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      Molecular Analysis of the CYP21 Gene and Prenatal Diagnosis in Families with 21-Hydroxylase Deficiency in Northeastern Iran

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          Abstract

          Objectives: A rapid and convenient approach for the detection of the most common CYP21 gene mutations in patients with congenital adrenal hyperplasia (CAH) with classical forms of 21-hydroxylase deficiency was used. In addition, a new semiquantitative strategy for the detection of del8-bp was designed. These procedures were used for prenatal diagnosis and genotype-phenotype correlation in northeastern Iran. Design: Molecular analysis of the CYP21 gene for the detection of the 9 most common mutations ( CYP21 gene deletion, P30L, i2g, del-8bp, I172N, E6 cluster, V281L, Q318X and R356W) was performed on 30 CAH patients and for prenatal diagnosis in 2 cases. Methods: Restriction fragment length polymorphism, amplification-created restriction sites, allele-specific polymerase chain reaction (PCR) and semiquantitative PCR were performed. Results: We characterized 90% of the CAH chromosomes. The most frequent mutations in the CYP21 gene were del-CYP21 (25%), I172N (22%) and i2g (15%). Unlike in other ethnic groups, there was no R356W mutation, however, a higher rate of del-8bp (10%) was found in our population. Wealso found 6 complex alleles in our patients. For 2 families prenatal CYP21 gene analysis resulted in the diagnosis of healthy fetuses and termination of dexamethasone treatment in the 15th week of gestation. Genotype-phenotype correlation was observed. The rate of homozygosity (50%) was greater than the predicted values due to the higher rate of parental consanguinity in our population. Conclusions: These molecular procedures proved to be sensitive and rapid for the detection of the most common mutations of the CYP21 gene and prenatal diagnosis. Increased 17-hydroxyprogesterone, found in neonatal CAH screening, can be confirmed by these mutation analyses.

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          Most cited references17

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          Congenital Adrenal Hyperplasia due to 21-Hydroxylase Deficiency

          P C White (2000)
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            Disease expression and molecular genotype in congenital adrenal hyperplasia due to 21-hydroxylase deficiency.

            Genotyping for 10 mutations in the CYP21 gene was performed in 88 families with congenital adrenal hyperplasia due to 21-hydroxylase deficiency. Southern blot analysis was used to detect CYP21 deletions or large gene conversions, and allele-specific hybridizations were performed with DNA amplified by the polymerase chain reaction to detect smaller mutations. Mutations were detected on 95% of chromosomes examined. The most common mutations were an A----G change in the second intron affecting pre-mRNA splicing (26%), large deletions (21%), Ile-172----Asn (16%), and Val-281----Leu (11%). Patients were classified into three mutation groups based on degree of predicted enzymatic compromise. Mutation groups were correlated with clinical diagnosis and specific measures of in vivo 21-hydroxylase activity, such as 17-hydroxyprogesterone, aldosterone, and sodium balance. Mutation group A (no enzymatic activity) consisted principally of salt-wasting (severely affected) patients, group B (2% activity) of simple virilizing patients, and group C (10-20% activity) of nonclassic (mildly affected) patients, but each group contained patients with phenotypes either more or less severe than predicted. These data suggest that most but not all of the phenotypic variability in 21-hydroxylase deficiency results from allelic variation in CYP21. Accurate prenatal diagnosis should be possible in most cases using the described strategy.
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              Newborn screening for congenital adrenal hyperplasia.

              Classic CAH (salt-wasting and simple virilizing) meets all of the recommended criteria for newborn screening. There are reliable and efficient newborn screening tests, the disorder results in high morbidity and mortality if left undetected, there is effective treatment that reduces negative outcomes, and there is a relatively high incidence. When compared with the case findings without the benefit of screening, the data from screening programs show reduced adrenal crises, reduced incorrect sex assignments, and reduced deaths. Racial/ethnic prevalence differences are present in newborn screening program data. The Texas data indicate a lower disease frequency in African-Americans when compared with Caucasians, and international data indicate higher frequencies in native Yupik Eskimos, Brazilians, residents of La Reunion, and Filipinos. When worldwide clinical ascertainment data are compared with newborn screenng data, it is clear that newborns with CAH (especially males) die when screening is not done. To be effective in reducing mortality, newborn screening must be performed soon after birth, and the results must be available quickly so that early salt-wasting crises can be averted. It is preferable that newborn screening laboratiories be operational 7 days a week, and that sample delivery from the collection site to testing laboratory be as efficient as possible, including weekends and holidays, so that undue testing delays are not encountered. These two requirements pose major challenges for most programs, but they are critical to optimal screening outcome. Based on the studies in Texas, with second screening samples collected at approximately 2 weeks of age, some newborns with simple virilizing CAH are missed on initial screening using current testing protocols. There is need to set a screening cut-off such that the false-positive rate does not oversaturate the follow-up system, in part owing to the insensitivity of current kit methodologies and the biochemical manifestations of CAH. With advances in genetic testing procedures and improved automation techniques, it may soon be possible for CAH screening programs to include genotyping as a second-tier confirmation as a part of the newborn screening protocol. Despite the fact that CAH is a continuum of disorders, the correlation between genotype and phenotype is fairly consistent in most cases. For the purpose of screening, genotyping will likely be useful only for differential diagnoses of non-salt wasters, given the necessary time constraints and expense of obtaining genotypes and the need for immediate diagnosis/treatment of salt wasters. It is hoped that newborn screening programs will begin to provide answers to some of these question in addition to their primary function of reducing the morbidity and mortality resulting from CAH.
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                Author and article information

                Journal
                HRE
                Horm Res Paediatr
                10.1159/issn.1663-2818
                Hormone Research in Paediatrics
                S. Karger AG
                1663-2818
                1663-2826
                2005
                April 2005
                27 April 2005
                : 63
                : 3
                : 119-124
                Affiliations
                aDivision of Endocrinology and Metabolism, Department of Pediatrics, Imam Reza Hospital, Mashhad University of Medical Sciences, and bDivision of Human Genetics, Immunology Research Center, Bu-Ali Research Institute, Mashhad University of Medical Sciences, Mashhad, Iran
                Article
                84570 Horm Res 2005;63:119–124
                10.1159/000084570
                15775714
                b53864ba-efdc-499d-b9c2-b33342ef5bc7
                © 2005 S. Karger AG, Basel

                Copyright: All rights reserved. No part of this publication may be translated into other languages, reproduced or utilized in any form or by any means, electronic or mechanical, including photocopying, recording, microcopying, or by any information storage and retrieval system, without permission in writing from the publisher. Drug Dosage: The authors and the publisher have exerted every effort to ensure that drug selection and dosage set forth in this text are in accord with current recommendations and practice at the time of publication. However, in view of ongoing research, changes in government regulations, and the constant flow of information relating to drug therapy and drug reactions, the reader is urged to check the package insert for each drug for any changes in indications and dosage and for added warnings and precautions. This is particularly important when the recommended agent is a new and/or infrequently employed drug. Disclaimer: The statements, opinions and data contained in this publication are solely those of the individual authors and contributors and not of the publishers and the editor(s). The appearance of advertisements or/and product references in the publication is not a warranty, endorsement, or approval of the products or services advertised or of their effectiveness, quality or safety. The publisher and the editor(s) disclaim responsibility for any injury to persons or property resulting from any ideas, methods, instructions or products referred to in the content or advertisements.

                History
                : 23 July 2004
                : 01 February 2005
                Page count
                Figures: 1, Tables: 3, References: 34, Pages: 6
                Categories
                Original Paper

                Endocrinology & Diabetes,Neurology,Nutrition & Dietetics,Sexual medicine,Internal medicine,Pharmacology & Pharmaceutical medicine
                21-Hydroxylase deficiency,Prenatal diagnosis,Polymerase chain reaction,Congenital adrenal hyperplasia

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