Molecular genotyping in Brazilian patients with the classical and nonclassical forms of 21-hydroxylase deficiency

The aim of our study was to determine, by allele-specific PCR, the frequency of point mutations in 130 Brazilian patients with the classical and nonclassical forms of 21-hydroxylase deficiency and to correlate genotype with phenotype. The most frequent mutations were 12 splice (41.8% in salt wasting), I172N (32.6% in simple virilizing), and V281L (40.2% in late onset form). The frequency of the 9 most common point mutations was similar to that reported for other countries, except for Del 8 nt and Cluster, which were less frequent in the classical form. Rarer mutations such as P453S, G291S, I7 splice, W405X, R483P, and R483-->frameshift were rarely found or were absent. The 93 fully genotyped patients were classified into 3 mutation groups, based on the degree of enzymatic activity (group A, <2%; group B, approximately 2%, and group C, >18%). In group A, 62% of the cases presented the salt wasting form; in group B, 96% the simple virilizing form; and in group C, 88% the late onset form. We diagnosed 80% of the affected alleles after screening for large rearrangements and 15 point mutations. The absence of previously described mutations in 20% of the affected alleles suggests the presence of new mutations in our population.     

Uniparental disomy for chromosome 6 results in steroid 21-hydroxylase deficiency: evidence of different genetic mechanisms involved in the production of the disease

Congenital adrenal hyperplasia (CAH) is an inherited recessive disorder of adrenal steroidogenesis caused by mutations in the steroid 21-hydroxylase gene (CYP21) in more than 90% of affected patients. The CYP21 gene is located within the HLA complex locus on chromosome 6 (6p21.3). During a molecular characterisation study of a group of 47 Mexican families with 21-hydroxylase deficiency, we identified nine in which the mutation or mutations found in the patient did not appear to originate from one of the parents. Through DNA fingerprinting, paternity was established in all nine families with a probability of non-paternity in the range of 10(-19) to 10(-23). Among these families, we identified one patient with exclusive paternal inheritance of all eight markers tested on chromosome 6p, despite normal maternal and paternal contributions for eight additional markers on three different chromosomes. We did not identify duplication of paternal information for markers in the 6q region, consistent with lack of expression of transient neonatal diabetes owing to genomic imprinting in this patient. Our results substantiate evidence for the existence of different genetic mechanisms involved in the expression of this recessive condition in a substantial portion (approximately 19%) of affected Mexican families. In addition to the identification of a patient with paternal uniparental disomy, the occurrence of germline mutations may explain the unusual pattern of segregation in the majority of the remaining eight families.     

Characterization of steroid 21-hydroxylase gene mutations in a oligosymptomatic form of congenital adrenal hyperplasia: family study

BACKGROUND: 21-hydroxilase deficiency accounts for over 90% of all cases of congenital adrenal hyperplasia (CAH). There is a non-negligible incidence of both severe and nonclassical forms of this genetic disorder. Enzyme deficiency is due to mutations in the gene encoding adrenal 21-hydroxylase (named CYP 21B) and is inherited in an autosomical recesive way. Complete or partial impairment of enzyme activity has been correlated with the different clinical forms of the disease. PATIENTS AND METHODS: In the present paper CYP 21B gene analysis results obtained in a family with two kindred affected by a nonclassical form of the disease are shown. Clinical assessment of these two kindred showed a very mild form of the disease, whereas biochemical results suggested a late-onset partial 21-hydroxylase deficiency. Genotyping for deletions and 10 point mutations in the CYP 21B gene was performed by Southern blot analysis and polymerase chain reaction (PCR) allele-specific oligonucleotide (ASO) hybridation technique. RESULTS: Molecular genetic analysis performed in the two affected patients and two further relatives allowed us to detect the presence of different mutations in the two alleles of the CYP 21B gene. One of these mutations was severe (655G) and came from maternal line, whereas the other was mild (Val281Leu) and originated in paternal line. CONCLUSION: Molecular genetic analysis allows the possibility of finding severe (and non-expected) mutations in patients with clinically mild and late-onset forms of the 21-hydroxylase deficiency.     

Molecular and genetic analysis of two patients with Bernard-Soulier syndrome--identification of new mutations in glycoprotein Ib alpha gene

We investigated two unrelated patients with Bernard-Soulier syndrome (BSS) by performing molecular and genetic analysis. A flow cytometric and immunoblotting analysis showed GP Ib alpha to be absent from the platelet membrane of both patients. Other glycoproteins that formed GP Ib/IX/V complex were present on the platelets, but in decreased amounts. Therefore, GP Ib alpha gene from both cases was sequenced after PCR amplification and subcloning. We identified a homozygous mutation of a dinucleotide deletion within the TGTG repeat at cDNA number 972 to 975 in GP Ib alpha gene from Case 1. In Case 2, compound heterozygosity was demonstrated in GP Ib alpha gene; an insertion of a single base (T) at cDNA number 1,418 in one allele, and a deletion of a single base (A) within the 7-adenine repeat at cDNA number 1,438 to 1,444 in another allele. The three new mutations in both patients appeared to cause a frameshift, which created a new termination codon shortly thereafter, and thus lead to a GP Ib alpha deficiency on the platelet membrane. Truncated mutant proteins could be detected in the plasma and platelets of Case 2, but not of Case 1. According to these findings, it is thus supposed that the properties and conformation of additional COOH-terminal peptides, which were supposedly synthesized as results of the mutations, may have an important role on the processing of mutant GP Ib alpha in megakaryocytes and platelets.     

Screening for germ-line rearrangements and regulatory mutations in BRCA1 led to the identification of four new deletions

Pogo is a transposable element with short terminal inverted repeats. It contains two open reading frames that are joined by splicing and code for the putative pogo transposase, the sequence of which indicates that it is related to the transposases of members of the Tc1/mariner family as well as proteins that have no known transposase activity including the centromere binding protein CENP-B. We have shown that the N-terminal region of pogo transposase binds in a sequence-specific manner to the ends of pogo and have identified residues essential for this. The results are consistent with a prediction that DNA binding is due to a helix-turn-helix motif within this region. The transposase recognises a 12 bp sequence, two copies of which are present at each end of pogo DNA. The outer two copies occur as inverted repeats 14 nucleotides from each end of the element, and contain a single base mismatch and indicate the inverted repeats of pogo are 26 nucleotides long. The inner copies occur as direct repeats, also with a single mismatch.     

Molecular basis of Refsum disease: identification of new mutations in the phytanoyl-CoA hydroxylase cDNA

OBJECTIVE: This study aimed to review the management of cerebrospinal fluid (CSF) fistulae in the setting of developmental inner ear deformity. STUDY DESIGN: The study design was a case review, close examination of preoperative radiology, and corresponding intraoperative images. TECHNIQUE: A definitive method of CSF fistula closure is described using previously known techniques used commonly in skull base surgery. CONCLUSIONS: The use of a multiple-level, reinforced wound closure technique is necessary to definitively close CSF fistulae in extreme inner ear deformity and to prevent further episodes of CSF leak and meningitis.     

Simultaneous analysis of various mutations on the 21-hydroxylase gene by multi-allele specific amplification and capillary gel electrophoresis

A detailed study is presented on the detection of various known point mutations using polymerase chain reaction (PCR) based multi-allele specific amplification (MASA) in conjunction with capillary gel electrophoresis (CGE) separation. The resulting PCR products, corresponding to the individual mutations, are labeled with ethidium bromide during CGE separation, and detected by laser-induced fluorescence. MASA proved to be a novel, fast and cost-effective method for simultaneous analysis of multiple known mutation sites, employing more than one allele specific primers in a single PCR reaction. It results in coexisting amplification of numerous DNA fragments differing in size, which are subsequently separated by CGE. In the present study, several point mutations were analyzed simultaneously by MASA-CGE on the 21-hydroxylase gene of a patient with congenital adrenal hyperplasia.     

Molecular diagnosis of salt wasting congenital adrenal hyperplasia, caused by deficit of 21-hydroxylase, in the Chilean population

BACKGROUND: The most frequent cause of congenital adrenal hyperplasia, manifested as virilization and salt wasting, is the deficit of 21-hydroxylase. This disease is originated by mutations of the gene CYP21 that codifies this enzyme, mostly recombination between this gene and its inactive pseudogene called CYP21P. AIM: To study the molecular origin of this enzyme deficiency in Chilean patients. PATIENTS AND METHODS: Twenty five patients with salt wasting congenital adrenal hyperplasia, that had 17-hydroxyprogesterone levels above 30 ng/ml, were studied. In all patients, a polymerase chain reaction (PCR) with selective primers was done with extracted genomic DNA, to amplify the active gene and specific primers for normal or mutated alleles (Allele-specific PCR). RESULTS: The affected allele was identified in 39 (78%) of the 50 chromosomes of the 25 patients. The higher frequency affected the ASIn2 in 26% of cases, followed by mutations Arg357Trp in 22% of cases and Gln319Stop in 12% and deletion in 12%. The identification of two affected alleles in a same patient was achieved in 17 cases (68%). The most frequent genotypes were homozygosity for ASIn2 (16%), homozygosity for Arg357Trp (12%) and the homozygote deletion of the gene in 12%. CONCLUSION: The most frequent mechanisms of genetic damage in this population of patients with salt wasting congenital adrenal hyperplasia due to deficiency of 21-hydroxylase were the mutations ASIn2 and Arg357Trp. This type of studies allows prenatal diagnosis and genetic counseling.     

Congenital adrenal hyperplasia presenting as massive adrenal incidentalomas in the sixth decade of life: report of two patients with 21-hydroxylase deficiency

Divergent recommendations exist regarding the evaluation of adrenal incidentalomas. Recent data have indicated a prevalence of adrenal tumors of 71% in nonclassical congenital adrenal hyperplasia (CAH) and unmasked heterozygotes. These data expand the differential diagnosis of such incidental tumors and substantially modify the approach to their evaluation. We present two patients, female pseudohermaphrodites with the simple virilizing form of CAH and 21-hydroxylase deficiency, who functioned successfully as married phenotypic males. Both came to medical attention in the sixth decade by virtue of massive adrenal incidentalomas encountered in the evaluation of recurrent urinary tract infections. Each had a 46, XX karyotype, no palpable testes, and markedly elevated baseline levels of 17-hydroxyprogesterone (17-OH Prog) of 6086 ng/dL and 6750 ng/dL. Both responded appropriately to dexamethasone suppression with reduction of 17-OH Prog, androgens and, in the second patient, ACTH to normal or near normal levels. Histologic and autopsy examination of the first patient's tumor and computed tomographic characteristics of the second revealed a benign adenoma and myelolipoma respectively. We extend and confirm previous recommendations that CAH be included in the differential diagnosis of adrenal incidentaloma and that baseline 17-OH Prog. levels be obtained, with ACTH stimulation if necessary, to diagnose the presence of nonclassical CAH.     

I. Adrenal cortex and steroid 21-hydroxylase autoantibodies in adult patients with organ-specific autoimmune diseases: markers of low progression to clinical Addison's disease

Adrenal cortex antibodies (ACA) were measured by immunofluorescence in 8840 adult patients with organ-specific autoimmune diseases without overt hypoadrenalism. Sixty-seven (0.8%) patients were ACA-positive, with the highest prevalence in those with premature ovarian failure (8.9%). Forty-eight ACA-positive and 20 ACA-negative individuals were enrolled into a prospective study. Antibodies to steroid 21-hydroxylases (21-OH), steroid 17 alpha-hydroxylase (17 alpha-OH) and cytochrome P450 side chain cleavage enzyme (P450scc) were measured by immunoprecipitation assay. Human leucocyte antigens D-related (HLA-DR) genotyping was also carried out and adrenal function assessed by ACTH test. On enrollment, 75% of ACA-positive patients had a normal adrenal function, while 25% revealed a subclinical hypoadrenalism. 21-OH antibodies were positive in 91% of ACA-positive sera. Eleven patients were positive for steroid-cell antibodies by immunofluorescence, and 9 revealed a positivity for antibodies to 17 alpha-OH and/or P450scc. During the prospective study, overt Addison's disease developed in 21% and subclinical hypoadrenalism in 29% of ACA-positive patients, while 50% maintained normal adrenal function. Progression to Addison's disease was more frequent in patients with subclinical hypoadrenalism, high titers of ACA and higher levels of 21-OH antibodies, complement-fixing ACA and HLA-DR3 status. All 20 persistently ACA-negative patients were also negative for antibodies to 21-OH, 17 alpha-OH, and P450scc, and all maintained normal adrenal function during follow-up. In conclusion, the detection of ACA/21-OH antibodies in adults is a marker of low progression toward clinical Addison's disease.     

Molecular, genetic, and functional analysis of homozygous C8 beta-chain deficiency in two siblings

C8 deficiency is associated with an increased susceptibility to neisserial infections. We present a case of an 11 year old boy who suffered from infection with Neisseria meningitidis. Medical history of the patient and his family (n = 5) did not indicate any previous immunodeficiency symptoms. Results from the analysis of phagocyte and lymphocyte functions were within the normal range. No hemolytic activities of the classical (CH50) and the alternative (APH50) pathways of complement were measurable, and SC5b-9 protein complexes could not be detected in the patient's plasma. Further analysis by highly sensitive ELISA and functional assays revealed a complete deficiency of C8. Upon the reconstitution with purified C8 total hemolytic activity could be restored. SDS-PAGE and Western blot analysis established a deficiency of the C8 beta chain. Genetic analysis at the genomic DNA level demonstrated the common C-T mutation in exon 9 of the C8B gene. Family analysis presented the older sister with non-detectable function of C8 in serum, both parents with about half-normal C8 titres, and the younger sister with normal C8 function. The parents and both sisters were asymptomatic, although the older of the sisters presented with the same complete C8 beta-chain deficiency as the patient described. In conclusion: the common C-T mutation in the C8B genes is the genetic basis of C8 beta-chain deficiency in two members of this Bosnian family.     

The prevalence and biometric structure of pathological dissociation in the general population: taxometric and behavior genetic findings

Taxometric and biometric analyses were conducted on 2 North American samples to investigate the prevalence and biometric structure of pathological dissociation. Results indicated that approximately 3.3% of the general population belongs to a pathological dissociative taxon. A brief 8-item self-report scale called the DES-T can be used to calculate taxon membership probabilities in clinical and nonclinical samples of adults (a SAS scoring program is provided for this purpose). The genetic and environmental architecture of pathological dissociative symptoms was explored by conducting a biometric analysis on DES-T ratings from 280 identical and 148 fraternal twins. The findings suggest that approximately 45% of the observed variance on the DES-T can be attributed to shared environmental influences. The remaining variance is due to nonshared environmental influences.     

Iron deficiency and anaemia in children with a high prevalence of haemoglobinopathies: implications for screening

BACKGROUND: Haemoglobin (Hb) concentration is used as a sole test for iron deficiency anaemia (IDA) in most developing countries since most anaemia is believed to be due to iron deficiency and confirmatory testing is generally unavailable. Yet the validity of this approach in regions where haemoglobinopathies are endemic has not been documented. METHODS: Haemoglobin and serum ferritin (SF) were measured in 559 Northern Thai children aged 6 months to 13 years of age. The sensitivity of SF to identify iron deficiency was also assessed in a subsample of children with low or low-normal Hb and normal SF by testing the Hb response to a trial of oral iron. RESULTS: While anaemia was common (27%), IDA constituted 19% and none of all anaemia in preschool and school age children, respectively (P < 0.002). Iron depletion was similarly more prevalent in younger children (P < 0.002). Children with IDA were younger (P < 0.001) and the anaemia more severe (P < 0.0001) compared to those with non-IDA. Of anaemic children with normal SF values who received a therapeutic trial of iron, only 6% responded with an increase in Hb of > or = 1 g/dl. CONCLUSIONS: For populations such as ours most anaemia is not due to iron deficiency and a single Hb determination is therefore not acceptable for a presumptive diagnosis of IDA.     

Molecular genetic analysis of TUB18 and TUB20 intragenic polymorphism and various mutations of the CFTR gene in the Moscow region

Allelic frequencies of two intron polymorphisms in the cystic fibrosis transmembrane regulator (CFTR) gene, TUB18 and TUB20, were estimated on chromosomes of 67 cystic fibrosis patients and on that of 37 healthy donors from Moscow and the Moscow oblast. Allele 2 of the TUB 18, and allele 1 of the TUB20 were 2.1 and 1.5 times more frequent on the non-delta F508 chromosomes of the cystic fibrosis patients than on chromosomes of healthy donors, i.e. these alleles were in linkage disequilibrium with the CFTR gene. Allele 1 of the TUB18 marker and allele 2 of the TUB20 marker demonstrated absolute linkage disequilibrium with the delta F508 mutation of the CFTR gene. The degree of association between the TUB18 and TUB20 intron polymorphisms and the GATT and T854T intragenic polymorphisms was analyzed. Of all 62 delta F508 chromosomes tested, 98.3% shared the 2-1-1-2 GATT- T854T-TUB18-TUB20 haplotype. Eight major (more frequent) GATT-T854T-TUB18-TUB20 haplotypes were found in 89.5% of normal, and in 97.9% of non-delta F508 chromosomes of cystic fibrosis patients from the Moscow region. Three of these major haplotypes, 2-1-1-2, 1-2-2-1, and 2-2-1-2, were respectively 2.5, 2, and 1.5 times more frequent on non-delta F508 cystic fibrosis chromosomes than on normal chromosomes. Data on screening for the G542X, N1303K, and 394delTT mutations of the CFTR gene, carried out on 134 chromosomes of cystic fibrosis patients from the Moscow region are presented. The frequencies of the G542X and 394delTT mutations were estimated as 1.5%, while the frequency of the N1303K mutation was 2.2%.     

Molecular basis of hereditary fructose intolerance in Italy: identification of two novel mutations in the aldolase B gene

We screened the aldolase B gene in 14 unrelated Italian patients with hereditary fructose intolerance (HFI), and found two novel disease related mutations: a single nucleotide deletion in exon 2 (delta A20) that leads to an early stop codon, and a C-->T transition in exon 8 that substitutes an Arg with a Trp residue at codon 303 (R303W).     

Human hypertension caused by mutations in the 11 beta-hydroxysteroid dehydrogenase gene: a molecular analysis of apparent mineralocorticoid excess

CONVERSION OF CORTISOL TO CORTISONE: 11 beta-Hydroxysteroid dehydrogenase (11 beta-HSD) is a microsomal enzyme complex which, in humans, catalyses the interconversion between biologically active cortisol and inactive cortisone. This prereceptor signalling mechanism is essential for maintaining the aldosterone selectivity of the intrinsically non-specific mineralocorticoid receptor and for modulating glucocorticoid access to the glucocorticoid receptor. Apparent mineralocorticoid excess (AME) is a syndrome of severe low-renin mineralocorticoid hypertension associated with marked hypokalaemia which arises from a congenital deficiency of 11 beta-HSD. In AME patients, therefore, it is cortisol and not aldosterone which behaves as a potent mineralocorticoid. ISOFORMS OF 11 BETA-HSD: Two isoforms of human 11 beta-HSD have now been characterized and cloned. The type 1 isoform (11 beta-HSD1) is a low-affinity reduced nicotinamide adenine dinucleotide phosphate (NADP) dependent dehydrogenase-oxoreductase which is expressed in predominantly glucocorticoid target tissues and the encoding sequence of which is normal in patients with AME. In contrast, the type 2 isoform (11 beta-HSD2) is a high-affinity NADP-dependent unidirectional dehydrogenase which is expressed in placenta and mineralocorticoid target tissues such as renal collecting ducts and distal colonic epithelia. Exon- and intron-specific polymerase chain reaction amplification of the 11 beta-HSD2 gene from genomic DNA from members of a consanguinous kindred with AME consistently revealed a single missense mutation (C1228T) in two affected sibs and twin stillbirths. This mutation in codon 374 of exon 5 of the 11 beta-HSD2 gene creates an inframe premature stop (TGA) and, as such, results in a truncated 11 beta-HSD2 protein lacking the carboxyl-terminal proline-rich 32 amino acids. In keeping with an autosomal recessive mode of inheritance, both parents were phenotypically and biochemically normal but were heterozygous for this mutation. Unique to this kindred were expression analyses of the native mutant 11 beta-HSD2 enzyme in the stillbirth-affected placenta, which was almost completely devoid of NADP-dependent 11 beta-dehydrogenase activity. Immunohistochemical and Western blot analyses revealed the absence of 11 beta-HSD2 protein using antisera raised against synthetic peptide sequences corresponding either to the carboxyl terminus or other domains of the enzyme. MISSENSE MUTATION: In this kindred with AME, congenital deficiency of 11 beta-HSD activity is due to a single missense mutation in exon 5 of the 11 beta-HSD2 gene. Simultaneous studies by two other groups have similarly revealed no gross deletions or rearrangements of the 11 beta-HSD2 gene, but have described a number of single point mutations and oligonucleotide deletions in exons 3, 4 and 5, and adjacent to a splice site in intron 3. Recombinant expression analysis of site-directed mutant 11 beta-HSD2 complementary DNA constructs suggests a correlation between the predicted severity of these mutations and the biochemical and clinical phenotype. AME AS A CAUSE OF HYPERTENSION: The mutations in the 11 beta-HSD2 gene, together with those currently being sought by us for other kindreds with AME, establishes AME as a monogenic cause of human hypertension and will provide insight into the structure-function relationships of this important enzyme.     

Mutation analysis of the RSK2 gene in Coffin-Lowry patients: extensive allelic heterogeneity and a high rate of de novo mutations

Coffin-Lowry syndrome (CLS) is an X-linked disorder characterized by severe psychomotor retardation, facial and digital dysmorphisms, and progressive skeletal deformations. By using a positional cloning approach, we have recently shown that mutations in the gene coding for the RSK2 serine-threonine protein kinase are responsible for this syndrome. To facilitate mutational analysis, we have now determined the genomic structure of the human RSK2 gene. The open reading frame of the RSK2 coding region is split into 22 exons. Primers were designed for PCR amplification of single exons from genomic DNA and subsequent single-strand conformation polymorphism analysis. We screened 37 patients with clinical features suggestive of CLS. Twenty-five nucleotide changes predicted to be disease-causing mutations were identified, including eight splice-site alterations, seven nonsense mutations, five frameshift mutations, and five missense mutations. Twenty-three of them were novel mutations. Coupled with previously reported mutations, these findings bring the total of different RSK2 mutations to 34. These are distributed throughout the RSK2 gene, with no clustering, and all but two, which have been found in two independent patients, are unique. A very high (68%) rate of de novo mutations was observed. It is noteworthy also that three mutations were found in female probands, with no affected male relatives, ascertained through learning disability and mild but suggestive facial and digital dysmorphisms. No obvious correlation was observed between the position or type of the RSK2 mutations and the severity or particular clinical features of CLS.     

Molecular mechanisms of mutations in factor XIII A-subunit deficiency: in vitro expression in COS-cells demonstrates intracellular degradation of the mutant proteins

Factor XIII deficiency is an autosomal recessive bleeding disorder that is largely caused by various mutations in FXIII A-subunit gene. Characteristically, the patients lack both A-subunit activity and antigen in the circulation. Here we have analysed the consequences of four missense mutations (Met242-->Thr, Arg252-->Ile, Arg326-->Gln, Leu498 to Pro) and one stop mutation (Arg661-->Stop) in the FXIII A-subunit gene by expression in COS-cells. After transient transfection each mutant cDNA expressed mRNA at an equal level to the wild type FXIII. However, the mutant polypeptides accumulated in the cells in significantly reduced quantities and demonstrated only very low enzymatic activity. Analysis of immunoprecipitated metabolically labelled polypeptides demonstrated remarkable instability and intracellular degradation of all mutant FXIII proteins. These results verify the deleterious nature of the individual amino acid changes and confirm that protein instability and susceptibility to proteolysis are consequences of the mutations, as predicted from the three-dimensional model of crystallised FXIII A-subunit.