Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0235394 (wasting)
8,040 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Steroid 21-hydroxylase deficiency is the leading cause of impaired cortisol synthesis in congenital adrenal hyperplasia (CAH), with the nonclassic form (NC) comprising approximately 1% of the Caucasian population. The structure of the CYP21 gene was studied in 13 unrelated NC-CAH patients, three affected siblings, and 55 blood donors using polymerase chain reaction. In addition to the Leu-281 and Leu-30 mutations previously associated with NC-CAH, the finding of a Pro-453 to Ser mutation in exon-10 of CYP21 in the NC-CAH patients is reported. Ser-453 was found in 46.2% of unrelated NC-CAH patients, but only 7.7% and 3.6% of salt-wasting CAH patients and blood donors, respectively. In contrast to the Leu-281 and Leu-30 mutations, Ser-453 has not been previously detected in the CYP21 pseudogene (CYP21P) and, therefore, has not likely arisen by gene conversion.
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PMID:Pro-453 to Ser mutation in CYP21 is associated with nonclassic steroid 21-hydroxylase deficiency. 140 99

A total of 33 Italian 21-hydroxylase (21-OH) deficiency families were investigated using a combination of short and long range restriction mapping of the CYP21/C4 gene cluster. The analyses revealed that large-scale length polymorphism in this gene cluster strictly conformed to a compound variable number of tandem repeats (VNTR) plus insertion system with between one and four CYP21 + C4 units and seven BssHII restriction fragment length polymorphisms (RFLPs) (75 kb, 80 kb, 105 kb, 110 kb, 135 kb, 140 kb and 180 kb). A total of 9/66 disease haplotypes, but only 1/61 non-disease haplotypes, showed evidence of gene addition by exhibiting three or more CYP21 + C4 repeat units. Of these, two were identified in one 21-OH deficiency patient who has a total of eight CYP21 + C4 units, being homozygous for the HLA haplotype DR2 DQ2 B5 A28. This haplotype carries four CYP21 + C4 units, three of which contain CYP21A-like genes and one of which contains a CYP21B-like gene that presumably carries a pathological point mutation. Of the other gene addition haplotypes associated with 21-OH deficiency, four show three CYP21 + C4 units flanked by HLA-DR1 and HLA-B14 markers. Although such haplotypes have commonly been associated with non-classical 21-OH deficiency, three examples in the present study are unexpectedly found in two salt-wasting patients, who are respectively homozygous or heterozygous for this haplotype. Only 7/66 disease haplotypes showed evidence of a CYP21B gene deletion.
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PMID:CYP21/C4 gene organisation in Italian 21-hydroxylase deficiency families. 155 57

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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PMID:Disease expression and molecular genotype in congenital adrenal hyperplasia due to 21-hydroxylase deficiency. 164 25

We have characterized mutations in the steroid 21-hydroxylase gene (CYP21) in salt-wasting congenital adrenal hyperplasia (SW-CAH) subjects, healthy control subjects, and affected sibling pairs with SW-CAH. To identify point mutations in CYP21, we have used an improved polymerase chain reaction methodology that allows analysis of the entire CYP21 gene. In addition, we have used polymerase chain reaction to search for abnormally spliced mRNAs resulting from putatively abnormal CYP21 genes transfected into COS1 cells. We found that all 26 SW-CAH subjects from whom DNA could be completely analyzed, had mutations that could account for the 21-hydroxylase enzyme deficiency. These mutations included CYP21 gene deletion, conversion to the inactive CYP21P form, point mutations leading to amino acid substitutions or stop codons, small gene deletions, and a point mutation in intron-2 that leads to an abnormally spliced mRNA. The point mutation in intron-2 was directly shown to activate a cryptic splice site 19 basepairs from exon-3 of CYP21 and thereby cause a reading frame mutation. This CYP21 mutation was frequently found in our white SW-CAH subjects, while the frequency of this mutation was extremely low in a racially matched control population. Furthermore, affected sibling pairs shared this mutation in all cases examined. The results presented should have important applications for the prenatal diagnosis of CAH.
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PMID:Salt-wasting congenital adrenal hyperplasia: detection and characterization of mutations in the steroid 21-hydroxylase gene, CYP21, using the polymerase chain reaction. 174 Apr 89

We studied a family in which one out of two children presented a non-salt wasting form of CAH. Genomic DNA of the patient, his brother, his parents and a normal control were digested by the Taq I and Bgl II restriction enzymes. The fragments were electrophoresed, transferred onto a nitrocellulose membrane and hybridized with two specific probes: pC21a for the CYP21 genes and pAT-A for the C4 genes. We performed simultaneous RFLP analyses of the CYP21 and C4 genes and determined the relative hybridization intensity of the genes using scanning densitometry of the X-ray films. The affected child had a CYP21B gene conversion in the CYP21A pseudogene on one chromosome inherited from his mother and a mutated CYP21B gene on the second chromosome inherited from his father. The second maternal chromosome, inherited by the unaffected brother, presented an unusual CYP21A gene deletion without a C4A or C4B gene deletion. Although CYP21A is a pseudogene, this type of complete CYP21A gene deletion associated with a CYP21B gene conversion has never been previously described.
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PMID:CYP21B gene conversion and complete CYP21A gene deletion in congenital adrenal hyperplasia. 197 31

To characterize mutations in the CYP21B gene that are responsible for congenital adrenal hyperplasia (CAH), DNA samples from 91 French patients have been studied by allelic-specific oligonucleotide hybridization and Southern blot analysis. Seven sites mostly found in the CYP21A pseudogene and deletions of the functional CYP21B gene have been screened. Gene conversions involving small DNA segments accounted for 57% of the tested mutations and probably cause 74% of the mutations responsible for the disease. Complete deletion of the CYP21B gene accounted for 18% of the CAH mutations in the whole sample and for 21% in the classical form of the disease. Three mutations were found associated with specific clinical forms of the disease: a G-C substitution in the seventh exon was associated with the late-onset form of the disease, and both an 8-bp depletion in the third exon and complete deletion of CYP21B were associated with the salt-wasting form.
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PMID:Distribution of deletions and seven point mutations on CYP21B genes in three clinical forms of steroid 21-hydroxylase deficiency. 198 65

The types of disease-causing mutations were studied in 43 unrelated patients with 21-hydroxylase deficiency. Densitometry of Southern blots after cleavage with the restriction enzymes TaqI, PvuII, and BglII was used to measure the ratio of the copy-number of the 21-hydroxylase gene (CYP21) to the copy-number of its pseudogene (CYP21P). DNA from 16 unrelated patients showed equal hybridization intensities of the 2 genes, indicating that point mutations caused the enzyme deficiency. One of the 2 haplotypes in 7 patients showed evidence of a large gene conversion between the CYP21 and the CYP21P gene without loss of the total number of 21-hydroxylase genes. Deletion of at least 1 21-hydroxylase gene was found in 11 patients. DNA from 8 of these patients had relative hybridization intensities compatible with a deletion of the active 21-hydroxylase gene, CYP21. Two patients with the salt-wasting form of the disease showed homozygous loss of DNA fragments that are specific for the 5' end of the active 21-hydroxylase gene. Nine patients showed relative 21-hydroxylase hybridization intensities compatible with duplication of the gene in 1 or both haplotypes. In conclusion, point mutations, gene conversions, or CYP21 gene deletions are the typical mutations in patients with the simple virilizing and salt-wasting forms of the disease, while duplications of the locus are overrepresented in patients with nonclassical 21-hydroxylase deficiency.
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PMID:21-hydroxylase deficiency: disease-causing mutations categorized by densitometry of 21-hydroxylase-specific deoxyribonucleic acid fragments. 215 33

Steroid 21-hydroxylase deficiency is the leading cause of impaired cortisol synthesis in congenital adrenal hyperplasia (CAH). We have studied the structure of the CYP21B gene in 30 unrelated CAH patients using the polymerase chain reaction (PCR) to differentiate the active CYP21B gene from its highly related CYP21A pseudogene. The PCR approach obviates the need to distinguish the CYP21A and CYP21B genes by restriction endonuclease digestion and electrophoresis before analysis with labeled probes. Furthermore, direct nucleotide sequence analysis of CYP21B genes is demonstrated on the PCR-amplified DNA. Gene deletion of CYP21B, gene conversion of the entire CYP21B gene to CYP21A, frame shift mutations in exon 3, an intron 2 mutation that causes abnormal RNA splicing, and a mutation leading to a stop codon in exon 8 appear to be the major abnormalities of the CYP21B gene in our patients. These mutations appear to account for 21-hydroxylase deficiency in 22 of 26 of our salt-wasting CAH patients.
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PMID:Direct analysis of CYP21B genes in 21-hydroxylase deficiency using polymerase chain reaction amplification. 232 62

Genomic DNAs from twelve Japanese patients with steroid 21-hydroxylase [21-OHase; steroid 21-monooxygenase; steroid, hydrogen-donor:oxygen oxidoreductase (21-hydroxylating); EC 1.14.99.10] deficiency were analyzed by Southern blot hybridization. A 3.7-kilobase (kb) Taq I and a 1.7-kb Pvu II restriction endonuclease fragment that correspond to a 21-OHase B gene were absent from the DNA of two unrelated patients with the salt-wasting form of the disease. However, a 10.5-kb Bgl II fragment corresponding to the region encompassing the 21-OHase B gene was still present in these two patients. The genes encoding 21-OHase were cloned from one of these two patients, who was homozygous by descent for HLA-A26;B39;C4A3;C4B1;DR4. Restriction endonuclease mapping as well as partial nucleotide sequencing analysis revealed that the 21-OHase B gene of the patient has been converted to the pseudogene, 21-OHase A, as far as the critical 0.5-kb sequence was concerned. Thus, the defect was due to both chromosomes each carrying two copies of 21-OHase A pseudogene and lacking functional 21-OHase B gene.
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PMID:Gene conversion-like events cause steroid 21-hydroxylase deficiency in congenital adrenal hyperplasia. 350 Apr 73

We studied 95 patients and their relatives with the classical salt wasting (SW) and simple virilizing (SV) form of CAH. SSCP/heteroduplex analysis allowed fast and efficient screening for the most common 21-hydroxylase mutations (e.g. deletions, splice site mutation in intron 2 (bp 656), Ile172Asn mutation in exon 4) and determination of the relative intensities of CYP21A and CYP21B genes. The splice site mutation in intron 2 was found as the most frequent cause of 21-hydroxylase deficiency (35% of our patients). There is a strong genetic association between the mutation in intron 2 and the SW form of CAH. On the other hand, about 20% of our patients with the intron 2 mutation have the SV phenotype. Interestingly, homozygous splice site mutations in intron 2 were also detected in some parents or other relatives with no phenotypic changes typical for CAH (clinical evaluation, steroid hormone levels). In those patients with SV-CAH and especially in the relatives with the homozygous intron 2 mutation and an unaffected phenotype, the splice site mutation could be "leaky". mRNA-splicing in the adrenal cortex should result in a high degree of normal mRNA species. This is in contrast to in vitro expression studies of CYP21B genes containing the intron 2 mutation, performed by other groups. However, the results of in vitro expression studies are not always reflecting the in vivo conditions in the adrenal cortex. This situation is in good agreement with the variable degree of normal spliced mRNA and different phenotypic severity in intron mutations found in thalassemia.
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PMID:Divergence between genotype and phenotype in relatives of patients with the intron 2 mutation of steroid-21-hydroxylase. 758 99


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