and followed the largest single worldwide cohort of 36 AME patients. Here, we present the genotype and clinical phenotype of these patients, prominently from consanguineous marriages in the Middle East, who display profound hypertension and hypokalemic alkalosis. To correlate mutations with phenotypic severity, we constructed a computational model of the HSD11B2 protein. Having used a similar strategy for the in silico evaluation of 150 mutations of , the disease-causing gene in congenital adrenal hyperplasia, we now provide a full structural explanation for the clinical severity of AME resulting from each known missense mutation. We find that mutations that allow the formation of an inactive dimer, alter substrate/coenzyme binding, or impair structural stability of HSD11B2 yield severe AME. In contrast, mutations that cause an indirect disruption of substrate binding or mildly alter intramolecular interactions result in type 2 AME. A simple in silico evaluation of novel missense mutations could help predict the often-diverse phenotypes of an extremely rare monogenic disorder.

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