CYP21 gene mutation analysis in 198 patients with 21-hydroxylase deficiency in The Netherlands: six novel mutations and a specific cluster of four mutations

Congenital adrenal hyperplasia (CAH) due to 21-hydroxylase deficiency is one of the most common autosomal recessive disorders. The aim of this study was to assess the frequencies of CYP21 mutations and to study genotype-phenotype correlation in a large population of Dutch 21-hydroxylase deficient patients. From 198 patients with 21-hydroxylase deficiency, 370 unrelated alleles were studied. Gene deletion/conversion was present in 118 of the 370 alleles (31.9%). The most frequent point mutations were I2G (28.1%) and I172N (12.4%). Clustering of pseudogene-derived mutations in exons 7 and 8 (V281L-F306 + 1nt-Q318X-R356W) on a single allele was found in seven unrelated alleles (1.9%). This cluster had been reported before in two other Dutch patients and in two patients in a study from New York, but not in other series worldwide. Six novel mutations were found: 995-996insA, 1123delC, G291R, S301Y, Y376X, and R483Q. Genotype-phenotype correlation (in 87 well documented patients) showed that 28 of 29 (97%) patients with two null mutations and 23 of 24 (96%) patients with mutation I2G (homozygous or heterozygous with a null mutation) had classic salt wasting. Patients with mutation I172N (homozygous or heterozygous with a null or I2G mutation) had salt wasting (2 of 17, 12%), simple virilizing (10 of 17, 59%), or nonclassic CAH (5 of 17, 29%). All six patients with mutation P30L, V281L, or P453S (homozygous or compound heterozygous) had nonclassic CAH. The frequency of CYP21 mutations and the genotype-phenotype correlation in 21-hydroxylase deficient patients in The Netherlands show in general high concordance with previous reports from other Western European countries. However, a cluster of four pseudogene-derived point mutations on exons 7 and 8 on a single allele, observed in almost 2% of the unrelated alleles, seems to be particular for the Dutch population and six novel CYP21 gene mutations were found.     

Three novel mutations in CYP21 gene in Brazilian patients with the classical form of 21-hydroxylase deficiency due to a founder effect

Three different new mutations were found after CYP21 gene sequencing in three unrelated patients with the classical form of the 21-hydroxylase deficiency. These mutations were also screened in their affected relatives. In one patient and her brother, both affected with the simple virilizing form and in their aunt, with the nonclassical form, an AG>GG transition was found in the acceptor site of intron 2. In another patient with the salt wasting form, we found a 1003 1004 insA, in exon 4, that altered the reading frame and created a stop codon in codon 297. In the third patient and his sister, we found a C>T transition in codon 408. This transition led to the substitution of arginine by cysteine (R408C) in a conserved region where arginine is conserved in at least four different species. These siblings with the R408C mutation, both affected with the salt wasting form, have the IVS2-13A/C>G mutation in the other allele, suggesting that the R408C should lead to complete impairment of enzymatic activity. To rule out the possibility of polymorphism, R408C was screened through allele specific PCR, and it was not found in 100 normal alleles. The screening of these three new mutations by allele-specific PCR or enzymatic restriction in 212 CAH patients disclosed their presence in 2.3% (9/387) of the alleles. All three new mutations were found in compound heterozygous state with previously known mutations. Microsatellite studies, using markers flanking CYP21 gene, revealed that each new mutation presents the same haplotype, suggesting a gene founder effect, similar to what was previously observed with the G424S mutation also described in our population. Although microconversion events are the main cause of mutations in the CYP21 gene, random mutations with a common origin can also be the cause of 21-hydroxylase deficiency.     

Molecular analysis in X-linked adrenoleukodystrophy patients: identification of a novel mutation

X linked adrenoleukodystrophy (X-ALD) is a neurodegenerative disease characterized by progressive demyelination of the central nervous system, adrenocortical insufficiency and elevated levels of very long chain fatty acids (VLCFAs). It is caused by mutations in ABCD1 gene located at Xq28. More than 1,300 mutations have been identified to date which is unique to each patient. In this study we report the mutational analysis of 2 X-ALD patients (1 male and 1 female) showing variable clinical spectrum. The mutation analysis of the female patient revealed IVS5-6delC (c.1489-6delC) and p. P543L variations in compound heterozygous state. The male patient was found to be hemizygous for a novel mutation, p. R104P. In conclusion, while defining a novel mutation, the cases presented herein may contribute to the mutation and clinical spectrum of X-ALD.     

Genetic analysis of Japanese patients with 21-hydroxylase deficiency: identification of a patient with a new mutation of a homozygous deletion of adenine at codon 246 and patients without demonstrable mutations within the structural gene for CYP21

Congenital adrenal hyperplasia due to 21-hydroxylase deficiency is one of the most common inherited metabolic diseases. We studied 52 Japanese 21-hydroxylase deficiency patients corresponding to 49 families (98 chromosomes) to detect the mutations in 21-hydroxylase genes using Southern blotting, PCR-restriction fragment length polymorphism, and a direct sequencing method. Among the 52 patients (49 families), 35 patients (33 families) were diagnosed as the salt-wasting type, 12 (12 families) as the simple virilizing type, and 5 (4 families) as the nonclassical type. Our findings were as follows. 1) The complete genotype that had homozygous or compound heterozygous mutations was determined in 43 of 49 families (87.8%). Among the remaining patients, no mutation was found in the structural gene of either allele in 3 cases, and a mutation was detected in only 1 allele in 3 cases. This means that at least 9 of 98 alleles have some unusual mutations or recombinations that we cannot detect by our method or gene defects outside of the structural gene. 2) Although the common mutation of Caucasian nonclassical patients is V281L, none of our 4 nonclassical families showed this mutation, and 3 of them had the P30L mutation at least on 1 allele. 3) We identified a putative new mutation, homozygous deletion of adenine at codon 246, in a salt-wasting patient. Although we have not analyzed the functional consequence of this mutation, it causes substitution noncoding for Met(256) in exon 7 and premature termination of the mRNA before the heme-binding region of the P450 polypeptide, which would result in a completely nonfunctional enzyme.     

Novel intronic CYP21A2 mutation in a Japanese patient with classic salt-wasting steroid 21-hydroxylase deficiency

Congenital adrenal hyperplasia due to steroid 21-hydroxylase deficiency (21-OHD) is an autosomal recessive disorder caused by the defective CYP21A2 gene that leads to various degrees of impaired secretion of both cortisol and aldosterone. In the present study, we analyzed the CYP21A2 gene in a Japanese male patient with 21-OHD and functionally characterized the mutant CYP21A2 gene. The patient presented with hypoglycemia and a salt-losing crisis during the neonatal period, and was diagnosed as having the salt-wasting form of 21-OHD based on the clinical and laboratory findings. Analysis of the CYP21A2 gene revealed that the patient is homozygous for a novel C to A conversion at −9 position of intron 9 (IVS9-9C>A) and that his parents are heterozygous for the IVS9-9C>A mutation. Transient expression of the IVS9-9C>A mutant CYP21A2 gene in COS-1 cells demonstrated that the mutation creates an aberrant splice acceptor site at −7 position of intron 9 and totally inactivates the authentic splice acceptor site of intron 9, which results in complete deficiency of 21-hydroxylase activity and loss of immunoreactive 21-hydroxylase protein. Clinical presentations of the patient as the severe salt-wasting form of 21-OHD are in good agreement with these results of the expression study. In conclusion, the patient is a homozygote for the novel intronic IVS9-9C>A mutation, which affects messenger RNA splicing and totally inactivates 21-hydroxylase to give rise to clinically manifest classic salt-wasting 21-OHD.     

Mutation prevalence among 47 unrelated Japanese patients with Gaucher disease: identification of four novel mutations

Utilizing PCR and PCR-SSCP analysis we investigated the prevalence of glucocerebrosidase gene mutations in 47 unrelated Japanese patients with Gaucher disease. Sixty alleles (63.8%) and 20 alleles (21.3%) were identified by analysis for common mutations and PCR-SSCP analysis, respectively. The L444P and F213I mutations were common, accounting for 41 alleles (43.6%) and 14 alleles (14.9%). R496C, D409H, S366G and 1447-1466 del ins TG mutations were identified in 5, 3, 3 and 3 alleles, respectively. The other mutations were unique. In spite of vigorous screening, 14 alleles (14.9%) could not be identified. Four novel mutations were identified by PCR-SSCP analysis: G189V, S366G, K413Q and R433G. These data indicate that besides the L444P mutation no other frequent mutation is present and there is broad heterogeneity of the glucocerebrosidase gene mutations in Japanese patients with Gaucher disease.     

H28+C insertion in the CYP21 gene: a novel frameshift mutation in a Brazilian patient with the classical form of 21-hydroxylase deficiency.

In the classical form of 21-hydroxylase deficiency, CYP21- affected genes either carry mutations present in the CYP21P pseudogene (microconversions) or bear a chimeric gene that replaces the active gene as a result of large conversion or deletion mutational events. Previous genotyping of 41 Brazilian patients revealed 64% microconversion, whereas deletions and large gene conversions accounted for up to 21% of the molecular defect. The present paper describes a new mutation disclosed by sequencing an entire gene in which no pseudogene-originated mutation had been found. The patient with the classical form of 21-hydroxylase deficiency is the daughter of a consanguineous marriage, and she is homozygous for a novel frameshift H28+C within exon 1. The mutation causes a stop codon at amino acid 78. Both parents are heterozygous for the mutation as confirmed by allele-specific oligonucleotide PCR. The H28+C is not present in the published CYP21P sequences and is likely to result in an enzyme with no activity.     

A novel missense mutation, GLY424SER, in Brazilian patients with 21-hydroxylase deficiency.

A previous screening of 17 mutations in 130 Brazilian patients with congenital adrenal hyperplasia due to 21-hydroxylase deficiency did not identify mutations in 20% of the alleles. To diagnose these alleles we sequenced the entire CYP21 gene of one Mulatto patient with the simple virilizing form, who had only the R356W mutation in a heterozygous state. We identified a heterozygous G-A transition in codon 424. This mutation leads to a substitution of glycine by serine in a conserved region where glycine is conserved in at least 4 species. This novel mutation eliminates 1 of the restriction sites of the BanI enzyme, which made its screening possible for the whole series. The G424S mutation was found in a compound heterozygous state in 5 families; 4 presented the simple virilizing form, and 1 presented the nonclassical form. Interestingly, 3 of 5 families have a Mulatto origin. This mutation was not identified in 118 CYP21 alleles of normal individuals, ruling out the possibility of a polymorphism, or in 80 pseudogenes, indicating a casual mutagenic event and not a microconversion event. All patients with the G424S mutation presented CYP21P and C4A gene deletions and human leukocyte antigen DR17 on the same haplotype, suggesting a linkage disequilibrium and a probable founder effect. Search for the G424S mutation in other populations will reveal whether it is restricted to the Brazilian patients or if it has a wider ethnic distribution.     

Analysis of CYP21A2 gene mutation and phenotype in patients with 21-hydroxylase deficiency

<正>Objective To investigate the spectrum of CYP21A2gene mutation and the correlation between genotype and phenotype in patients with 21-hydroxylase deficiency in Tianjin and surrounding areas. Methods Genomic DNA was extracted from the peripheral blood samples of the proband. Locus-specific PCR,direct sequencing of PCR     

Three novel CYP21A2 mutations and their protein modelling in patients with classical 21-hydroxylase deficiency from northeastern Iran

OBJECTIVE: Congenital adrenal hyperplasia (CAH) refers to a group of autosomal recessive disorders frequently caused by mutations in the steroid 21-hydroxylase gene (CYP21A2). We describe three novel CYP21A2 mutations in CAH patients. DESIGN AND METHODS: Sequence analysis of the entire CYP21A2 gene followed by molecular modelling was performed in three unrelated classical CAH patients of northeastern Iranian origin. The active (CYP21A2) and pseudogene (CYP21A1P) alleles were screened for the presence of the new variations in controls. RESULTS: Two novel missense mutations, F404S in exon 9 and T450P in exon 10, were found in homozygous forms in two female patients with a salt-wasting (SW) phenotype. These novel variants were screened by allele-specific polymerase chain reaction (PCR) and excluded in 100 unrelated normal alleles. Prediction of clinical severity, based on molecular modelling and sequence conservation, correlates well with the clinical diagnosis of the patients carrying these mutations. The third novel mutation, a small 10-bp deletion in exon 1, g.19_28del, was found in a female patient with a simple virilizing phenotype in a compound heterozygous form with the common intron 2 splice mutation (IVS2-13A/C>G). This frameshift mutation causes a premature stop codon at amino acid position 48, L48X, resulting in a nonfunctional protein. The CYP21A1P pseudogene alleles were also screened and none of these novel mutations could be detected. CONCLUSIONS: Three novel mutations were found in the CYP21A2 gene and predicted to drastically impair enzyme activity resulting in severe classic CAH. None of these mutations occurs in the CYP21A1P pseudogene.     

The prevalence of 21-hydroxylase deficiency in adrenal incidentalomas - hormonal and mutation screening.

The aim of the present study was to evaluate and compare the response of 17 OHP to ACTH stimulation in patients with various types of adrenal incidentalomas and to examine the occurence of germline CYP21 mutation in these patients. SUBJECTS AND METHODS: 40 patients (27 females, 13 males) with unilateral and bilateral masses were screened for fi ve most common mutations of the CYP21 in peripheral blood DNA samples. A hormonal evaluation, i.e. baseline plasma values of 17OHP, DHEAS as well as plasma 17OHP and DHEA after ACTH stimulation, was performed in all patients. 21 of them had unilateral adrenal adenoma, 13 patients had adrenal hyperplasia (six of them unilateral) and 6 patients had CT characteristics of other tumors (myelolipomas, cysts, adrenocortical carcinoma). RESULTS: There were no significant differences in plasma 17OHP, DHEAS and plasma cortisol between all three groups. Stimulated plasma values of DHEA and 17OHP after ACTH administration were significantly higher in patients with adenomas (p < 0.05 and p < 0.01) and with hyperplasia (p < 0.05 and p < 0.05) compared with those with other tumors. An exaggerated response of 17 OHP was found in 5 (12 % ) patients. However, mutation screening in peripheral blood samples revealed no CYP21 mutation in all examined groups. SUMMARY: Although 12 % of patients with adrenal incidentalomas had an exaggerated response of 17 OHP after ACTH administration indicating a possible 21-hydroxylase deficiency, these findings are not associated with CYP21 mutation estimated in peripheral blood samples. There was found no germline CYP21 mutation in all patients with various adrenal incidentalomas.     

Mutational spectrum of the steroid 21-hydroxylase gene in Austria: identification of a novel missense mutation

This study attempted an analysis of the mutational spectrum of 21-hydroxylase deficiency in 79 unrelated Austrian patients with classical and nonclassical forms of congenital adrenal hyperplasia and their respective 112 family members. Apparent large gene deletions/conversions were present in 31% of the 158 unrelated congenital adrenal hyperplasia alleles, whereas the most frequent point mutations were intron 2 splice (22.8%), I172N (15.8%), V281L (12%), and P30L (7.6%), in line with the frequencies reported for other countries. In 5 of the 12 congenital adrenal hyperplasia alleles carrying a P30L mutation the aberration is based on a single base substitution, whereas the remaining 7 represent part of a CYP21B conversion (1 allele) or CYP21B/21A hybrid gene (6 alleles), the latter characterized by a junction site before intron 2 as indicated by Southern blot, PCR, and sequence analyses. Previously described mutations were not present in 1.2% of unrelated congenital adrenal hyperplasia alleles, including one female patient presenting with severe genital virilization. Sequence analysis of the complete functional 21-hydroxylase gene revealed an as yet undescribed mutation in exon 10-Arg(426)His, which has not yet been described to represent a common pseudogene sequence. In vitro expression experiments showed the Arg(426)His mutant to exhibit only low enzyme activity toward the natural substrate 17-hydroxyprogesterone corresponding to the degree of disease manifestation in the patient in whom it was found.     

High variability in CYP21A2 mutated alleles in Spanish 21-hydroxylase deficiency patients, six novel mutations and a founder effect

OBJECTIVE: To detect common as well as rare and novel CYP21A mutations in 21-hydroxylase deficiency patients. To estimate the distribution of mutations and compare them with other European studies. To construct haplotypes linked to a recurrent novel mutation. DESIGN: Genetic analysis by sequencing the entire CYP21A2 gene plus Southern blot. PATIENTS: A total of 138 unrelated Spanish patients: 122 nonclassical forms (NCF) and 16 classical forms (CF) were studied. RESULTS: Among the 266 nonrelated mutated alleles; CYP21A2 deletions/conversions and a spectrum of 27 different mutated alleles were found: 15 different single point mutations, 8 nucleotide deletions in exon 3, 3 mutation clusters in exon 6, 9 alleles with more than one mutation, one 21-nucleotide duplication in exon 10, and one allele with CYP21A2 duplicated and both copies mutated. The most frequent mutation in NCF alleles is V281L (71.8%). Among CFs, the most common is I2 g (20%) and Q318X (16%) and rare alleles (21.9%). Six novel causative mutations were found, four associated with CF: I46+1nt, R444X, P463L and M473_R479dup and two associated with NCF: W302 and D322G. The R444X mutation was found in seven unrelated patients and it appeared only once in an ancestral haplotype. In addition, we found a novel single nucleotide polymorphism with a 31.5% frequency for the rare allele. CONCLUSION: A great diversity of haplotypes with a large spectrum of mutated alleles was found. The frequency of the V281L mutation was the highest reported and the relatively high frequency of R444X was the result of a founder effect.     

Serum 21-Deoxycortisol, 17-Hydroxyprogesterone, and 11-deoxycortisol in classic congenital adrenal hyperplasia: clinical and hormonal correlations and identification of patients with 11beta-hydroxylase deficiency among a large group with alleged 21-hydroxylase deficiency

INTRODUCTION: 21-Hydroxylase deficiency (21OHD) is the most common cause of congenital adrenal hyperplasia, followed in frequency by 11beta-hydroxylase deficiency (11betaOHD). Although the relative frequency of 11betaOHD is reported as between 3 and 5% of the cases, these numbers may have been somewhat underestimated. MATERIALS AND METHODS: In 133 patients (89 females/44 males; 10 d-20.9 yr) with alleged classic 21OHD and five (three females/two males; 7.3-21 yr) with documented 11betaOHD, we measured serum 21-deoxycortisol (21DF), 17-hydroxyprogesterone (17OHP), and 11-deoxycortisol (S), 48 h after glucocorticoid withdrawal. We also studied 20 sex- and age-matched control subjects. Serum steroid levels were determined by RIA after HPLC purification. OBJECTIVES: The objectives of this study were to: 1) quantify 21DF in patients with congenital adrenal hyperplasia, 2) correlate hormonal with clinical data, and 3) identify possible misdiagnosed patients with 11betaOHD among those with 21OHD. RESULTS: In 21OHD, 17OHP (217-100,472 ng/dl) and 21DF (<39-14,105 ng/dl) were mostly elevated and positively correlated (r = 0.7202; P < 0.001). Except for higher 17OHP in pubertal patients, 17OHP and 21DF values were similar according to sex, disease severity, or prevailing glucocorticoid dose. One additional patient with 11betaOHD was detected (1%) and also one with apparent combined 11beta- and 21OHD. S levels were elevated in 11betaOHD and normal but significantly higher in 21OHD than in controls. CONCLUSION: To recognize patients with 21- and/or 11betaOHD, we recommend evaluation of 17OHP or 21DF and S. Also, 21DF may be useful to follow up pubertal patients with 21OHD. Because 1% of patients with alleged 21OHD may have 11betaOHD, its frequency seems underestimated, as per our experience in a Brazilian population.     

Multicentric study of Brazilian patients with 21-hydroxylase deficiency: a genotype-phenotype correlation

We analyzed the clinical and molecular data of 205 patients with the three different clinical forms of 21-hydroxylase deficiency, in whom the clinical and molecular diagnosis were already defined. The most frequent mutations were I2 splice in the salt wasting form, I172N in the simple virilizing and V281L in the nonclassical form, presenting similar frequencies as those observed in other populations. We found a lower frequency of 21-hydroxylase gene deletion, similar to that previously identified in Argentinean and Mexican populations. Five new mutations were described in our population: G424S, H28+C, Ins 1003 1004 A, R408C and IVS2-2A>G. The genotype was classified in three groups according to the impairment of enzymatic activity observed in vitro, Group A: 0-2%, Group B: 3-7% and Group C: >20%. Group A mutations correlated with the salt wasting form, the Group B with simple virilizing form and Group C with the non classical form. The severity of genotype showed a positive correlation with higher 17OH-progesterone and testosterone levels. The I2 splice mutation in homo or hemizygosis confers classical form phenotype with both salt wasting and simple virilizing forms, precluding the prediction of the clinical form through genotype in pre and neonatal diagnosis. The good genotype-phenotype correlation in patients with 21-hydroxylase deficiency shows the usefulness of genotype to predict the clinical form for genetic counseling, prenatal diagnosis and to confirm neonatal screening diagnosis, except in cases with I2 splice mutation.     

Molecular basis of antithrombin deficiency in four Japanese patients with antithrombin gene abnormalities including two novel mutations

We analyzed the antithrombin (AT) gene in four unrelated Japanese patients with an AT deficiency, and individually identified four distinct mutations in the heterozygous state. There were two novel mutations, 2417delT leading to a frameshift with a premature termination at amino acid -3 (FS-3Stop) and C2640T resulting in a missense mutation (Ala59Val). Previously reported mutations, T5342C (Ser116Pro) and T72C (Met-32Thr), were also found in the other two patients. To understand the molecular basis responsible for the AT deficiency in these patients, in vitro expression experiments were performed using HEK293 cells transfected with either wild type or respective mutant AT expression vector. We found that -3Stop-AT and -32Thr-AT were not secreted into the culture media, whereas 116Pro-AT and 59Val-AT were secreted normally. We further studied the heparin cofactor activity and the binding to heparin of each recombinant AT molecule. Ser116Pro mutation significantly impaired the binding affinity to heparin resulting in a reduced heparin cofactor activity. In contrast, we found that Ala59Val mutant AT unexpectedly showed a normal affinity to heparin, but severely impaired the heparin cofactor activity. Our findings suggested that FS-3Stop and Met-32Thr mutations are responsible for type I AT deficiency, whereas Ser116Pro and Ala59Val mutations contribute to type II AT deficiency, confirming that there were diverse molecular mechanisms of AT deficiency depend upon discrete AT gene abnormalities as reported previously.