ObjectiveTo identify the etiology of chromosome abnormality in an infertile man and analyze the correlation between the genotype and phenotype.

METHODSWe analyzed the karyotype of an infertile male using the routine G-banding technique and then the chromosome abnormality of the patient by Illumina Human CytoSNP-12 Beadchip array.

RESULTSNegative results were found in the examination of the sex-determining region Y (SRY) gene and the STR locus in the AZF zone of the patient. The karyotype of the patient was 46, XX. SNP array showed a 1.05 Mb 19p12 duplication and a 0.93 Mb Xq27.1 duplication.

CONCLUSIONSThe patient was confirmed as a case of 46,XX male syndrome. The increased copies of the FGF13 gene may be the major causes of abnormal sex determination and testis development.

46, XX Testicular Disorders of Sex Development ; diagnosis ; genetics ; Chromosome Aberrations ; Chromosome Banding ; Genetic Testing ; Humans ; Infertility, Male ; genetics ; Karyotype ; Karyotyping ; Male ; Phenotype ; Sex-Determining Region Y Protein ; genetics

Aromatase deficiency (AD) is a rare autosomal recessive genetic disease caused by loss-of-function mutations in aromatase gene (CYP19A1), leading to congenital estrogen deficiency syndrome. Both mothers of AD patients during pregnancy and female AD fetus show virilization, while male patients are usually diagnosed in adulthood due to continued height increase and metabolic abnormalities. In 2019, a patient with AD was admitted in the Second Xiangya Hospital. The patient was a 37-year-old adult male who continued to grow linearly after adulthood. His estradiol was below the measurable line, the follicle-stimulating hormone (FSH) increased, bone age delayed, epiphysis unfused, and the bone mass reduced. CYP19A1 gene detection showed that c.1093C>T, p.R365W was homozygous mutation. This disease is rare in clinic. Clinicians need to raise awareness of the disease for early diagnosis and treatment to improve the long-term prognosis of patients.
46, XX Disorders of Sex Development/genetics* ; Adult ; Aromatase/metabolism* ; Female ; Gynecomastia/genetics* ; Humans ; Infertility, Male ; Male ; Metabolism, Inborn Errors ; Mutation ; Pregnancy

OBJECTIVETo characterize molecular and cytogenetic abnormalities in six 46, XX males, and to investigate the clinical manifestations and underlying mechanisms in such patients.

METHODSClinical data of six XX male patients were collected. Karyotyping, multiple polymerase chain reaction (PCR) and fluorescence in situ hybridization (FISH) were utilized to detect and locate the sex determining region (SRY) gene.

RESULTSPCR and FISH showed that all patients were SRY-positive XX males. All patients have their SRY gene located at the tip of derivative X chromosomes, which have resulted from translocation between short arms of X and Y chromosomes. High resolution karyotyping at 550-750 band level has revealed that the translocation breakpoints were at Xp22.33 and Yp11.2 in three patients. In the remaining patients, the breakpoints were either at Xp22.32 and Yp11.31 or Xp22.31 and Yp11.2. The breakpoints at Xp22.32, Xp22.31 and Yp11.31 were rarely reported. Genotype-phenotype correlation analysis indicated that the clinical manifestations were age-specific. Four adult patients have come to clinical attention due to infertility, with typical features including azoospermia and testis dysgenesis, whereas poorly developed secondary sexual characteristics and short stature were main complaints of adolescence patients, and short stature was the sole symptom in a child patient.

CONCLUSIONCombined karyotyping, PCR and FISH are important for the analysis of XX males. Particularly, high resolution karyotyping is valuable for the refinement of chromosome breakpoints and detailed analysis of genotype-phenotype correlation.

46, XX Disorders of Sex Development ; genetics ; Adolescent ; Adult ; Child, Preschool ; Chromosomes, Human, X ; Chromosomes, Human, Y ; Genetic Association Studies ; methods ; Humans ; Karyotyping ; methods ; Male ; Sex Chromosome Aberrations ; Translocation, Genetic ; Young Adult

Estrogen is implicated as playing an important role in aging and tumorigenesis of estrogen responsive tissues; however the mechanisms underlying the mitogenic actions of estrogen are not fully understood. Here we report that estrogen deficiency in mice caused by targeted disruption of the aromatase gene results in a significant inhibition of telomerase maintenance of telomeres in mouse ovaries in a tissue-specific manner. The inhibition entails a significant shortening of telomeres and compromised proliferation in the follicular granulosa cell compartment of ovary. Gene expression analysis showed decreased levels of proto-oncogene c-Myc and the telomerase catalytic subunit, telomerase reverse transcriptase (TERT), in response to estrogen deficiency. Estrogen replacement therapy led to increases in TERT gene expression, telomerase activity, telomere length and ovarian tissue growth, thereby reinstating ovary development to normal in four weeks. Our data demonstrate for the first time that telomere maintenance is the primary mechanism mediating the mitogenic effect of estrogen on ovarian granulosa cell proliferation by upregulating the genes of c-Myc and TERT in vivo. Estrogen deficiency or over-activity may cause ovarian tissue aging or tumorigenesis, respectively, through estrogen regulation of telomere remodeling.
46, XX Disorders of Sex Development ; drug therapy ; genetics ; metabolism ; Aging ; genetics ; metabolism ; Animals ; Aromatase ; deficiency ; genetics ; metabolism ; Cell Proliferation ; drug effects ; Estrogen Replacement Therapy ; Estrogens ; deficiency ; pharmacology ; Female ; Gene Expression ; Genes, myc ; genetics ; Granulosa Cells ; drug effects ; metabolism ; pathology ; Gynecomastia ; drug therapy ; genetics ; metabolism ; Humans ; Infertility, Male ; drug therapy ; genetics ; metabolism ; Metabolism, Inborn Errors ; drug therapy ; genetics ; metabolism ; Mice ; Mice, Knockout ; Telomerase ; genetics ; metabolism ; Telomere ; chemistry ; metabolism ; pathology