A new mutation of the androgen receptor, P817A, causing partial androgen insensitivity syndrome: in vitro and structural analysis

Androgen insensitivity syndrome (AIS) is an X-linked disease caused by mutations in the androgen receptor (AR) resulting in various degrees of defective masculinization in 46,XY individuals. In the present study, we describe a novel mutation in exon 7 of the AR gene in an Egyptian patient with partial AIS (PAIS). Sequencing analysis of the AR gene revealed a novel missense mutation, P817A, within the ligand-binding domain (LBD). This is the first report of a mutation within the short amino acid motif (codons 815-817) of the beta-strand lying between helices H8 and H9 of the AR LBD. The functional defects of the mutated protein were characterized by in vitro study and included significantly decreased ligand-binding affinity and impaired transactivation potential. Limited proteolysis assays performed with the wild-type and mutant AR receptors incubated with the synthetic agonist R1881 revealed that the P817A mutation resulted in a reduced stabilization of the AR active conformation. Structural analyses showed that this mutation is likely to perturb the beta-sheet interaction between residues 815-817 and 911-913. This structural alteration destabilizes the position of the C-terminal extension, which contains residues critical for androgen function.     

Point mutations detected in the androgen receptor gene of three men with partial androgen insensitivity syndrome

OBJECTIVE Determine the sequence of the androgen receptor gene in men with impaired responsiveness to androgens in order to identify the molecular basis of their under-virilization. DESIGN Blood samples were used as the source of genomic DNA. Portions of the androgen receptor gene were amplified by polymerase chain reaction and sequenced. PATIENTS Samples were obtained from three patients and five normal fertile controls. Patients were all 46 XY and were undervirilized with ambiguous external genitalia, gynaecomastla and infertility. MEASUREMENTS Total cellular DNA was purified from peripheral blood leucocytes. Pairs of ollgonucleotide primers designed to flank the individual exons of the androgen receptor gene were synthesized. The specific regions of the androgen receptor were amplified from the samples of cellular DNA by polymerase chain reaction. Amplified DNA was purified, sequenced and compared to the published sequence. RESULTS In all three patients point mutations in the androgen receptor gene were detected but no defects were detected in samples from normal controls. In two of the patients, an identical single nucleotide change from G to T was detected. This nucleotide was within the codon for amino acid 866 and would change it from valine to leucine. Amino acid 866 is found within an area of the steroid binding domain thought to be involved in receptor dimerization. Within the repetitive sequence of exon I patient 1 had 21 glutamine residues and patient 2 had 25. In the third patient a single change of G to A would result in incorporation of lysine in place of a conserved arginine residue at position 607 within the second zinc finger of the DNA binding domain. The sequence of the androgen receptor gene of the mother of the third patient revealed her to be heterozygous for the same defect. CONCLUSION Patients 1 and 2 are unrelated although they have an identical point mutation in their androgen receptor gene. A patient with complete androgen insensitivity syndrome has been reported to have a defect at the same position causing the amino acid substitution of methlonine for valine. Therefore we confirm that the nature of the amino acid change in the peptide sequence of the androgen receptor as well as its location within the protein, can have a profound effect on the phenotypic severity of androgen resistance. Studies on mutated receptors from individuals with a wide range of degrees of androgen resistance may enable us to construct a map of the key amino acids in the different domains of the protein.     

Impaired nuclear translocation, nuclear matrix targeting, and intranuclear mobility of mutant androgen receptors carrying amino acid substitutions in the deoxyribonucleic acid-binding domain derived from androgen insensitivity syndrome patients

CONTEXT: Recent imaging studies revealed that androgen receptor (AR) is ligand-dependently translocated from the cytoplasm into the nucleus and forms intranuclear fine foci. In this study, we examined whether intracellular dynamics of mutant ARs detected in two androgen insensitivity syndrome (AIS) patients was impaired. OBJECTIVE: ARs with mutations in the DNA-binding domain were functionally characterized and compared with the wild-type AR. PATIENTS: In a complete AIS patient (subject 1), cysteine residue 579 in the first zinc finger motif of AR was substituted for phenylalanine (AR-C579F). Another mutation (AR-F582Y) was found in a partial AIS patient (subject 2). RESULTS: AR-F582Y retained less than 10% of the transactivation activity of the wild-type AR, whereas no ligand-dependent transactivation was detected for AR-C579F. Image analyses of the receptors fused to green fluorescent protein showed that the wild-type AR was ligand-dependently translocated into the nucleus in which it formed fine subnuclear foci. Surprisingly, after the addition of dihydrotestosterone, the two mutant ARs initially formed large cytoplasmic dots, many of which were found to be close to mitochondria by electron microscopy. Subsequently, a part of the ligand-bound mutant ARs gradually entered the nucleus to form a smaller number of larger dots, compared with the wild-type AR. Fluorescence recovery after photobleaching analysis revealed that the intranuclear mobility of the mutant ARs decreased, compared with that of the wild-type AR. CONCLUSIONS: These results suggest that the abnormal translocation, localization, and mobility of the mutant ARs may be the cause of AIS in these subjects.     

Phenotypic diversity and testosterone-induced normalization of mutant L712F androgen receptor function in a kindred with androgen insensitivity

Molecular causes of phenotypic diversity in androgen insensitivity syndrome, occurring even in the same family, have rarely been identified. We report on a family with four affected individuals, three brothers (B1-3) and their uncle, displaying strikingly different external genitalia: B1, ambiguous; B2, severe micropenis; B3, slight micropenis; and uncle, micropenis and penoscrotal hypospadias. All had been assigned a male gender. We detected the same L712F mutation of the androgen receptor (AR) gene in each subject. Methyltrienolone binding on cultured genital skin fibroblasts of B2 suggested moderate impairment of the ligand-binding domain [maximal binding capacity, 38.2 fmol/mg protein (normal); Kd, 0.21 nmol/L; normal range, 0.03-0.13 nmol/L]. In trans-activation assays, the mutant 712F-AR showed considerable deficiency at low concentrations of testosterone (0.01-0.1 nmol/L) or dihydrotestosterone (0.01 nmol/L). Remarkably, this could be fully neutralized by testosterone concentrations greater than 1.0 nmol/L. Hence, the 712F-AR could switch its function from subnormal to normal within the physiological concentration range of testosterone. This was reflected by an excellent response to testosterone therapy in B1, B2, and the uncle. Taking into account the well documented individual and time-dependent variation in testosterone concentration in early fetal development, our observations clearly illustrate the potential impact of varying ligand concentrations for distinct cases of phenotypic variability in androgen insensitivity syndrome.     

Heterozygous mutation of steroidogenic factor-1 in 46,XY subjects may mimic partial androgen insensitivity syndrome

CONTEXT: The clinical and biological features of Sertoli cell and Leydig cell dysfunction are usually investigated when characterizing disorders of sex development in 46,XY individuals: This allows gonadal dysgenesis, a defective development of the gonad, to be distinguished from defects restricted to androgen synthesis or sensitivity. In humans, mutations in steroidogenic factor-1 (SF-1), one of the critical factors involved in testis development, have been reported to cause gonadal dysgenesis with or without adrenal failure in 46,XY individuals. OBJECTIVE: We report a SF-1 mutation that caused ambiguous genitalia associated with strikingly different hormonal phenotypes in two affected 46,XY children from the same family. METHODS: Hormonal evaluation included testosterone (T), anti-Mullerian hormone (AMH), inhibin B, FSH, and LH measurements during the first weeks of life, a period when physiological activation of the gonadotropin-gonadal system occurs. Direct DNA sequencing of the coding sequence of the SF-1 and the androgen receptor (AR) genes was performed. RESULTS: Both 46,XY children had ambiguous genitalia with no Mullerian structures and no adrenal insufficiency. The older child showed normal elevation of T (up to 7.6 nmol/liter, 2.2 ng/ml), AMH (504 pmol/liter, 70.6 ng/ml), inhibin B (245 pg/ml), FSH, and LH during the first weeks, which led to a presumptive diagnosis of partial androgen insensitivity syndrome. The AR sequence was, however, normal. In the second child, T, AMH, and inhibin B were low, suggesting gonadal dysgenesis. In both children and their mother, a c.536delC frameshift mutation in the SF-1 gene was found. This mutation terminates translation at position 295, removing the ligand-binding domain and the activation function 2 (AF-2) domain, a critical domain for SF-1 transactivating activity. CONCLUSIONS: The usual markers of testis dysgenesis may be normal in 46,XY individuals with SF-1 mutation. Screening for SF-1 mutation should be performed in subjects with apparent partial androgen insensitivity syndrome and no mutation in the AR gene.     

Correlation between genotype, phenotype and sex of rearing in 111 patients with partial androgen insensitivity syndrome

OBJECTIVE: Partial androgen insensitivity syndrome (PAIS) is a heterogeneous group of intersex disorders characterized by a typical perineoscrotal hypospadias/micropenis phenotype, and a normal androgen-producing testis. Various mutations in the androgen receptor (AR) are known to cause PAIS. Phenotypic expression is widely variable and there are no agreed guidelines to determine the sex of rearing in individuals with borderline masculinization. We aimed to quantitatively assess the external genital phenotype in relation to AR genotype and sex of rearing and identify criteria that differentiate mutation positive (ARmt) from mutation negative (ARwt) PAIS patients. PATIENTS AND DESIGN: Cases with a diagnosis of PAIS were identified from the Cambridge Intersex Database. An external masculinization score (EMS) was used to quantify the degree of undermasculinization. Family history of AIS and details of the sex of rearing were recorded. Androgen binding was analysed in fibroblasts obtained from genital skin biopsies and mutational analysis of the AR was performed on genomic DNA extracted from peripheral blood. EMS and sex of rearing were compared in cases with similar mutations reported on the McGill International Database. RESULTS: Two hundred and sixty-three patients with PAIS were identified. Androgen receptor gene sequencing was performed in 111 patients. Twenty-seven (24%) had mutations. Family history of AIS was present in 61 and 21% of ARmt and ARwt patients, respectively. The median EMS was 3 in both groups. The majority of ARmt patients had abnormal binding and there was a tendency to a higher median testosterone rise on hCG stimulation in ARmt (9.3 nmol/l) compared with ARwt patients (6.9 nmol/l). All patients with EMS of 4 or more were raised as male but there was an overlap of sex of rearing in patients with an EMS less than 4. A wide variation of EMS in relation to genotype and sex of rearing was observed. CONCLUSION: The phenotype in PAIS is extremely variable and is rarely predicted by the AR genotype. Apart from the family history, there are no specific criteria to differentiate ARwt from ARmt. Sex of rearing is not entirely dependent on the EMS. Cultural issues, other modifying genes and response to androgen trials might be influencing factors. Collaborative studies with uniform protocols are needed to investigate infants with PAIS. Documenting phenotype, surgical procedures and outcome criteria are necessary to enable decision-making on the sex of rearing in patients with a lower range EMS.     

Acute stress masking the biochemical phenotype of partial androgen insensitivity syndrome in a patient with a novel mutation in the androgen receptor

Hypogonadism has traditionally been classified as either hypogonadotropic or hypergonadotropic based on serum gonadotropin levels. However, when hypothalamic suppression of GnRH secretion occurs, it can mask an underlying hypergonadotropic state. In this report we document the unusual case of a 61-yr-old man with androgen insensitivity and coincidental functional hypogonadotropic hypogonadism (HH). Although functional HH is not a well-recognized entity in the male, major stress has been reported to cause transient suppression of the hypothalamic-pituitary-gonadal axis in men. The patient in question was noted to have undervirilization, minimal pubertal development, hypogonadal testosterone, and low gonadotropin levels consistent with congenital HH during a hospital admission for myocardial infarction. However, the patient had also had surgery for hypospadias, a clinical feature not typically part of the phenotypic spectrum of congenital HH. We therefore hypothesized that the combination of acute stress and chronic glucocorticoid administration for temporal arteritis induced transient HH in a patient with a disorder of sexual differentiation in whom gonadotropin levels would have otherwise been elevated. Using clinical, molecular, and genetic studies, the patient was found to have partial androgen insensitivity syndrome (PAIS) caused by a novel mutation (Ser(740)Cys) in the ligand-binding domain of the androgen receptor. Subsequent studies of the patient confirmed the characteristic gonadotropin and sex steroid abnormalities of PAIS. We describe for the first time a patient with PAIS presenting with a reversible hypogonadotropic biochemical profile triggered by an acute illness and corticosteroid therapy. This case highlights the necessity for caution when interpreting gonadotropin levels during acute stress.     

Reduced expression and normal nucleotide sequence of androgen receptor gene coding and promoter regions in a family with partial androgen insensitivity syndrome

BACKGROUND AND OBJECTIVES Androgen insensitivity syndrome (AIS) is an X-linked disorder of XY males characterized by varying degrees of impaired masculinization. In many AIS cases, mutations have been identified in the coding sequence of the human androgen receptor (AR) gene which impair receptor function. Cases have also been reported in which reduced AR mRNA expression may contribute to AIS in association with AR gene mutations. The purpose of this study was to define the molecular basis of AIS in members of a family with clinical and laboratory features of partial androgen insensitivity (PAIS). DESIGN Genital skin fibroblast (GSF) cultures were established from foreskin tissue for androgen receptor binding analysis. Genomic DNA was obtained from blood leucocytes for AR gene nucleotide sequence analysis. AR mRNA levels were determined in total RNA extracted from GSF cultures. PATIENTS Three related subjects with perineo-scrotal hypospadias, bifid scrotum and microphallus were studied. The family pedigree of these subjects suggested an X-linked pattern of inheritance. Hormone assay results were consistent with AIS. MEASUREMENTS AR binding capacity and affinity were determined in three subjects and compared with unaffected male controls. The coding sequence and 1.4 kb of promoter region of the AR gene were amplified in overlapping fragments by polymerase chain reaction from genomic DNA and sequenced. GSF AR mRNA was measured by a competitive PCR technique. RESULTS In the PAIS subjects, AR affinity in cultured GSF was normal (K_d = 0.24, 0.30, 0.48 vs 0.27 ±0.07 (SD) nmol/l) but binding capacity was reduced (Bmax =0.31, 0.36, 0.27 vs 1.26 ±0.37 (SD) fmol/μg DNA). Sequence analysis of the CAG repeat polymorphism within exon 1 of the AR gene showed that both mothers were heterozygous at this locus, and that the three subjects had inherited the same allele. GSF AR mRNA levels were reduced in all three patients compared with controls (0.25, 0.74 and 0.74 vs 3.8 ±0.9 (SEM), range 1.8–7.3 amol/μg total RNA). The nucleotide sequences of the entire AR coding region and of a 1.4 kb segment containing the promoter region were normal. CONCLUSION Members of this family with clinical and biochemical evidence of X-linked partial androgen insensitivity syndrome demonstrated normal androgen receptor binding affinity and androgen receptor gene nucleotide sequence but reduced androgen receptor binding capacity and reduced androgen receptor mRNA. These results suggest that partial androgen insensitivity syndrome in this family may be caused by reduced expression of a normal androgen receptor gene.     

Mutations in the amino-terminal domain of the human androgen receptor may be associated with partial androgen insensitivity and impaired transactivation in vitro.

The majority of genetic variations in the androgen receptor (AR) gene are point mutations leading to impairment of the DNA- or hormone-binding domains. The N-terminus encoded by the first exon of the AR-gene usually harbors disruptive mutations associated with complete androgen insensitivity syndrome (CAIS) while missense mutations related with partial androgen insensitivity syndrome (PAIS) are seemingly rare. We present a 46,XY male with scrotal hypospadias in whom we detected a S432 F point mutation within the N-terminus. Transient transfections of an AR expression plasmid carrying the S432 F mutation using Chinese Hamster Ovary (CHO) cells revealed a significant partial reduction in transactivation of the co-transfected androgen responsive (ARE) (2)TATA luciferase reporter gene thus confirming PAIS. In two further 46, XY patients with slight to moderate virilization defects, we detected an S411 N mutation, and a 9 base pair deletion leading to the loss of amino acids 409 to 411 (L-A-S), respectively. These mutations did not compromise AR-function under the chosen experimental settings. The S432 F-patient supports particular significance of the AR-N-terminus for mild forms of AIS while the functional role of the two further mutations remains unclear. The N-terminus is a species-specific AR-domain possibly also involved in contributing to target tissue selectivity of AR-actions via mediating co-regulator interactions. Therefore, mild molecular defects of the AR-N-terminus may not necessarily inhibit general transactivation properties using currently established reporter gene models.     

Correlation of clinical, endocrine and molecular abnormalities with in vivo responses to high-dose testosterone in patients with partial androgen insensitivity syndrome

OBJECTIVE To investigate the responses of two patients previously diagnosed as Reifenstein's syndrome to graded high-dose testosterone in terms of hormone levels, nitrogen balance and sebum secretion and to attempt to correlate these parameters with the properties of their androgen receptors and mutations in the androgen receptor gene. DESIGN Nitrogen balance was determined by comparing controlled nitrogen intake to the amount excreted. Sebum excretion was measured on the forehead. Patients were studied during control periods (no treatment) and during administration of testosterone propionate. Blood samples were used as a source of genomic DNA and to measure peripheral hormone levels; androgen receptor binding was determined using genital skin fibroblasts. PATIENTS Two patients of XY karyotype, with ambiguous external genitalia and problems of testicular descent who had required mastectomy as teenagers. Normal male controls of proven fertility. MEASUREMENTS Nitrogen balance, sebum excretion rate and peripheral hormone levels (testosterone, dihydrotestosterone, LH and FSH) were studied before and after testosterone therapy (1 or 5 mg/kg/day). Genomic DNA was extracted from peripheral blood leucocytes and regions of the androgen receptor gene amplified by polymerase chain reaction using pairs of specific primers. Mobility of amplified DNA from patients was analysed on denaturing gradient acrylamide gels and fragments differing in mobility from those of normal controls were sequenced. Fibroblasts were cultured from scrotal skin biopsies and androgen receptor binding parameters, subcellular localization and up-regulation were determined. RESULTS Testosterone therapy resulted in raised plasma testosterone, dihydrotestosterone and oestradiol in both patients. In patient 1 (lesser genital abnormality), LH was suppressed by 5 mg/kg/day testosterone to the upper limit of the normal range but FSH remained low normal. Both LH and FSH were suppressed by testosterone treatment in patient 2 (greater genital abnormality). Nitrogen retention was increased in both patients (4.2 and 3.0 g/24 h respectively); sebum excretion rate increased to normal in patient 1 but showed no change in patient 2. Mutations in the androgen receptor gene were identified in both patients. In patient 1 a single nucleotide change from adenosine to guanosine resulted in the substitution of glycine for glutamic acid at position 772 within the hormone binding domain of the receptor. In patient 2 a single nucleotide mutation from guanosine to adenosine resulted in the substitution of lysine for arginine at position 608 (exon 3) situated in the second zinc finger of the DNA binding domain. Both patients had a normal number of androgen binding sites in genital skin fibroblasts but those in patient 1 showed reduced binding affinity and rapid dissociation of receptor/ligand complexes while those in patient 2 showed defective nuclear localization. CONCLUSION In patients with partial androgen insensitivity syndrome the type of androgen receptor mutation and responses to short-term androgen treatment can be correlated with the individual’s potential to virilize. If there is a mutation in the androgen receptor DNA binding domain the patient may show little ability to virilize either spontaneously at puberty or after androgen treatment. Sebum excretion appears to be more discriminating than nitrogen balance or gonadotrophin supression as an index of tissue response to androgens.     

Novel point mutation in the splice donor site of exon-intron junction 6 of the androgen receptor gene in a patient with partial androgen insensitivity syndrome

Androgen receptor (AR) gene mutations have been shown to cause androgen insensitivity syndrome with altered sexual differentiation in XY individuals, ranging from a partial insensitivity with male phenotype and azoospermia to a complete insensitivity with female phenotype and the absence of pubic and axillary sexual hair after puberty. In this study we present an 11-yr-old XY girl, with clinical manifestations peculiar for impaired androgen biological action, including female phenotype, blind-ending vagina, small degree of posterior labial fusion, and absence of uterus, fallopian tubes, and ovaries. At the time of the diagnosis the patient had a FSH/LH ratio according to the puberal stage, undetectable 17beta-estradiol, and high levels of testosterone (80.1 ng/mL). After bilateral gonadectomy, performed at the age of 11 yr, histological examination showed small embryonic seminiferous tubules containing prevalently Sertoli cells and occasional spermatogonia together with abundant fibrous tissue. Molecular study of the patient showed a guanine to thymine transversion in position +5 of the donor splice site in the junction between exon 6 and intron 6 of the AR gene. The result of RT-PCR amplification of the AR messenger ribonucleic acid from cultured genital skin fibroblasts of the patient suggests that splicing is defective, and intron 6 is retained in most of the receptor messenger ribonucleic acid molecules. We show by immunoblotting that most of the expressed protein lacks part of the C-terminal hormone-binding domain, and a small amount of normal receptor is observed. This is probably responsible for the reduced binding capacity in genital skin fibroblasts of the patient. The molecular basis of the alteration in this case is a novel, uncommon mutation, leading to a phenotype indicative of a partial androgen insensitivity syndrome, Quigley's grade 5.     

Genetic counselling in complete androgen insensitivity syndrome: trinucleotide repeat polymorphisms, single-strand conformation polymorphism and direct detection of two novel mutations in the androgen receptor gene

OBJECTIVE Androgen Insensitivity syndrome Is a disorder of male sexual development which results In varying degrees of undervlrlllzatlon In 46XY Individuals with functional testes. In the most severe form, complete androgen insensitivity syndrome (CAIS), patients have a normal female appearance. Although CAIS Is not life-threatening, affected individuals are Infertile and require counselling, gonadectomy, hormone therapy, and sometimes vaginoplasty. Many families therefore request genetic counselling. Defects in the androgen receptor gene account for most if not all cases of CAIS. The purpose of this study was to evaluate the use of the polyglutamlne and polyglycine trinucleotide repeat polymorphisms in the first exon of the androgen receptor gene for carrier status determination In three CAIS families. In two of these families novel mutations In the androgen receptor gene were subsequently identified which allowed confirmation of carrier status and also a prenatal diagnosis to be made in one family. PATIENTS Three CAIS families were studied. The Index cases all presented with a clinical phenotype typical of CAIS. measurements Family members were typed Initially for the polyglutamlne repeat. In one family this was not Informative and the polyglycine repeat was therefore studied. In this and one further family, the androgen receptor gene was sequenced to Identify the mutation causing the CAIS. RESULTS On the basis of Information from trinucleotide repeat analysis carrier status could be assessed In each family. In one family, evidence for somatic instability of the polyglutamlne repeat was found. In the same family, a novel mutation In the androgen receptor gene, which substituted valine for leucine 881, was identified. Other family members were subsequently typed for the mutation and a prenatal diagnosis was performed. A novel mutation was also identified in a second family substituting the glycine codon at position 371 with a stop codon. Other family members were typed for this mutation. CONCLUSIONS Both the polyglutamlne and polyglycine repeat polymorphisms are useful for the genetic counselling of complete androgen Insensitivity syndrome families. In some cases, however, where the family history is limited, more precise information can be provided only once the androgen receptor mutation causing the complete androgen Insensitivity syndrome has been Identified.     

Complete androgen insensitivity caused by a new frameshift deletion of two base pairs in exon 1 of the human androgen receptor gene.

We describe a novel mutation in exon 1 of the androgen receptor gene in a patient with complete androgen insensitivity (CAIS). Endocrine findings were typical for androgen insensitivity (testosterone serum levels in the upper limit of normal males and increased LH serum concentrations). Biochemical investigations in cultured genital skin fibroblasts of the patient showed a normal 5alpha-reductase activity but a complete absence of androgen binding. Western blot analysis revealed no detectable protein product. Sequence analysis of the entire coding region of the androgen receptor gene resulted in the identification of a 2-bp deletion in codon 472, causing frameshift and introduction of a premature stop codon 27 codons downstream of the mutation.     

Apoptosis and necrosis: two distinct events induced, respectively, by mild and intense insults with N-methyl-D-aspartate or nitric oxide/superoxide in cortical cell cultures.

N-Methyl-D-aspartate (NMDA) receptor-mediated neurotoxicity may depend, in part, on the generation of nitric oxide (NO.) and superoxide anion (O2.-), which react to form peroxynitrite (OONO-). This form of neurotoxicity is thought to contribute to a final common pathway of injury in a wide variety of acute and chronic neurologic disorders, including focal ischemia, trauma, epilepsy, Huntington disease, Alzheimer disease, amyotrophic lateral scelerosis, AIDS dementia, and other neurodegenerative diseases. Here, we report that exposure of cortical neurons to relatively short durations or low concentrations of NMDA, S-nitrosocysteine, or 3-morpholinosydnonimine, which generate low levels of peroxynitrite, induces a delayed form of neurotoxicity predominated by apoptotic features. Pretreatment with superoxide dismutase and catalase to scavenge O2.- partially prevents the apoptotic process triggered by S-nitrosocysteine or 3-morpholinosydnonimine. In contrast, intense exposure to high concentrations of NMDA or peroxynitrite induces necrotic cell damage characterized by acute swelling and lysis, which cannot be ameliorated by superoxide dismutase and catalase. Thus, depending on the intensity of the initial insult, NMDA or nitric oxide/superoxide can result in either apoptotic or necrotic neuronal cell damage.     

Ancillary measures in treatment of myeloma. Use of immune serum globulin, fluoride, or androgen.

We reviewed the efficacy of three agents advocated as ancillary therapy in myeloma patients. Intramuscularly administered immune serum globulin (gamma globulin) was ineffective in preventing infection. Hemoglobin level was improved in some myeloma patients receiving androgens. However, the response rate and the degree of leukopenia or thrombocytopenia were not superior with androgen-melphalan-prenisone combination therapy, as compared with those resulting from the two-drug combination without androgen. A controlled study evaluating androgen plus melphalan has not been done. The long-term administration of fluoride, supplemented by calcium and androgen, induced radiologically apparent bone fluorosis, but strengthening of lytic bone was not observed. Neither objective nor subjective benefit was demonstrated in a controlled study comparing the effects of fluoride (without calcium supplement) with those of the placebo.     

Clinical,hormonal, behavioral,and genetic characteristics of androgen insensitivity syndrome in a Brazilian cohort: five novel mutations in the androgen receptor gene

Androgen insensitivity syndrome (AIS) is caused by mutations in the androgen receptor gene and is associated with a variety of phenotypes in 46,XY individuals, ranging from phenotypic women [complete form (CAIS)] to men with minor degrees of undervirilization or infertility [partial form (PAIS)]. We studied 32 subjects with male pseudohermaphroditism from 20 families (9 CAIS, 11 PAIS) with the following criteria for AIS: 46,XY karyotype, normal male basal and human chorionic gonadotropin-stimulated levels of serum testosterone and steroid precursors, gynecomastia at puberty, and, in prepubertal patients, a family history suggestive of X-linked inheritance. The entire coding region of the androgen receptor gene was analyzed, and mutations were found in all families with CAIS and in eight of 11 families with PAIS. Fifteen different mutations were identified, including five (S119X, T602P, L768V, I898F, and P904V) that have not been described previously. Detailed clinical and hormonal features were compared with genotype in 25 subjects with AIS and confirmed by mutational analysis. LH hormone levels and the LH x testosterone product were high in all postpubertal subjects with AIS. All subjects with PAIS maintained at postpubertal age the gender identity and social sex that was assigned to them in infancy, in contrast to other forms of pseudohermaphroditism.     

Applicability of the SHBG androgen sensitivity test in the differential diagnosis of 46,XY gonadal dysgenesis, true hermaphroditism, and androgen insensitivity syndrome.

The sex hormone-binding globulin (SHBG) androgen sensitivity test has been used as a simple method to assess androgen receptor function in vivo. After a short term oral administration of the anabolic-androgenic steroid stanozolol the mean nadir serum concentration of SHBG is used as a measure of androgen response. We performed this test in order to evaluate its applicability in 16 patients with intersexual genital status: eleven with 46,XY gonadal dysgenesis and three with true hermaphroditism (group I), and in two patients with androgen insensitivity syndrome (AIS, group II). Ten healthy adult volunteers served as controls. In the two patients with AIS (group II) we found a diminished decrease of serum SHBG to 80.1 % and 80.7 %, respectively, indicating slight residual androgen responsiveness. In eleven patients of group I who were not on hormone replacement therapy, a mean nadir level of 51.7 +/- 8.7 % was found. In the controls the mean nadir serum SHBG level was significantly higher (62.7 +/- 5.2 %), probably due to interference of endogenous androgens and contraceptive medication with the stanozolol-induced SHBG decrease. In three gonadectomised patients who were on hormone replacement therapy the initial SHBG concentration was increased (513.5 +/- 239.1 nmol/l); the mean nadir SHBG concentration of 45.6 +/- 9.8 % of the initial level indicates an increased sensitivity of the test in patients in whom the counteracting ovarian androgens are absent. Our findings confirm that under standard test conditions the SHBG androgen sensitivity test is a simple diagnostic tool for the detection of androgen receptor malfunction.