UMLS:C0042755 - FACTA Search

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Query: UMLS:C0042755 (masculinization)
2,562 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nineteen cases of ovarian hyperthecosis found in the Surgical Pathology Department files of the George Washington University Medical Center between 1976 and 1988 were reviewed. In all of these cases the ovaries were removed as part of a procedure for another clinical diagnosis. None of the cases was associated with clinical virilization, but the endometrium was abnormal in 15 of the 17 cases in which it was available for examination, ranging from simple hyperplasia to well differentiated adenocarcinoma. Immunohistochemical analysis of the ovarian lesion for cytochromes P-450 17 alpha and P-450AROM, which catalyze androgen and estrogen synthesis, respectively, was performed in nine cases in which adequate tissue was available. P-450 17 alpha was localized in luteinized stromal cells in six of these cases--the endometrium of four of which was carcinomatous--while P-450AROM was not present in any case. These results confirm androgen production by the luteinized stromal cells in hyperthecosis, and suggests that estrogenic effects in these cases are mediated through peripheral aromatization of these androgens.
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PMID:Hyperthecosis of the ovary. Clinicopathologic study of 19 cases with immunohistochemical analysis of steroidogenic enzymes. 280 12

We report the features of a new syndrome of aromatase deficiency due to molecular defects in the CYP19 (P450arom) gene in a 46,XX female. At birth, the patient presented with a nonadrenal form of female pseudohermaphrodism. At 17 months of age, laparotomy revealed normal female internal genital structures; the histological appearance of the ovaries was normal. FSH concentrations were markedly elevated at 9.4 ng/mL LER 869, and estrone and estradiol levels were undetectable (< 37 pmol/L). By 14 yr of age, she had failed to exhibit breast development. The clitoris had enlarged to 4 x 2 cm, and pubic hair was Tanner stage IV. The plasma concentration of testosterone was elevated at 3294 pmol/L, as was androstenedione at 9951 pmol/L. Plasma estradiol levels were below 37 pmol/L. ACTH and dexamethasone tests indicated a nonadrenal source of testosterone and androstenedione. Plasma gonadotropin levels were in the castrate range. Pelvic sonography and magnetic resonance imaging showed multiple 4- to 6-cm ovarian cysts bilaterally. Despite increased circulating androgens and clitoral growth, the bone age was 10 yr at chronologic age 14 2/12 yr. Estrogen replacement therapy resulted in a growth spurt, breast development, menarche, suppression of gonadotropin levels, and resolution of the cysts. The clinical findings suggested the diagnosis of P450arom deficiency. Analyses of genomic DNA from ovarian fibroblasts demonstrated two single base changes in the coding region of the P450arom gene, one at 1303 basepairs (C-T), R435C, and the other at 1310 basepairs (G-A), C437Y, in exon 10. The molecular genetic studies indicate that the patient is a compound heterozygote for these mutations. Expression of these mutations showed that the R435C mutation had 1.1% the activity of the wild-type P450arom enzyme, whereas the C437Y mutation demonstrated no activity. The cardinal features of this syndrome are a consequence of P450arom deficiency: 1) the fetal masculinization in this syndrome can be ascribed to defective placental conversion of C19 steroids to estrogens, leading to exposure of the female fetus to excessive amounts of testosterone; 2) the pubertal failure, mild virilization, multicystic ovaries, and hyperstimulation of the ovaries by FSH and LH are the result of the inability of the ovary to aromatize testosterone and androstenedione to estrogens; and 3) the striking delay in bone age at 14 2/12 yr supports the notion that estrogens, in contrast to androgens, are the major sex steroid driving skeletal maturation during puberty. Familial P450arom deficiency, although rare, may be more common than previously suspected.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:A syndrome of female pseudohermaphrodism, hypergonadotropic hypogonadism, and multicystic ovaries associated with missense mutations in the gene encoding aromatase (P450arom). 820 Sep 27

The aromatase enzyme complex catalyzes the conversion of androgens to estrogens in a wide variety of tissues, including the ovary, testis, placenta, brain, and adipose tissue. Only a single human gene encoding aromatase P450 (CYP19) has been isolated; tissue-specific regulation is controlled in part by alternative promoters in a tissue-specific manner. We report a novel mutation in the CYP19 gene in a sister and brother. The 28-yr-old XX proband, followed since infancy, exhibited the cardinal features of the aromatase deficiency syndrome as recently defined. She had nonadrenal female pseudohermaphrodism at birth and underwent repair of the external genitalia, including a clitorectomy. At the age of puberty, she developed progressive signs of virilization, pubertal failure with no signs of estrogen action, hypergonadotropic hypogonadism, polycystic ovaries on pelvic sonography, and tall stature. The basal concentrations of plasma testosterone, androstenedione, and 17-hydroxyprogesterone were elevated, whereas plasma estradiol was low. Cyst fluid from the polycystic ovaries had a strikingly abnormal ratio of androstenedione and testosterone to estradiol and estrone. Hormone replacement therapy led to breast development, menses, resolution of ovarian cysts, and suppression of the elevated FSH and LH values. Her adult height is 177.6 cm (+2.5 SD). Her only sibling, an XY male, was studied at 24 yr of age. During both pregnancies, the mother exhibited signs of progressive virilization that regressed postpartum. The height of the brother was 204 cm (+3.7 SD) with eunuchoid skeletal proportions, and the weight was 135.1 kg (+2.1 SD). He was sexually fully mature and had macroorchidism. The plasma concentrations of testosterone (2015 ng/dL), 5 alpha-dihydrotestosterone (125 ng/dL), and androstenedione (335 ng/dL) were elevated; estradiol and estrone levels were less than 7 pg/mL. Plasma FSH and LH concentrations were more than 3 times the mean value. Plasma PRL was low; serum insulin-like growth factor I and GH-binding protein were normal. The bone age was 14 yr at a chronological age of 24 3/12 yr. Striking osteopenia was noted at the wrist. Bone mineral densitometric indexes of the lumbar spine (cancellous bone) and distal radius (cortical bone) were consistent with osteoporosis; the distal radius was -4.7 SD below the mean value for age- and sex-matched normal men; indexes of bone turnover were increased. Hyperinsulinemia, increased serum total and low density lipoprotein cholesterol, and triglycerides and decreased high density lipoprotein cholesterol were detected.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Aromatase deficiency in male and female siblings caused by a novel mutation and the physiological role of estrogens. 853 Jun 21

We report on a female who is compound heterozygote for two new point mutations in the CYP19 gene. The allele inherited from her mother presented a base pair deletion (C) occurring at P408 (CCC, exon 9), causing a frameshift that results in a nonsense codon 111 bp (37 aa) further down in the CYP19 gene. The allele inherited from her father showed a point mutation from G-->A at the splicing point (canonical GT to mutational AT) between exon and intron 3. This mutation ignores the splice site and a stop codon 3 bp downstream occurs. Aromatase deficiency was already suspected because of the marked virilization occurring prepartum in the mother, and the diagnosis was confirmed shortly after birth. Extremely low levels of serum estrogens were found in contrast to high levels of androgens. Ultrasonographic follow-up studies revealed persistently enlarged ovaries (19.5-22 mL) during early childhood (2 to 4 yr) which contained numerous large cysts up to 4.8 x 3.7 cm and normal-appearing large tertiary follicles already at the age of 2 yr. In addition, both basal and GnRH-induced FSH levels remained consistently strikingly elevated. Low-dose estradiol (E2) (0.4 mg/day) given for 50 days at the age of 3 6/12 yr resulted in normalization of serum gonadotropin levels, regression of ovarian size, and increase of whole body and lumbar spine (L1-L4) bone mineral density. The FSH concentration and ovarian size returned to pretreatment levels shortly (150 days) after cessation of E2 therapy. Therefore, we recommend that affected females be treated with low-dose E2 in amounts sufficient to result in physiological prepubertal E2 concentrations using an ultrasensitive estrogen assay. However, E2 replacement needs to be adjusted throughout childhood and puberty to ensure normal skeletal maturation and adequate adolescent growth spurt, normal accretion of bone mineral density, and, at the appropriate age, female secondary sex maturation.
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PMID:Aromatase deficiency in a female who is compound heterozygote for two new point mutations in the P450arom gene: impact of estrogens on hypergonadotropic hypogonadism, multicystic ovaries, and bone densitometry in childhood. 917 73

The goals of this presentation are to review the essential roles of aromatase, estrogens and the estrogen receptor in pubertal growth. Estrogen deficiency due to mutations in the aromatase gene (CYP19) and estrogen resistance due to disruptive mutations in the estrogen receptor gene have no effect on normal male sexual maturation in puberty. However, they lead to absence of the pubertal growth spurt, delayed bone maturation, unfused epiphyses, continued growth into adulthood and very tall adult stature in both sexes. Gonadotropin and androgen levels are elevated in patients with either estrogen deficiency (aromatase deficiency) or estrogen resistance (estrogen receptor mutation). Glucose intolerance, hyperinsulinemia and lipid abnormalities are also present. Skeletal integrity is compromised. Increased bone turnover, reduced bone mineral density and osteoporosis develop in both sexes. Sexual orientation is appropriate in males and females. In females, aromatase deficiency in the ovary causes pubertal virilization and multicystic ovaries because of elevated gonadotropins and androgens. Simultaneously, secondary sexual maturation fails to occur. Placental aromatase deficiency results in virilization of the mother and her female fetus because of the accumulation of potent androgens which are not converted to estrogens. The male fetus has normal genitalia. In conclusion, estrogens are essential for normal female secondary sexual maturation, bone maturation, epiphyseal fusion, pubertal growth spurt and achievement of normal bone mineral mass. Estrogens also influence insulin sensitivity and lipid homeostasis. However, estrogens do not appear to be essential for fetal survival, placental growth, or female sexual differentiation.
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PMID:Pediatric endocrinology update: an overview. The essential roles of estrogens in pubertal growth, epiphyseal fusion and bone turnover: lessons from mutations in the genes for aromatase and the estrogen receptor. 955 63

We identified a new point mutation in the CYP19 gene responsible for aromatase (P450arom) deficiency in a 46,XY male infant with unremarkable clinical findings at birth. This boy is homozygote for a 1-bp (C) deletion in exon 5 of the aromatase gene causing a frame-shift mutation. The frame-shift results in a prematurely terminated protein that is inactive due to the absence of the functional regions of the enzyme. Aromatase deficiency was suspected prenatally because of the severe virilization of the mother during the early pregnancy, and the diagnosis was confirmed shortly after birth. Four weeks after birth, the baby boy showed extremely low levels of serum estrogens, but had a normal level of serum free testosterone; in comparison with the high serum concentration of androstenedione at birth, a striking decrease occurred by 4 weeks postnatally. We previously reported elevated basal and stimulated FSH levels in a female infant with aromatase deficiency in the first year of life. In contrast, in the male infant, basal FSH and peak FSH levels after standard GnRH stimulation tests were normal. This finding suggests that the contribution of estrogen to the hypothalamic-pituitary gonadotropin-gonadal feedback mechanism is different in boys and girls during infancy and early childhood. In normal girls, serum estradiol concentrations strongly correlate with circulating inhibin levels, and thus, low inhibin levels may contribute to the striking elevation of FSH in young girls with aromatase deficiency. In contrast, estradiol levels are physiologically about a 7-fold lower in boys than in girls, and serum inhibin levels remain elevated even though levels of FSH, LH, and testosterone are decreased.
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PMID:Aromatase deficiency caused by a novel P450arom gene mutation: impact of absent estrogen production on serum gonadotropin concentration in a boy. 1056 48

Recent developments have advanced our knowledge of the role of estrogen in the male. Studies of the mutations in CYP19, the gene encoding aromatase, in six females and two males and a mutant estrogen receptor alpha in a man are described. These observations provide illuminating new insights into the critical role of estrogen in the male (as well as female) in the pubertal growth spurt and skeletal maturation, and in the importance of estrogen sufficiency in the accrual and maintenance of bone mass. The weight of evidence supports an effect of androgens on the latter processes, but this effect has not been quantitated. There is a discordance in the estrogen-deficient male between skeletal growth and skeletal maturation and the accrual of bone mass and density. Estrogen synthesis by the testis is limited before puberty, and estrogen deficiency does not affect the age of pubertal onset. Estrogen deficiency in men leads to hypergonadotropism, macroorchidism, and increased testosterone levels. Estrogen lack has a significant effect on carbohydrate and lipid metabolism, and estrogen resistance was associated with evidence of premature coronary atherosclerosis in a man. These observations have highlighted the role of extraglandular estrogen synthesis and intracrine and paracrine actions. In the human, in contrast to nonprimate vertebrates, aromatase deficiency and estrogen resistance (alpha) does not seem to affect gender identity or psychosexual development. The clinical repercussions of mutations in CYP19 on the fetal-placental unit have highlighted the major role of placental aromatase in the protection of the female fetus from androgen excess, thus preventing androgen-induced pseudohermaphrodism and virilization of the mother. These features are compared with the virilization that occurs in utero in the female spotted hyena. The novel features of the aromatase deficiency syndrome in the affected female--in the fetus, during childhood, and at puberty--are discussed, including virilization at puberty and development of polycystic ovaries. The severity of the syndrome correlates with the severity of impairment of aromatase formation in expression systems. Finally, the structural consequences of missense mutations in CYP19 are described in accordance with a model of the structure of human aromatase.
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PMID:Estrogen: consequences and implications of human mutations in synthesis and action. 1129 27

Aromatase enzyme is the product of the CYP19 gene. Human aromatase deficiency is a rare disorder and is usually caused by single base-pair changes resulting in amino acid substitution or premature stop codons. In most cases, the affected mother presents with virilization in the third trimester of pregnancy. Affected female newborns have pseudohemaphrodism with clitoromegaly and hypospadias. The cause of these presentations in pregnancy is the inability to convert fetal dehydroepiandrosterone to estrogen in the placenta and subsequent conversion to androgens in the periphery. Affected male newborns present with tall stature secondary to failed epiphyseal fusion. They also have delayed bone age, osteopenia, and undermineralization, which can be corrected with the addition of estrogen, highlighting estrogen's critical role in men as well as women. The aromatase knock-out male mouse (ArKO) has shortened femur length and bone undermineralization. Female ArKO mice at 10-12 weeks have multiple ovarian follicles arrested in the antral phase and stromal hyperplasia. By 1 year the ovaries become grossly dysmorphic with numerous cystic follicles and fibrous stroma. Male ArKO mice testes demonstrate arrest of spermatogenesis at the level of round spermatids and Leydig cell hyperplasia. ArKO mice also exhibit evidence of insulin resistance and visceral adiposity.
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PMID:Genetic mutations resulting in loss of aromatase activity in humans and mice. 1073 24

Our knowledge of the physiologic roles of estrogen in women and men has been advanced by recent descriptions of mutations disrupting estrogen biosynthesis and action. Aromatase deficiency results from autosomal recessive inheritance of mutations in the CYP19 gene. It gives rise to ambiguous genitalia in 46,XX individuals. At puberty, affected girls have hypergonadotropic hypogonadism, fail to develop secondary sexual characteristics, and exhibit progressive virilization. The affected 46,XY individuals have normal male sexual differentiation and pubertal maturation. These men are extremely tall and have eunuchoid proportions with continued linear growth into adulthood, lack of epiphyseal closure, and osteoporosis due to estrogen deficiency. Although estrogen was shown to be essential for normal sperm production and function in mice, its role in fertility is not clear in men. Thus far, one estrogen-resistant human, a man with a mutant estrogen receptor-alpha gene, has been described. His clinical presentation was similar to that of aromatase-deficient men.
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PMID:Aromatase deficiency and estrogen resistance: from molecular genetics to clinic. 1130 85

Familial hyperestrogenism is a rare clinical condition of unknown etiology in which patients present excessive androgen to estrogen conversion. Excessive aromatization is primarily ascribed to abnormalities in the CYP19. Mice that lack steroid 5alpha-reductase type 1 also exhibit hyperestrogenism due to an increased availability of androgen precursors. Here we studied two adult siblings, born to unrelated parents, who presented clinical and hormonal evidence of estrogen excess. The man was treated with topical dihydrotestosterone, which promoted adequate virilization. The woman was treated with anastrazole, a potent aromatase inhibitor, with normalization of menstrual cycles. Genetic linkage to the steroid 5alpha-reductase type 1 gene (SRD5A1) was ruled out in this family. A similar analysis did not rule out linkage to CYP19, although no mutation was identified in the coding region of this gene. Aromatase mRNA was at least 10-fold more abundant in the female patient's skin fibroblasts vs. the control. Southern analysis of genomic DNA did not reveal rearrangements or amplification of the coding region of CYP19. We conclude that the phenotype of familial hyperestrogenism includes prepubertal gynecomastia, hypogonadism, and short stature in men, and precocious thelarche, macromastia, enlarged uterus, and menstrual irregularities in women. Topical dihydrotestosterone is an efficient alternative treatment in men with hyperestrogenism; in addition, second generation aromatase inhibitors are useful in both sexes.
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PMID:Familial hyperestrogenism in both sexes: clinical, hormonal, and molecular studies of two siblings. 1284 39

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