Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0042755 (masculinization)
 2,562 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Androgen excess (AE) is one of the most common endocrine disorders, affecting 10% of adult women before the menopause. The clinical picture varies widely depending on the etiology of AE. Most of these women are suffering from hirsutism, acne, menstrual disturbances, anovulation and obesity. Virilization is unusual, except in patients with ovary or adrenal cancer. Polycystic ovary syndrome (PCOS) and idiopathic hirsutism (IH) are the most frequent causes of androgen excess, accounting for more than 90% of the cases. The pathogenesis of PCOS is still an unresolved problem. A hereditary predisposition has been suggested. Enzymatic deficiency is a less frequent cause of AE, the most common deficiency being the non classic 21-OH deficiency (NCAH). AE has been implicated as a side effect of many drugs. Ovary and adrenal tumours are unusual, however, they must be considered especially in case of severe hirsutism or virilization. Complementary investigations are selected based on the result of clinical examination. Pharmacologic therapy, usually with anti-androgens, is the most widely used treatment for PCOS, IH and NCAH. Surgical therapy should be considered only when there is a particular indication such as Cushing's syndrome, ovary or adrenal tumours.
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PMID:[Hyperandrogenism: clinical aspects, investigation and treatment]. 1038 70

The diagnostic term congenital adrenal hyperplasia (CAH) applies to a family of inherited disorders of steroidogenesis caused by an abnormality in one of the five enzymatic steps necessary in the conversion of cholesterol to cortisol. The enzyme defects are translated as autosomal recessive traits, with the enzyme deficient in more than 90% of CAH cases being 21-hydroxylase. In the classical forms of CAH (simple virilizing and salt wasting), owing to 21-hydroxylase deficiency (21-OHD), androgen excess causes external genital ambiguity in newborn females and progressive postnatal virilization in males and females. Non-classical 21-OHD (NC21OHD) refers to the condition in which partial deficiencies of 21-hydroxylation produce less extreme hyperandrogenemia and milder symptoms. Females do not demonstrate genital ambiguity at birth. The gene for adrenal 21-hydroxylase, CYP21, is located on chromosome 6p in the area of HLA genes. Specific mutations may be correlated with a given degree of enzymatic compromise and the clinical form of 21-OHD. NC21OHD patients are predicted to have mild mutations on both alleles or one severe and one mild mutation of the 21-OH locus (compound heterozygote). In most cases the mutation groups represent one diagnosis (e.g., Del/Del with SW CAH), however we have found several non-correlations of genotype to phenotype. Non-classical and classical patients were found within the same mutation group. Phenotypic variability within each mutation group has important implications for prenatal diagnosis and treatment. Prenatal treatment of 21-OHD with dexamethasone has been utilized for a decade. An algorithm has been developed for prenatal diagnosis and treatment, which, when followed closely, has been safe for both the mother and the fetus, and has been effective in preventing ambiguous genitalia in the affected female newborn. This is an instance of an inborn metabolic error successfully treated prenatally. Since 1986, prenatal diagnosis and treatment of congenital adrenal hyperplasia due to 21-hydroxylase deficiency (21-OHD) has been carried out in 403 pregnancies in The New York Hospital Cornell Medical Center. In 280, diagnoses were made by amniocentesis, while 123 were diagnosed using chorionic villus sampling. Of the 403 pregnancies evaluated, 84 babies were affected with classical 21-OHD. Of these, 52 were females, 36 of whom were treated prenatally with dexamethasone. Dexamethasone administered at or before 10 weeks of gestation (23 affected female fetuses) was effective in reducing virilization. Thirteen cases had affected female sibs (Prader stages 1-4); 6 of these fetuses were born with entirely normal female genitalia, while 6 were significantly less virilized (Prader stages 1-2) than their sibs, and one was Prader stage 3. Eight newborns had male sibs: 4 were born with normal genitalia, 3 were Prader stages 1-2, and 3 were born Prader stages 3-4. No significant or enduring side effects were noted in either the mothers or the fetuses, indicating that dexamethasone treatment is safe. Prenatally treated newborns did not differ in weight, length, or head circumference from untreated, unaffected newborns. Based on our experience, proper prenatal diagnosis and treatment of 21-OHD is effective in significantly reducing or eliminating virilization in the newborn female. This spares the affected female the consequences of genital ambiguity of genital surgery, sex misassignment, and gender confusion.
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PMID:Congenital adrenal hyperplasia: update on prenatal diagnosis and treatment. 1041 77

More than 90% of cases of congenital adrenal hyperplasia (CAH, the inherited inability to synthesize cortisol) are caused by 21-hydroxylase deficiency. Females with severe, classic 21-hydroxylase deficiency are exposed to excess androgens prenatally and are born with virilized external genitalia. Most patients cannot synthesize sufficient aldosterone to maintain sodium balance and may develop potentially fatal "salt wasting" crises if not treated. The disease is caused by mutations in the CYP21 gene encoding the steroid 21-hydroxylase enzyme. More than 90% of these mutations result from intergenic recombinations between CYP21 and the closely linked CYP21P pseudogene. Approximately 20% are gene deletions due to unequal crossing over during meiosis, whereas the remainder are gene conversions--transfers to CYP21 of deleterious mutations normally present in CYP21P. The degree to which each mutation compromises enzymatic activity is strongly correlated with the clinical severity of the disease in patients carrying it. Prenatal diagnosis by direct mutation detection permits prenatal treatment of affected females to minimize genital virilization. Neonatal screening by hormonal methods identifies affected children before salt wasting crises develop, reducing mortality from this condition. Glucocorticoid and mineralocorticoid replacement are the mainstays of treatment, but more rational dosing and additional therapies are being developed.
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PMID:Congenital adrenal hyperplasia due to 21-hydroxylase deficiency. 1085 54

A case of nonclassic (NC) 21-hydroxylase deficiency, with a moderately elevated 17-hydroxyprogesterone level (145 nmol/L in filter paper blood spot), was detected in newborn screening. The newborn's phenotype was female, with no sign of virilization. Confirmatory diagnosis revealed elevated serum levels of 17-hydroxyprogesterone and of 21-desoxycortisol, whereas cortisol, PRA, and electrolytes were normal. Hydrocortisone substitution was considered at the age of 6 months, when virilization became obvious. For clinical reasons, this case had to be classified as late-onset congenital adrenal hyperplasia (CAH) with unusually early manifestation. However, the diagnosis of classic 21-hydroxylase deficiency was obtained by Southern blotting studies, showing that she was homozygous for the 30-kb deletion, including the 3' end of CYP21P pseudogene, the C4B gene, and the 5' end of the functional CYP21 gene. Further studies, using PCR and sequencing, were conducted to explain the discrepancy between this genotype, usually associated with a classic salt-wasting form, and the girl's phenotype. Typically, patients homozygous for the 30-kb deletion encoding classic CAH possess a unique CYP21P/21 hybrid gene with the junction site located after the third exon, yielding a nonfunctional pseudogene. The girl in question, however, was heterozygous for the 8-bp deletion, suggesting that the chimeric pseudogene on one allele had a junction site before the third exon. She was compound heterozygous for a 30-kb deletion encoding classic CAH on the paternal allele, and a 30-kb deletion encoding NC CAH on the maternal allele. This novel maternal CYP21P/21 hybrid gene is characterized by a junction site before intron 2 and differs from the normal CYP21 gene only by the P30L mutation in exon 1 and the promoter region of the CYP21P pseudogene. Because the P30L mutation has been described to result in an enzyme with 30-60% activity of the normal P450c21 enzyme, and the CYP21P promoter reduced the transcription to 20% of normal, this puzzling phenotype of a NC CAH with early onset may be fully explained by the genotype of the patient and considered as an intermediate form between the simple virilizing and NC form.
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PMID:How a patient homozygous for a 30-kb deletion of the C4-CYP 21 genomic region can have a nonclassic form of 21-hydroxylase deficiency. 1113 9

Congenital adrenal hyperplasia due to 21-hydroxylase deficiency is caused by an inborn defect in the 21-hydroxylase gene (CYP21), leading to virilization of female patients and causing ambiguous genitals in the majority of female infants. Adult women may suffer from loss of libido, irregular or absent cycles, and reduced fertility, despite intensive medical treatment. These problems have stimulated the search for alternative treatment modalities. We present an adult female patient, who was difficult to treat medically and whose clinical situation markedly improved after laparoscopic bilateral adrenalectomy. The procedure was well tolerated and without side effects. Postoperatively the elevated serum progesterone and 17-hydroxyprogesterone levels, as well as the undetectable LH levels, normalized. The procedure resulted in marked clinical improvement. Within 12 months after surgery she lost 11 kg in weight. This weight loss consisted mainly of adipose tissue. Acne disappeared, and she had a regular 4-week menstrual cycle, with progesterone levels that are compatible with a luteal phase. The introduction of laparoscopic techniques may give an impulse to the application of surgical therapy at a larger scale in patients with 21-hydroxylase deficiency who are difficult to treat with adrenal suppression therapy.
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PMID:Fertility and body composition after laparoscopic bilateral adrenalectomy in a 30-year-old female with congenital adrenal hyperplasia. 1115 95

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.
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PMID:Mutational spectrum of the steroid 21-hydroxylase gene in Austria: identification of a novel missense mutation. 1160 May 39

Congenital adrenal hyperplasia describes a group of inherited autosomal recessive disorders characterized by an enzymatic defect in cortisol biosynthesis, compensatory increases in corticotropin secretion, and adrenocortical hyperplasia. 21-Hydroxylase deficiency is responsible for more than 95% of cases and is one of the most common known autosomal recessive disorders. The classic or severe type presents in the newborn period or early childhood with virilization and adrenal insufficiency, with or without salt loss; the mild or nonclassic form presents in late childhood or early adulthood with mild hyperandrogenism and is an important cause of masculinization and infertility in women. This wide range of phenotypic expression is mostly explained by genetic variation, although genotype-phenotype discrepancies have been described. Reproductive, metabolic, and other comorbid conditions, including risk for tumors, are currently under investigation in both forms of the disease. A high proportion of patients with adrenal incidentalomas may be homozygous or heterozygous for 21-hydroxylase deficiency. Women with congenital adrenal hyperplasia often develop the polycystic ovary syndrome. Ectopic adrenal rest tissue is often found in the testes of men with congenital adrenal hyperplasia; characteristic clinical and radiologic findings help differentiate this tissue from other tumors. Levels of corticotropin-releasing hormone are elevated in patients with depression and anxiety and are expected to be elevated in patients with congenital adrenal hyperplasia; it is unknown whether patients with 21-hydroxylase deficiency have an increased incidence of these psychiatric disorders. Abnormalities in both the structure and function of the adrenal medulla have been shown in patients with classic congenital adrenal hyperplasia, and the degree of adrenomedullary impairment may be a biomarker of disease severity. The 21-hydroxylase-deficient mouse has provided a useful model with which to examine disease mechanisms and test new therapeutic interventions in classic disease, including gene therapy. Treatment of this condition is intended to reduce excessive corticotropin secretion and replace both glucocorticoids and mineralocorticoids. However, clinical management is often complicated by inadequately treated hyperandrogenism, iatrogenic hypercortisolism, or both. New treatment approaches currently under investigation include combination therapy to block androgen action and inhibit estrogen production, and bilateral adrenalectomy in the most severely affected patients. Other approaches, which are in a preclinical stage of investigation, include treatment with a corticotropin-releasing hormone antagonist and gene therapy.
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PMID:NIH conference. Future directions in the study and management of congenital adrenal hyperplasia due to 21-hydroxylase deficiency. 1184 30

Data related to genetics of congenital adrenal hyperplasia with emphasis on CYP21 gene defects are briefly outlined. Mutations of the StAR gene lead to impaired translocation of cholesterol from the outer mitochondrial membrane to the inner mitochondria, a rate limiting step in steroidogenesis in the adrenals and the gonads. The clinical picture is characterized by adrenal and gonadal insufficiency and sex reversal in XY individuals. Molecular defects of the CYP17 gene encoding 17alpha-hydroxylase can cause hypertension, impaired sexual maturation and impaired sexual differentiation in XY individuals. Molecular defects of the CYP11B1 gene lead to 11-hydroxylase deficiency, which is clinically expressed with virilization of the external genitalia of the female and precocious puberty in the male, as well as hypertension in both sexes. The HSD3beta1 and HSD3beta2 genes encode two isoenzymes (3betaHSDI and 3betaHSDII). The clinical picture results from either absence or diminished activity of type II 3betaHSD, resulting from mutations of the HSD3beta2 gene. The most frequent form of CAH (90% of all patients) is due to deletions, conversions or point mutations of the CYP21 gene, which encodes the enzyme 21-hydroxylase. There is a wide range of clinical expression primarily explained by the type of the molecular defect. The ratio of genotype to phenotype concordance varies in the different forms of the disease, the highest one being encountered in the non-classical form. Heterozygosity of CYP21 mutations may be expressed as premature pubarche.
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PMID:Genetic aspects of congenital adrenal hyperplasia. 1196 27

Congenital adrenal hyperplasia is a family of monogenic autosomal recessive disorders of steroidogenesis with protean clinical manifestations. The commonest form, 21-hydroxylase deficiency, is the most frequent cause of ambiguous genitalia in the newborn. The molecular features associated with abnormalities in the CYP21 gene are well characterized in relation to phenotypic manifestations. The concordance between genotype and phenotype is sufficiently robust as to be relevant and useful in planning treatment strategies. Thus, the dose of glucocorticoid replacement in the early years of life can be tailored according to the predicted degree of 21-hydroxylase enzyme deficiency in the anticipation that this may avoid hitherto excessive steroid replacement during the critical early years of growth and development. The means to prevent genital virilization in affected females is clearly demonstrated by the success of early dexamethasone administration to pregnant mothers at risk. Short-term outcome studies of children exposed to dexamethasone in utero indicate no significant adverse effects. Nevertheless, it is recommended that prenatal treatment programs to prevent a major congenital malformation of the urogenital system be conducted only as part of agreed national multicenter studies, which include a commitment to long-term outcome analyses.
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PMID:Congenital adrenal hyperplasia: 21-hydroxylase deficiency in the newborn and during infancy. 1242 3

Genetic defects in genes encoding hormones, hormone receptors or polypeptides of the signaling pathways usually cause complex disease manifestations characterized by the involvement of several tissues and variable expression. Genetic aberrations, like chromosome aneuploidy, gene translocations or mutations in key regulatory proteins (even if not directly affecting genes of the endocrine system) often lead to clinical symptoms, including central endocrine functions like sexual differentiation or metabolic disturbances, like diabetes mellitus. But also minor genetic alterations like point mutations can affect the function of gene products to cause endocrine diseases. If the underlying molecular defects of endocrinopathies are known, direct molecular diagnosis can be performed. This is particularly useful if it helps to solve difficult differential diagnosis problems or if there exist effective preventive therapeutic options. The present paper presents examples for endocrine diseases in which molecular testing significantly increases the specificity and sensitivity of diagnostics and demonstrates the benefits for the patients and the healthcare system. In multiple endocrine neoplasia type 2, an unambiguous identification of gene carriers in affected families can be achieved by genetic testing. As a preventive measure to avoid medullary thyroid carcinoma, prophylactic thyroidectomy is recommended for individuals carrying the disease causing mutation. In adrenogenital syndrome, sequence analysis of the steroid 21-hydroxylase gene has become an important tool to confirm or exclude suspected late-onset forms of the disease, where hormone measurements are not informative. The major benefit, however, lies in identifying heterozygous carriers and providing a reliable prenatal test for couples carrying a defect in the 21-hydroxylase gene. Today, prenatal treatment with dexamethasone, which prevents the virilization in female fetuses, should always be based on results from molecular diagnosis performed from chorionic villus samples.
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PMID:Clinical impact of molecular diagnostics in endocrinology. Polymorphisms, mutations and DNA technologies. 1243 89


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