Sex Reversal Syndrome (SRS): A Case of SRY-Positive 46,XX Testicular Disorder.

We report a case of an SRY-positive 46,XX Indian male who presented with small testis and phallus, poor beard and mustache development and gynecomastia at the age of 24 years. He was biochemically found to have hypergonadotropic hypogonadism. He had 46,XX karyotype and Quantitative Fluorescence-PCR (QF-PCR) identified the SRY gene on the X chromosome. SRY-positive 46 XX male SRS cases usually present as phenotypically male since birth but develop features of hypogonadism, poor testicular development, and infertility after puberty. Infertility, hypogonadism, external genital development, and psychological distress are the major concerns during the management of the patients. Testosterone therapy for hypogonadism, artificial reproductive technologies for fertility, surgical repair of hypospadias/ cryptorchidism/under-virilized genitalia and psychological and genetic counseling are helpful for proper management of the patients.

Genotipificación del gen RHD en ADN fetal libre en plasma de embarazadas RhD negativo / Genotyping of the RHD gene in free fetal DNA in plasma of RhD negative pregnant women

Objetivo: Determinar el grupo RhD fetal a través del estudio del gen RHD en ADN fetal que se encuentra libre en plasma de embarazadas RhD negativo. Método: Se analizó la presencia de los genes RHD, SRY y BGLO en ADNfl obtenido de plasma de 51 embarazadas RhD negativo no sensibilizadas, utilizando una qPCR. Los resultados del estudio genético del gen RHD se compararon con el estudio del grupo sanguíneo RhD realizado por método serológico en muestras de sangre de cordón, y los resultados del estudio del gen SRY fueron cotejados con el sexo fetal determinado por ecografía. Se calcularon la sensibilidad, la especificidad, los valores predictivos y la capacidad discriminativa del método estandarizado. Resultados: El gen RHD estaba presente en el 72,5% de las muestras y el gen SRY en el 55,5%, coincidiendo en un 100% con los resultados del grupo RhD detectado en sangre de cordón y con el sexo fetal confirmado por ecografía, respectivamente. Conclusiones: Fue posible deducir el grupo sanguíneo RhD del feto mediante el estudio del ADN fetal que se encuentra libre en el plasma de embarazadas con un método molecular no invasivo desarrollado y validado para este fin. Este test no invasivo puede ser utilizado para tomar la decisión de administrar inmunoglobulina anti-D solo a embarazadas RhD negativo que portan un feto RhD positivo.

Objective: To determine the fetal RhD group through the study of the RHD gene in fetal DNA found free in plasma of RhD negative pregnant women. Method: The presence of the RHD, SRY and BGLO genes in fetal DNA obtained from plasma of 51 non-sensitized RhD negative pregnant women was analyzed using qPCR. The results of the genetic study of the RHD gene were compared with the RhD blood group study performed by serological method in cord blood samples, and the results of the SRY gene study were compared with the fetal sex determined by ultrasound. Sensitivity, specificity, predictive values and discriminative capacity of the standardized method were calculated. Results: The RHD gene was present in 72.5% of the samples and the SRY gene in 55.5%, coinciding 100% with the results of the RhD group detected in cord blood, and with the fetal sex confirmed by ultrasound, respectively. Conclusions: It was possible to deduce the RhD blood group of the fetus through the study of fetal DNA found free in the plasma of pregnant women with a non-invasive molecular method developed and validated for this purpose. This non-invasive test can be used to make the decision to administer anti-D immunoglobulin only to RhD-negative pregnant women carrying an RhD-positive fetus.

Generation of a human induced pluripotent stem cell line (SMUSHi001-A) from a patient with 46, XX male sex reversal syndrome carrying the SRY gene.

The 46, XX male sex reversal syndrome (SRS) is a rare disease with a gender dysplasia phenotype. Scientists concur that SRS is associated with translocation of the sex-determining region Y gene (SRY). We obtained peripheral blood mononuclear cells (PBMCs)from an 18-year-old male with SRS to generate an induced pluripotent stem cell (iPSC) line (SMUSHi001-A). Karyotyping analysis of the patient PBMCs revealed a normal 46, XX karyotype carrying the SRY gene. Pluripotent markers were successfully detected in SMUSHi001-A which can be differentiated into three germ layers in vitro. This cell line will provide a cell model for exploring the pathogenesis and potential therapeutic methods of SRS.

A rare case of 46, XX (SRY positive) testicular disorder of sex development with growth hormone deficiency: Case report.

RATIONALE: Chromosome karyotype analysis and SRY (sex determined region of Y chromosome) gene detection are routines for the diagnosis of growth hormone deficiency (GHD), but further whole exome gene sequencing occasionally leads to subversive results and unexpected conclusions. PATIENT CONCERNS: We report a single case of a 7-year-old Chinese boy who had stunted growth since he was 1 year old. He was short in height (height Standard Deviation Score (SDS) was less than 2.9), bilateral scrotal dysplasia and delayed bone age. DIAGNOSIS: His growth hormone (GH) stimulation tests showed GHD. His karyotype analysis and polymerase chain reaction (PCR) analyses indicated a 46, XX disorder of sex development (DSD) without the presence of the SRY gene. Nevertheless, considering that female gonad was not observed in the chest and abdominal magnetic resonance imaging, the whole exome gene sequencing was performed. Sequencing data confirmed the presence of SRY gene sequence and two copies of chromosome X. Later, using different primer sequences for PCR, it showed that the SRY gene was positive. The final diagnosis was a rare case of "46, XX (SRY positive) testicular DSD with GHD". INTERVENTIONS: The boy's parents agreed to use recombinant human growth hormone (rhGH) for GHD treatment, the starting dose was 0.035 mg / kg / day. But they disagreed with molecular diagnostics and genomic analysis of the Y chromosome. OUTCOMES: The boy was treated with rhGH for 3 months and his height increased by 2.2 cm. The patient will be followed-up until the end of his puberty. LESSONS: In summary, whole exome gene sequencing overturned the preliminary diagnosis results of karyotype analysis and SRY gene detection, and found that there may be a certain correlation between testicular DSD and GHD.

Comparison of Cell-Free Fetal DNA Plasma Content Used to Sex Determination Between Three Trimesters of Pregnancy in Torkaman Pregnant Mare.

This investigation aimed to compare the cell-free fetal DNA (cffDNA) plasma present in three trimesters of pregnancy in Torkaman pregnant mare. Peripheral blood samples of 32 pregnant mares in three trimesters of pregnancy were collected in tubes containing ethylenediaminetetraacetic acid at three time points. Circulating cffDNA was extracted from 3 mL of maternal plasma. Using outer and inner primers, a conventional polymerase chain reaction was performed for the sex-determining region Y (SRY) gene present in the Y chromosome. Of the total 32 Torkaman pregnant mares, 24 were carrying male fetuses and eight were carrying female fetuses. In total, the accuracy of the test was 48.75%, 68.75%, and 75% in the first, second, and third trimesters of pregnancy, respectively. The sensitivities were 25%, 58.32%, and 66.66%, respectively, whereas their specificities were 100% in all trimesters. In conclusion, the SRY gene can permit the detection of equine fetal sex with good accuracy through cffDNA analysis in maternal plasma just in the third trimester of pregnancy, although specificity in all duration of pregnancy was 100%.

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.

Multiscale analysis of SRY-positive 46,XX testicular disorder of sex development: Presentation of nine cases.

46,XX testicular disorder of sex development (46,XX TDSD) is a relatively rare condition characterised by the presence of testicular tissue with 46,XX karyotype. The present study aims to reveal the phenotype to genotype correlation in a series of sex-determining region Y (SRY)-positive 46,XX TDSD cases. We present the clinical findings, hormone profiles and genetic test results of six patients with SRY-positive 46,XX TDSD and give the details and follow-up findings of our three of previously published patients. All patients presented common characteristics such as azoospermia, hypergonadotropic hypogonadism and an SRY gene translocated on the terminal part of the short arm of one of the X chromosomes. Mean ± standard deviation (SD) height of the patients was 164.78 ± 8.0 cm. Five patients had decreased secondary sexual characteristics, and three patients had gynaecomastia with varying degrees. Five of the seven patients revealed a translocation between protein kinase X (PRKX) and inverted protein kinase Y (PRKY) genes, and the remaining two patients showed a translocation between the pseudoautosomal region 1 (PAR1) of X chromosome and the differential region of Y chromosome. X chromosome inactivation (XCI) analysis results demonstrated random and skewed XCI in 5 cases and 1 case, respectively. In brief, we delineate the phenotypic spectrum of patients with SRY-positive 46,XX TDSD and the underlying mechanisms of Xp;Yp translocations.

Teratoma Associated With Testicular Tissue in a Female-Like Horse With 64,XY (SRY-Positive) Disorder of Sex Development.

A four-year-old female-like Quarter Horse was admitted for clinical evaluation because of masculinized-aggressive behavior and lack of estrous signs. On external inspection, a hypertrophied clitoris and prominent muscles were observed. On gynecological examination, apparently normal mammary glands, vulva, vagina, and cervix were noted. On the other hand, the uterus had no tone and was smaller than normal. The left gonad was very soft on palpation and the right gonad was mostly firm, irregular, and wider than the left gonad. On ultrasound examination, there were no signs of regular ovarian structure or follicular activity. Because of the different shapes and consistencies of the gonads and a suspicion of increased testosterone production, a bilateral gonadectomy was recommended. Blood was collected for testosterone levels quantification and for cytogenetic and molecular investigations. After removal, gonads were analyzed macroscopically and sections were sent for histopathological examination. A final diagnosis of benign adult teratoma associated with seminiferous tubules and Leydig cells was made. On cytogenetic and molecular analyses, a normal diploid number of 64 chromosomes and the presence of the XY sex chromosomes were seen in all cells, as well as the SRY gene. Testosterone levels were higher than normal before surgery and were reduced after gonads removal. In conclusion, the masculinized behavior was probably caused by increased testosterone levels produced by testicular tissue, in a female-like horse with 64,XY SRY-positive disorder of sex development, which was associated with a teratoma.

The capacity of goat epidermal adult stem cells to reconstruct the damaged ocular surface of total LSCD and activate corneal genetic programs.

Epidermal adult stem cells (EpiASCs) have the potential for unlimited proliferation and differentiation, however, the ability of these stem cells to activate corneal genetic programs in response to corneal stroma stimulation needs to be further validated. Herein, a feasible strategy was developed to reconstruct the damaged corneal surface in a goat model with total limbal stem cell deficiency (LSCD) by transplanting EpiASCs, which had been explanted and cultured from the skin of an adult ram goat and were then purified by selecting single cell-derived clones and cultivating them on a denuded human amniotic membrane (HAM). These artificial tissues were then successfully transplanted into ewe goats with total LSCD. Binding of EpiASCs to the base membrane of an EpiASCs-HAM-Sheet (EHS) indicated their proliferating status. After transplantation, the EpiASCs could survive in the host tissue and they reconstructed the damaged ocular surface of total LSCD. The crystal reconstructed corneal epithelium expressed CK3 and Pax-6 similar to normal corneal epithelium and expressed the Sry gene after transplantation. These results demonstrated that EpiASCs could be induced to differentiate into corneal epithelial cell types in a corneal microenvironment and had the ability to activate corneal genetic programs. This work offer a foundation for promoting tissue-engineered cornea into clinical application.

Paciente masculino con cariotipo 46 XX negativo para el gen SRY y sin ambigüedad genital: reporte de un caso / Male patient 46, XX SRY -negative and unambiguous genitalia: A case report

En la mayoría de los casos, la diferenciación sexual masculina ocurre con la participación del gen SRY. Sin embargo, se pueden presentar otros genotipos excepcionales, como en el caso que se presenta en este reporte. Se trata de un paciente adulto de sexo masculino atendido en el Servicio de Paternidades del Instituto de Genética de la Universidad Nacional de Colombia. Se le hicieron los análisis del gen de la amelogenina y de repeticiones cortas en tándem (Short Tandem Repeat, STR) específicas para el gen SRY con estuches comerciales de identificación humana, así como los de cariotipo convencional e hibridación in situ fluorescente del SRY, y el estudio de microdeleciones del cromosoma Y mediante reacción en cadena de la polimerasa (PCR). Se le hizo la evaluación clínica y se le brindó asesoramiento genético. El paciente no presentaba ambigüedad genital, su cariotipo era 46 XX, y el perfil molecular era negativo para el gen SRY y positivo para el ZFY. Se le diagnosticó un trastorno de diferenciación sexual 46 XX testicular no sindrómico, una rara condición genética. Solo el 20 % de los pacientes con este diagnóstico son negativos para SRY y exhiben perfiles moleculares diversos. La información disponible parece indicar que el ZFY está relacionado con la diferenciación sexual masculina, aún en ausencia del gen SRY.

In most cases, male sexual differentiation occurs with SRY gene mediation. However, exceptional genotypes have been identified, as shown in this paper. This was a male adult patient seen at the Servicio de Paternidades, Instituto de Genética, Universidad Nacional de Colombia. The following procedures were carried out: Amelogenin gene and short tandem repeat analyses using human identification commercial kits, conventional karyotype, SRY fluorescent in situ hybridization, PCR analysis for Y chromosome microdeletions, clinical evaluation, and genetic counseling. We present an adult male with unambiguous genitalia, karyotype 46,XX, and an SRY negative and ZFY positive molecular profile. The diagnosis of nonsyndromic 46,XX testicular disorder of sex development (DSD) -a rare genetic condition- was established. Only 20 % of similarly diagnosed patients are SRY negative and exhibit diverse molecular profiles. Until now, available evidence seems to indicate that, even in the absence of SRY, the ZFY factor is involved in male sexual differentiation.

Análisis clínico y citogenético de un caso de trastorno del desarrollo sexual testicular XX con SRY negativo / Clinical and Cytogenetic Analysis of a Case of SRY-Negative XX Testicular Disorder of Sex Development / Análise clínica e citogenética de um caso de transtorno do desenvolvimento sexual testicular XX com SRY-negativo

Resumen: El trastorno del desarrollo sexual (TDS) testicular XX es una patología que se presenta en un individuo con cariotipo 46,XX con un fenotipo anatómico de genitales externos masculinos, que pueden variar desde la normalidad hasta la ambigüedad genital. Clínicamente se han descrito dos subgrupos de hombres 46,XX con SRY-negativos y SRY-positivos, dependiendo de la presencia o no del gen SRY que normalmente se encuentra en el cromosoma Y participando en la determinación testicular. En este artículo se describen los antecedentes personales y los hallazgos clínicos de un infante con anomalías del meato urinario en el cual se identificó un complemento cromosómico 46,XX. También, se realizó hibridación in situ fluorescente en linfocitos de sangre periférica que demostró la ausencia del gen SRY y confirmó la presencia de dos cromosomas X.

Abstract XX testicular disorder of sex development (DSD) is a pathology that occurs in an individual with a 46,XX karyotype and an anatomical phenotype of male external genitalia, which may vary from normal to ambiguous. Clinically, two subgroups of SRY-negative and SRY-positive, 46, XX men have been described, depending on the presence of the SRY gene that is normally found on the Y chromosome participating in testicular determination. This article describes the personal history and clinical findings of an infant with urethral meatus abnormalities in whom a 46,XX chromosome set was identified. Also, fluorescent in situ hybridization was performed in peripheral blood lymphocytes which demonstrated the absence of the SRY gene and confirmed the presence of two X chromosomes.

Resumo: O transtorno do desenvolvimento sexual (TDS) testicular XX é uma patologia apresentada em um indivíduo com cariótipo 46,XX com um fenótipo anatômico de genitais externos masculinos, que podem variar da normalidade à ambiguidade genital. Clinicamente, são descritos dois subgrupos de homens 46,XX com SRY-negativos e SRY-positivos, dependendo da presença ou não do gene SRY que normalmente se encontra em Y cromossomo participando da determinação testicular. Neste artigo, são descritos os antecedentes pessoais e os achados clínicos de uma criança com anomalias de meato urinário em que foi identificado um complemento cromossômico 46,XX. Além disso, foi rea -lizada hibridação in situ fluorescente em linfócitos de sangue periférico que demonstrou a ausência do gene SRY e confirmou a presença de dois cromossomos X.

Detection of the SRY gene in patients with Turner Syndrome.

BACKGROUND: If turner syndrome (TS) patients have a Y-containing cell line, they have an increased risk for gonadal tumors. TS patients are therefore screened for Y-chromosome and Y-specific sequences, such as SRY, DYZ1, DYZ3, DYS132, ZFY, TSPY, etc. In addition, since the dysgenetic gonad may include the stroma and granulosa/sertoli cells, which produce androgens, virilization can seen in girls with Y-chromosomal material. Prophylactic gonadectomy may therefore be required for optimal management in such patients. Our aim is to discuss our observations in the follow-up of TS patients. METHODS: SRY was investigated in 71 out of 85 TS cases (aged 3 months-27 years) between 2005 and 2017. Fluorescent in situ hybridization (FISH) was used until 2014, after which SRY analysis was performed using the polymerase chain reaction (PCR) method. SRY analysis was performed a second time using PCR in 25 cases previously investigated with FISH. RESULTS: We identified no positive cases. No pathological findings in terms of virilization, clitoromegaly, or posterior labial adhesions were also determined in our TS cases. Further studies were not required since no pathological findings also were detected at ultrasonography. CONCLUSION: If Y-chromosome material has not been detected by conventional cytogenetic methods in TS patients with masculine features, further techniques should be applied to prevent the risk of invasive tumors, such as multiple sequences beside the Y centromere. This approach will prevent overtreatment.

Estudo da expressão imunohistoquímica de SOX2 e ALDH1 como biomarcadores em pacientes portadores de carcinoma espinocelular do pênis / Immunohistochemical expression of sox2 and aldh1 as biomarkers in patients with penile squamous cell carcinoma

Introdução: O câncer de pênis pode chegar, em alguns países em desenvolvimento, até a 20% das neoplasias no homem. O tratamento padrão é a amputação do tumor primário e na linfadenectomia regional. A baixa acurácia dos métodos de estadiamento da doença linfonodal, que no momento é o fator prognóstico mais importante e a alta taxa de morbidade da linfadenectomia tem estimulado o estudo de novos fatores prognósticos preditivos de metástases em linfonodos, facilitando a seleção de pacientes a serem submetidos à linfadenectomia. Foram escolhidos SOX2 e ALDH1 por terem sido bons resultados preditivos em outros CEC, mas sem estudos em tecido peniano Objetivos: O presente estudo visa estudar a expressão imunoistoquímica de SOX 2 e ALDH1 no carcinoma peniano, além de identificar o valor prognóstico dessa expressão correlacionando-a com o tumor primário no risco de metástase linfonodal e a relação destes com as variáveis clinicas, demográficas e anatomopatológicas, bem como sua relação com sobrevida livre de doença e global. População e Métodos: Foram avaliados retrospectivamente 203 pacientes com diagnóstico de carcinoma epidermóide do pênis submetidos ao tratamento do tumor primário e a linfadenectomia radical ou aqueles submetidos ao tratamento do tumor primário, não linfadenectomizados, com pelo menos cinco anos de seguimento, utilizando a imunoistoquímica para analisar os marcadores. Resultados: A expressão de SOX2 esteve associada inversa e significantemente com o padrão de crescimento vertical e infiltração de corpo esponjoso e uretra, porém sem relação com sobrevida global ou câncer especifica. O biomarcador ALDH1 reagiu apenas com 2% da amostra, o que fez com que não pudéssemos avaliá-lo satisfatoriamente. Quando analisado metástase linfonodal, não houve diferença significante com a expressão nenhum dos marcadores. A infiltração perineural, metástase linfonodal, estdiamento pT foram os fatores independentes de pior sobrevida global Conclusão: SOX2, apesar de presente no carcinoma peniano, não se relacionou com metástase linfonodal ou sobrevida. ALDH1 não parece ser considerável em carcinoma peniano

Introduction: In some developing countries, up to 20% of all neoplasia in males is due to penile cancer. The standard treatment is primary tumor amputation and regional lymphadenectomy. The poor accuracy of lymph node staging methods, currently the most important prognostic factor and the high morbidity rate of lymphadenectomy, stimulated the study of new prognostic factors that predict lymph node metastases, facilitating the selection of patients for lymphadenectomy. SOX2 and ALDH1 were selected because they presented good predictive results in other squamous cell carcinomas, but studies on penile tissue were not available. Objectives: To study the immunohistochemical expression of SOX 2 and ALDH1 in penile carcinoma, as well as identify the prognostic value of this expression, correlate it with the primary tumor regarding risk of lymph node metastasis and the relationship with clinical, demographic and anatomopathological variables as well as disease-free and overall survival. Methods: 203 patients diagnosed with penile squamous cell carcinoma who underwent primary tumor treatment and radical lymphadenectomy or primary tumor treatment without lymphadenectomy with at least five years of follow-up were assessed using immunohistochemistry to analyze the markers. Results: The SOX2 expression was inversely and significantly related to the vertical growth pattern and the infiltration of the corpus spongiosum and urethra but without any relationship to overall or specific cancer survival. The biomarker ALDH1 only reacted with 2% of the samples, which meant it could not be satisfactorily evaluated. None of the markers presented a significant difference regarding lymph node metastasis. Perineural infiltration, lymph node metastasis, and staging pT were independent factors of poor overall survival. Conclusion: Although SOX2 is present in penile carcinoma, it is not related to lymph node metastasis or survival. ALDH1 does not appear to have a considerable presence in penile carcinoma

Varones 46, XX: a propósito de dos casos genéticamente distintos / Males 46, XX: Presentation of Two Genetically Different Cases

Introducción Los desórdenes de diferenciación sexual son condiciones clínicas en las que existe una discrepancia entre el sexo cromosómico y el sexo fenotípico de un individuo. Esas condiciones suelen resultar angustiantes para los pacientes y sus familias e incluso para el equipo médico tratante debido a la dificultad en diagnosticarlas. Objetivo Presentar las características clínicas, genéticas y hormonales de dos varones con desórdenes de diferenciación sexual. Método Se realizó un estudio descriptivo basado en la revisión y análisis de datos de la historia clínica y la confrontación de los resultados con reportes similares. Resultados Se observaron dos individuos con fenotipo masculino y diagnóstico de hipogonadismo hipergonadotrófico con cariotipo 46, XX. El primer caso presentó testes pequeños y azoospermia, mientras que el segundo caso presentó baja talla, criptorquidea bilateral congénita y escrotos hipoplásicos. En ambos pacientes se exploró la presencia del gen SRY, confirmando su presencia en el primer caso y ausencia en el segundo caso. Conclusiones El diagnóstico genético-molecular actual apela a la combinación de técnicas tradicionales junto a técnicas modernas, como secuenciación por paneles genéticos a fin de identificar etiológicamente los desórdenes de diferenciación sexual. La presentación de esos casos aún se considera rara debido a su baja tasa de frecuencia poblacional, por lo que su reporte siempre resultará útil a la comunidad científica ya que muestran las distintas formas de presentación clínica y el manejo multidisciplinario de esos casos en diferentes contextos clínicos

Introduction Disorders of Sexual Development are clinical conditions in which a discrepancy between the chromosomal sex and the phenotypic sex occurs in an individual. These conditions are often distressing for patients and their families and even for the medical team due to the difficulty of diagnosing them. Objective The aim of this study was to present the clinical, genetic and hormonal characteristics of two males with sexual differentiation disorders. Method A descriptive study was performed based on the review and analysis of the clinical history data and the comparison of the results with similar cases reported. Results Two individuals with a male phenotype and a diagnosis of hypogonadotropic hypogonadism with 46, XX karyotype were observed. The first case presented small testes and azoospermia, while the second case presented low height, congenital bilateral cryptorchid and hypoplastic scrotums. The SRY gene was explored in both patients, and it was confirmed its presence in the first case and its absence in the second case. Conclusions The current molecular-genetic diagnosis calls for the combination of traditional techniques combined with modern techniques, such as the genetic panel sequencing, to identify etiologically the Disorders of Sexual Development. The presentation of these cases is even considered rare because of their low population frequency rate, so their report is always useful to the scientific community, for they show the different ways of the clinical disease presentation and the multidisciplinary management of these cases in different clinical contexts.

A Case Report of 46, XX Sex Reversal Syndrome.

BACKGROUND: Sex reversal syndrome (SRS) is a human chromosomal abnormality disease with gender dysplasia, which is characterized by inconsistency between social sexuality and genetic sexuality. METHODS: We report a case of sex reversal syndrome with 46, XX. Chemiluminescence was used to detect serum sex hormones, including testosterone (T), luteinizing hormone (LH), and follicular stimulation (FSH), and 15 karyotype analysis. RESULTS: The levels of FSH and LH in serum were high, and the level of T in serum was low. The karyotype analysis showed that the nuclear type of the patient was 46, XX. The examination of the sex-determining region Y (SRY) gene showed positive results. CONCLUSIONS: The main principle of diagnosing the 46, XX male SRS is early determination of chromosome, gonad, and genitalia gender. When the prenatal ultrasound diagnosis of pregnant women is inconsistent with the results of cytogenetics, caution should be taken to avoid the birth of children with 46, XX male SRS.

46 XX, SRY Negative Ovotesticular DSD.

46 XX ovotesticular DSD is a rare disorder. It presents with cryptorchidism, hypospadias or ambiguous genitalia at birth, gynaecomastia in adolescent stage or infertility in adult age. We report here a 20 year old phenotypically male who presented with gynaecomastia and found to have testis on right side and left inguinoscrotal swelling consisting of ovary, uterus and fallopian tubes. Evaluation revealed SRY negative 46 XX karyotype. He underwent surgical removal of ovary and mullerian structures. The highlight of case is development of testicular tissue in absence of SRY gene.

Cytogenetics and Molecular Genetic Analysis of Chimerism in Marmosets (Callithrix: Primates).

The birth of fraternal twins is a characteristic frequently observed in callitrichids. Cytogenetic studies have demonstrated hematopoietic chimerism in marmosets with the occurrence of two cell lines 2n=46,XX/46,XY in females and males co-twins, without phenotypic changes. Amplification by PCR have also been used to verify the presence of the SRY gene in female chimaeras. Our aim was to verify the occurrence of chimerism in Callithrix sp. individuals considered as hybrids according to their intermediate phenotypes between C. jacchus and C. penicillata. Blood samples from 37 Callithrix sp. individuals were collected. Hematopoietic chimerism 2n=46,XX/46,XY was detected by cytogenetic analysis in five individuals, three males and two females. A fragment of approximately 200bp of the SRY gene was amplified in seven females with normal external genitalia. The percentage of 32% of chimeric individuals detected in the present study is similar to that observed for pure specimens of Callithrix. These data suggests that hybridization probably does not interfere with the occurrence of twin gestation, nor of chimerism. Although cytogenetics is the main tool to identify the two cell lineages present in cases of chimerism, the amplification of the SRY gene by PCR has proved to be more efficient to identify the Y chromosome in cases of chimeric female marmoset.

Cytogenetics and Molecular Genetic Analysis of Chimerism in Marmosets (Callithrix: Primates)

ABSTRACT The birth of fraternal twins is a characteristic frequently observed in callitrichids. Cytogenetic studies have demonstrated hematopoietic chimerism in marmosets with the occurrence of two cell lines 2n=46,XX/46,XY in females and males co-twins, without phenotypic changes. Amplification by PCR have also been used to verify the presence of the SRY gene in female chimaeras. Our aim was to verify the occurrence of chimerism in Callithrix sp. individuals considered as hybrids according to their intermediate phenotypes between C. jacchus and C. penicillata. Blood samples from 37 Callithrix sp. individuals were collected. Hematopoietic chimerism 2n=46,XX/46,XY was detected by cytogenetic analysis in five individuals, three males and two females. A fragment of approximately 200bp of the SRY gene was amplified in seven females with normal external genitalia. The percentage of 32% of chimeric individuals detected in the present study is similar to that observed for pure specimens of Callithrix. These data suggests that hybridization probably does not interfere with the occurrence of twin gestation, nor of chimerism. Although cytogenetics is the main tool to identify the two cell lineages present in cases of chimerism, the amplification of the SRY gene by PCR has proved to be more efficient to identify the Y chromosome in cases of chimeric female marmoset.