Melatonin mediates seasonal transitions in aggressive behavior and circulating androgen profiles in male Siberian hamsters.

Some seasonally-breeding animals are more aggressive during the short, "winter-like" days (SD) of the non-breeding season, despite gonadal regression and reduced circulating androgen levels. While the mechanisms underlying SD increases in aggression are not well understood, previous work from our lab suggests that pineal melatonin (MEL) and the adrenal androgen dehydroepiandrosterone (DHEA) are important in facilitating non-breeding aggression in Siberian hamsters (Phodopus sungorus). To characterize the role of MEL in modulating seasonal transitions in aggressive behavior, we housed male hamsters in long days (LD) or SD, treated them with timed MEL (M) or saline injections, and measured aggression after 3, 6, and 9 weeks. Furthermore, to assess whether MEL mediates seasonal shifts in gonadal and adrenal androgen synthesis, serum testosterone (T) and DHEA concentrations were quantified 36 h before and immediately following an aggressive encounter. LD-M and SD males exhibited similar physiological and behavioral responses to treatment. Specifically, both LD-M and SD males displayed higher levels of aggression than LD males and reduced circulating DHEA and T in response to an aggressive encounter, whereas LD males elevated circulating androgens. Interestingly, LD and SD males exhibited distinct relationships between circulating androgens and aggressive behavior, in which changes in serum T following an aggressive interaction (∆T) were negatively correlated with aggression in LD males, while ∆DHEA was positively correlated with aggression in SD males. Collectively, these findings suggest that SD males transition from synthesis to metabolism of circulating androgens following an aggressive encounter, a mechanism that is modulated by MEL.

Spontaneous virilization around puberty in NR5A1-related 46,XY sex reversal: additional case and a literature review.

A heterozygous NR5A1 mutation is one of the most frequent causes of 46,XY DSD (disorders of sex development). We here reported a NR5A1-related 46,XY DSD patient, who first received endocrinological attention at 10 years of age for clitoromegaly. The patient had been reared as a girl, and no signs of virilization had been detected before. On examination, her clitoris was 35 mm long and 10 mm wide, with Tanner 3° pubic hair. Urogenital sinus and labial fusion was absent, while her uterus was found to be severely hypoplastic. Her basal testosterone level was 94.8 ng/dL, suggesting the presence of functioning Leydig cells. Gonadal histology revealed bilateral dysplastic testes consisting of mostly Sertoli cell-only tubules and Leydig cell hyperplasia. Novel heterozygous Arg313Leu substitution in NR5A1 was identified in the patient. Literature search confirmed twelve other cases of this scenario, namely, severe under-virilization in utero followed by spontaneous virilization around puberty in NR5A1-related 46,XY DSD. Of interest, Leydig cell hyperplasia was documented in 6 out of 9 patients for whom testicular histology was available. To keep in mind about the possible restoration of Leydig cell function around puberty, even in patients without discernible in utero androgen effect, may be of clinical significance, because it will give a great impact on the judgement about sex assignment.

The effect of hormone therapy on biochemical and ultrasound parameters associated with atherosclerosis in 46,XY DSD individuals with female phenotype.

The aim of this study was to evaluate the effect of hormone therapy (HT) in the endothelial function of 46,XY disorders of sexual development (DSD) patients with female phenotype. Biochemical and ultrasound measurements were performed in 20 patients at initiation of oral 2 mg 17ß-estradiol/1 mg norethisterone acetate, and after 6 months of therapy. Lipid profile, including total cholesterol (TC), LDL, HDL, triglycerides (TG) and Atherogenic Index of Plasma (AIP), as well as levels of VE-Cadherin, E-Selectin, Thrombomodulin and vWf were determined. Ultrasonographic examinations included evaluation of flow-mediated dilatation (FMD) and measurement of Carotid and Femoral Intima Media Thickness (IMT). HT raised HDL (35.4 mg/dl versus 40.1 mg/dl, p = 0.019) while lowering TG (166 mg/dl versus 109 mg/dl, p = 0.026) and AIP (0.24 versus 0.04, p = 0.007). No changes were noted in TC and LDL (215.7 mg/dl versus 192.25 mg/dl and 87.46 mg/dl versus 76.35 mg/dl, respectively). There was significant reduction of VE-Cadherin (4.05 ng/ml versus 2.20 ng/ml, p = 0.002) and E-selectin (73.98 ng/ml versus 56.73 ng/ml, p = 0.004). No change was observed in Thrombomodulin and vWf (11.76 ng/ml versus 13.90 ng/ml and 80.75% versus 79.55%, respectively). FMD improved significantly (5.4% versus 8.15%, p = 0.003), while only carotid bulb IMT decreased significantly (0.65 mm versus 0.60 mm, p = 0.018). Overall, HT was found to improve biochemical and ultrasound markers of endothelial function in 46,XY DSD patients with female phenotype.

Gonadotrophin secretion pattern in anorchid boys from birth to pubertal age: pathophysiological aspects and diagnostic usefulness.

CONTEXT: The biphasic ontogeny of serum gonadotrophins observed in normal children also exists in girls with gonadal dysgenesis, although with higher levels. However, limited data exist in prepubertal boys with anorchia. OBJECTIVE: To investigate whether the existence of testicular tissue is required for gonadotrophin downregulation in boys. Secondarily, we analysed the prevalence of high gonadotrophins and its diagnostic value to assess the presence or absence of testes in childhood. STUDY DESIGN: In a retrospective, semi-longitudinal study, we compared serum gonadotrophin levels in 35 boys with anorchia aged 0-18 years, in 29 bilaterally cryptorchid boys with abdominal testes and in 236 normal boys. RESULTS: In anorchid boys, follicle stimulating hormone (FSH) and luteinizing hormone (LH) were abnormally high in the first months after birth, then decreased progressively. LH decreased more readily than FSH and dropped to normal values in up to 70% of anorchid patients before the usual age of pubertal onset, when both gonadotrophins increased again to very high levels. In cryptorchid boys, FSH was elevated in a significantly (P < 0·0001) lower proportion of cases. Below the age of 6 years, FSH below 2 IU/l ruled out anorchia and LH above 5 IU/l confirmed anorchia with high accuracy. Between 6 and 11 years, FSH or LH levels above 5 IU/l were highly specific for the absence of testes. CONCLUSIONS: The U-shaped pattern of serum gonadotrophins observed in normal males from birth to puberty was also found in anorchid boys, but with gonadotrophin levels considerably elevated. Serum gonadotrophin levels may normalize in anorchid boys during late childhood only to rise again at puberty. The presence of testicular tissue results in restrain of gonadotrophin secretion in most patients, even if the testes are cryptorchid.

Identification of novel SRY mutations and SF1 (NR5A1) changes in patients with pure gonadal dysgenesis and 46,XY karyotype.

Primary amenorrhea due to 46,XY disorders of sexual development (DSD) is complex with the involvement of several genes. Karyotyping of such patients is important as they may develop dysgerminoma and molecular analysis is important to identify the underlying mechanism and explore the cascade of events occurring during sexual development. The present study was undertaken for the genetic analysis in seven patients from five families presenting with primary amenorrhea and diagnosed with pure gonadal dysgenesis. Karyotyping was done and the patients were screened for underlying changes in SRY, desert hedgehog (DHH), DAX1 (NR0B1) and SF1 (NR5A1) genes, mutations in which are implicated in DSD. All the patients had 46,XY karyotype and two novel SRY mutations were found. In Family 1 (Patient S1.1) a missense mutation c.294G>A was seen, which results in a stop codon at the corresponding amino acid (Trp98X) and in Family 2 (Patients S2.1, S2.2 and S2.3), a missense mutation c.334G>A (Glu112Leu) was identified in all affected sisters. Both mutations were seen to occur in the conserved high mobility group box of SRY gene. One heterozygous change c.427G>A resulting in Glu143Lys in DHH gene in one patient and two heterozygous changes in the intronic region of SF1 (NR5A1) gene (c.244+80G>A+ c.1068-20C>T) in another patient were noted. One individual did not show changes in any of the genes analyzed. These results reiterate the importance of SRY and others, such as SF1 (NR5A1) and DHH, that are involved in the cascade of events leading to sex determination and also their role in sex reversal.

Bilateral vanished testes diagnosed with a single blood sample showing very high gonadotropins (follicle-stimulating hormone and luteinizing hormone) and very low inhibin B.

OBJECTIVE: In boys with cryptorchidism median serum values of follicle-stimulating hormone (FSH) and luteinizing hormone (LH) are higher and median serum values of inhibin B lower than in normal controls. Serum values of inhibin B reflect the state of germinative epithelium in cryptorchid testes. The aim of the study was to evaluate whether a simple blood sample of gonadotropins and inhibin B could diagnose bilateral vanished testes. MATERIAL AND METHODS: Group I included five boys (4 months to 6 years and 3 months old) with bilateral vanished testes at laparoscopy. Group II included 82 boys with bilateral cryptorchidism younger than 7 years of age at surgery for bilateral cryptorchidism (median age 1 year and 9 months). RESULTS: The serum levels of hormones for the patients with vanished testes were: inhibin B 5?18 pg/ml, FSH 41-191 IU/l and LH 3.9?56 IU/l. The patients all had karyotype 46,xy. The serum levels of hormones from group II were: inhibin B median 122 (range 20?404) pg/ml, FSH median 0.8 (range 0.2?3.5) IU/l and LH median 0.2 (range 0.1-3.2) IU/l. The serum levels of inhibin B, FSH and LH from the boys with vanished testes were significantly different from the serum levels of the boys with bilateral cryptorchidism (p = 0.0026, p < 0.0001 and p < 0.0001, respectively). CONCLUSIONS: The serum values of gonadotropins and inhibin B from boys with bilateral vanished testes were significantly different from those of bilateral cryptorchid boys, indicating no germinative epithelium, no Sertoli cells and compensatory high gonadotropins. If such abnormal serum values are obtained from boys with bilateral non-palpable testes, tubular tissue is not present and surgery can be avoided.

Serum Concentrations and Gonadal Expression of INSL3 in Eighteen Males With 45,X/46,XY Mosaicism.

Objective: Insulin-like factor 3 (INSL3) is produced in the testes and has been proposed as a circulating biomarker of Leydig cell capacity, but remains undescribed in 45,X/46,XY mosaicism. The aim was to examine serum concentrations and gonadal expression of INSL3 in 45,X/46,XY mosaicism. Methods: Retrospectively collected data from medical records, gonadal tissue samples, and prospectively analyzed serum samples from eighteen male patients with 45,X/46,XY mosaicism (one prepubertal, four testosterone-treated, 13 untreated) were included. Biochemical, clinical, and histological outcomes were evaluated according to serum INSL3 concentrations, quantified by LC-MS/MS methodology, and gonadal INSL3 immunohistochemical expression. Results: Serum INSL3 concentrations spanned from below to above the reference range. In untreated patients, the median serum INSL3 SD score was -0.80 (IQR: -1.65 to 0.55) and no significant difference was observed between INSL3 and testosterone. There was no clear association between serum INSL3 and External Genitalia Score at diagnosis, spontaneous puberty, or sperm concentration. INSL3 and CYP11A1 expression overlapped, except for less pronounced INSL3 expression in areas with severe Leydig cell hyperplasia. No other apparent links between INSL3 expression and histological outcomes were observed. Conclusions: In this pilot study, serum INSL3 concentrations ranged and seemed independent of other reproductive hormones and clinical features in males with 45,X/46,XY mosaicism. Discordant expression of INSL3 and CYP11A1 may explain low INSL3 and normal testosterone concentrations in some patients. Further studies are needed to elucidate the divergence between serum INSL3 and testosterone and the potential clinical use of INSL3.

Steroidogenic factor-1 (SF-1) gene mutation as a frequent cause of primary amenorrhea in 46,XY female adolescents with low testosterone concentration.

BACKGROUND: Primary amenorrhea due to 46,XY disorders of sex differentiation (DSD) is a frequent reason for consultation in endocrine and gynecology clinics. Among the genetic causes of low-testosterone primary amenorrhea due to 46,XY DSD, SRY gene is reported to be frequently involved, but other genes, such as SF1 and WT1, have never been studied for their prevalence. METHODS: We directly sequenced SRY, SF1 and WT1 genes in 15 adolescent girls with primary amenorrhea, low testosterone concentration, and XY karyotype, to determine the prevalence of mutations. We also analyzed the LH receptor gene in patients with high LH and normal FSH concentrations. RESULTS: Among the 15 adolescents with primary amenorrhea and low testosterone concentration, we identified two new SRY mutations, five new SF1 mutations and one new LH receptor gene mutation. Our study confirms the 10-15% prevalence of SRY mutations and shows the high prevalence (33%) of SF1 abnormalities in primary amenorrhea due to 46,XY DSD with low plasma testosterone concentration. CONCLUSIONS: The genetic analysis of low-testosterone primary amenorrhea is complex as several factors may be involved. This work underlines the need to systematically analyze the SF1 sequence in girls with primary amenorrhea due to 46,XY DSD and low testosterone, as well as in newborns with 46,XY DSD.

Monochorionic twins with the same blood karyotype of 46,XY/47,XYY but different phenotypes.

We report the case of a 13-year-old woman who was pregnant with phenotypically discordant monochorionic twins: one with cystic hygroma and hydrops, the other one normal. Fetal blood sampling was performed by intrahepatic blood collection for karyotyping of both fetuses, revealing the same genotype of 46,XY/47,XYY in 2:1 proportion. Phenotypic discordance in monozygotic twins can have various causes, such as placental vascular anatomy, differences in allocation of the number of blastomeres or genetic postzygotic events.

XY Gonadal Dysgenesis in a Phenotypic Female Identified by Direct-to-Consumer Genetic Testing.

We report a 16-year-old phenotypic female with 46,XY complete gonadal dysgenesis and metastatic dysgerminoma, unexpectedly discovered through direct-to-consumer (DTC) commercial genetic testing. This case underscores the importance of timely interdisciplinary care, including psychosocial intervention and consideration of gonadectomy, to optimize outcomes for individuals with differences of sex development. Her unique presentation highlights the implications of DTC genetic testing in a new diagnostic era and informs general pediatricians as well as specialists of nongenetic services about the value, capabilities, and limitations of DTC testing.

[Diagnosis and management of 46,XY mixed gonadal dysgenesis and disorder of sexual differentiation]. / 46,XY misrios gonadu dizgenezes ir lytines diferenciacijos sutrikimo diagnozavimas ir gydymas.

OBJECTIVE: We present our experience in diagnosing, gender assignment, and surgical management of sexual ambiguity in 46,XY mixed gonadal dysgenesis. MATERIAL AND METHODS: A retrospective study of five cases treated from 2003 to 2006 was performed. Clinical picture, operative findings, testosterone levels, and immunohistochemistry of gonads for the expression of FOXL2, SOX9, AMH, AMHr, C-kit, and PLAP were analyzed. RESULTS: All patients had ambiguous genitalia, urogenital sinus, uterus, testicle on one side, and a streak gonad on the other. Four patients were reared as male and one as female. Stimulation by human chorionic gonadotropin showed good penile size and testosterone response. All patients underwent laparoscopic gonadal biopsy and/or gonadectomy. Histological studies showed the presence of sparse primordial follicles surrounded by embryonic sex cords in the streak portion of gonads. Germ cells were C-kit positive in all and PLAP positive in four patients. FOXL2 expression was detected in four streak gonads and in none of testes. AMH expression was found only in testes. SOX9 expression was found in both investigated testes and in three out of four streak gonads investigated. CONCLUSIONS: 46,XY mixed gonadal dysgenesis should be differentiated from ovotesticular and other types of 46,XY disorders of sexual differentiation by the typical gonadal histology and internal genital structure. High testosterone level after stimulation and good response to testosterone treatment in 46,XY mixed gonadal dysgenesis could orient toward male sex assignment. There are different patterns of gene expression in testicular and streak gonads with a switch to FOXL2 positivity in streak gonads. Early gonadal and genital surgery is recommended.

XX Maleness and XX true hermaphroditism in SRY-negative monozygotic twins: additional evidence for a common origin.

CONTEXT: Differentiation of testicular tissue in 46,XX individuals is seen either in XX males, the majority of them with SRY gene, or in individuals, usually SRY(-), with ovotesticular disorder of sex development (OT-DSD). Although they are sporadic cases, there are some reports on familial recurrence, including coexistence of XX maleness and OT-DSD in the same family. OBJECTIVE: We report on a case of SRY(-) 46,XX monozygotic twins with genital ambiguity. METHODS: Hormonal evaluation included testosterone, FSH, and LH measurements. SRY gene was investigated by PCR and two-step PCR in peripheral leukocytes and gonadal tissues, respectively. Direct DNA sequencing of the DAX-1 coding sequence was performed. Real-time PCR for SOX9 region on chromosome 17 was obtained. RESULTS: Both twins had a 46,XX karyotype. Twin A had a 1-cm phallus with chordee, penoscrotal hypospadias, and palpable gonads. Serum levels of FSH (2.34 mIU/ml), LH (8.8 mIU/ml), and testosterone (1.6 ng/ml) were normal, and biopsies revealed bilateral testes. Twin B had a 0.5-cm phallus, perineal hypospadias, no palpable gonad on the right, and a left inguinal hernia. Hormonal evaluation revealed high FSH (8.2 mIU/ml) and LH (15 mIU/ml) and low testosterone (0.12 ng/ml). Upon herniotomy, a right testis (crossed ectopia) and a small left ovotestis were found. SRY gene was absent in both peripheral leukocytes and gonadal tissue samples. Neither DAX-1 mutations nor SOX9 duplication was identified. CONCLUSIONS: This case provides evidence that both XX maleness and XX OT-DSD are different manifestations of the same disorder of gonadal development.

Molecular analysis of the AR and SRD5A2 genes in patients with 46,XY disorders of sex development.

The aim of this study was to assess the clinical and endocrinological features, and to analyze AR and SRD5A2 genes in patients with 46,XY disorders of sex development (DSD). This study included 20 patients from 19 families showing clinical features of 46,XY DSD. Molecular analysis was performed of the AR and SRD5A2 genes, as well as endocrinological evaluations, such as 17a-hydroxyprogesterone, plasma renin activity, aldosterone, adrenocorticotropic hormone and hCG stimulation test. Out of 20 patients with 46,XY DSD, only one (5%) displayed androgen insensitivity syndrome (AIS), and four (20%) were 5alpha-reductase deficient by mutation analysis. The patient with AIS revealed significant elevation of serum testosterone following hCG stimulation. The patient with 5alpha-reductase deficiency with a homozygous p.R246Q mutation had a low basal dihydrotestosterone level. The patient with p.Q6X/p.R246Q mutations showed a moderately elevated testosterone/dihydrotestosterone ratio following hCG stimulation. Endocrinological tests are not reliable for the etiological diagnosis of AIS and 5alpha-reductase deficiency due to variable reference ranges of hormonal profiles according to the age and the severity of the enzyme defect. DNA analysis may be employed as a tool for the early and precise diagnosis of patients with 46,XY DSD, and genetic counseling can be used for families at risk.

Karyotypes, confined blood chimerism, and confusion: a case of genetic sex mislabelling and its potential consequences.

Disorders of sex development (DSD) encompass a range of conditions, and the management of infants with DSD can be extremely complex. However, the misdiagnosis of a normal infant as a case of DSD may lead to unfortunate long-term consequences for the individual and the family. We report a case of confined blood chimerism masking as 46 XY gonadal dysgenesis in a female from a twin pair with discordant genders, which led to incorrect sex determination at birth. The potentially serious consequences of a wrong DSD diagnosis are discussed, including the removal of normal ovaries. This case emphasises the importance of confirming a blood karyotype where there is discordance with the clinical phenotype and, where possible, identifying whether functional gonadal tissue is present.

Complete development of secondary sex characteristics in a case of 46,XY pure gonadal dysgenesis.

Although pubertal development is unusual in 46,XY gonadal dysgenesis, it may occur in association with gonadal tumors. The authors report a case of 46,XY gonadal dysgenesis in a 17-year-old girl remarkable for H-Y+ phenotype and bilateral gonadoblastomas accompanied by dysgerminomatous change and nearly complete female secondary sex development. Endocrinologic activity of the gonads was indicated by marked decrease in sex steroid production after gonadectomy. Occurrence of gonadal neoplasia in this case is consistent with the observation that neoplastic transformation is likely in H-Y+ cases of 46,XY gonadal dysgenesis.

Decreased melatonin secretion in a phenotypically male 46,XX patient with classic 21-hydroxylase deficiency.

The possible role of gonadal steroids and gonadotropins in regulating melatonin secretion has been suggested in clinical syndromes of the hypothalamic-pituitary-gonadal axis. We describe the results of melatonin secretion in a 37-year old male patient who presented with azoospermia. The patient was an XX male, had classic simple virilizing form of 21-hydroxylase deficiency, which led to a masculine phenotype. He was ovariectomized at the age of three years and reared as a male. Melatonin production (aMT6s) was determined at baseline and during 12 months of replacement therapy. Results were compared with those obtained in age-matched male controls. Pretreatment aMT6s values were decreased (14.3 microg/24 h vs. 29.0+/-5.5 in controls). Dexamethasone replacement was associated with an increase in aMT6s values (19.3-20.9 microg/24 h). The addition of testosterone to dexamethasone replacement resulted in normalization of aMT6s (27.6-33.1 microg/24 h) and serum 17OH progesterone, testosterone and estradiol levels. The present data indicate that androgen excess due to 21 hydroxylase deficiency is associated with decreased melatonin secretion. These results support the hypothesis that sex steroids modulate melatonin secretion.

Inherited impairment of nuclear androgen uptake as a cause of familial androgen insensitivity.

The endocrine and biochemical characteristics of four related 46,XY pseudohermaphrodite patients with the Reifenstein Syndrome are presented. All of them (6 and 9 years old, first generation, and 9 and 12 months old, second generation) exhibited ambiguity of external genitalia and a family pedigree characteristic of an X-linked pattern of inheritance. Serum basal levels of LH, FSH, testosterone (T), androstenedione and 5 alpha-dihydrotestosterone (DHT) were within normal limits. Administration of hCG induced a normal response in terms of serum T in three of the patients, with a concomitant increase in serum DHT. However, an abnormally elevated T: DHT ratio was found in two of these subjects on the day of maximal T response (T: DHT ratio, 24 and 27; normal range, 4-21). Genital skin-derived fibroblasts from all patients were studied for [3H]DHT uptake in a whole-cell monolayer assay. Three of the mutant strains exhibited values of [3H]DHT uptake at 37 degrees C within the lower limits of normality (39.4-47.05 fmol/mg protein/h; normal strains, 36-101 fmol/mg protein/h), whereas fibroblasts from the remaining patient presented a slightly decreased uptake (31.66 fmol/mg protein); when studied at 42 degrees C, all mutant strains behaved as the normal controls. The existence of a specific 4.6 S cytosol androgen receptor was clearly seen in the two mutant strains when analysed by sucrose gradient centrifugation. Nevertheless, in one of the mutant strains, a significantly low maximal nuclear [3H]DHT uptake was detected (173.6 fmol/mg DNA; control strain, 301.6 fmol/mg DNA). The overall data were interpreted as demonstrating the existence of an impaired uptake of the androgen-receptor complex at the nuclear levels as the cause of the incomplete phenotypic expression of androgen action in this family. In this setting, the presence of low peripheral 5 alpha-reductase activity may be considered as a secondary manifestation of the androgen insensitivity.

46, XY pure gonadal dysgenesis: a case with Graves' disease and exceptionally tall stature.

A case of 46, XY pure gonadal dysgenesis with very tall stature was investigated. The 24-year-old, phenotypically female patient consulted our clinic because of linear growth persisting into adulthood. The patient was found to have no mutation or deletion of a sex-determining region of the Y chromosome, and also was found to have Graves' disease. Growth was arrested with height remaining at 187 cm after normalization of the thyroid function by treatment with an antithyroid agent, although follow-up to monitor growth was limited to 3 months. In some cases of gonadal dysgenesis, then, Graves' disease may contribute to an abnormally tall stature.

Testicular regression syndrome. A case report.

Testicular regression syndrome occurred in a 20-year-old, white, phenotypic female with a 46,XY karyotype. The basal levels of serum gonadotropins were elevated, while the testosterone was in the normal range. Estrogens were undetectable. At laparotomy no gonadal rudiments or müllerian or wolffian derivatives were found. The logical diagnosis was late embryonic testicular regression with a specific testicular insult 62-63 days after fertilization.