Pure gonadal dysgenesis (Type XX)

Summary A family with four 46,XX siblings affected by the pure gonadal dysgenesis syndrome is described. Inheritance is by an autosomal recessive gene limited to the female sex.     

Hemophilia A in a female with gonadal dysgenesis and XX karyotype

The authors present a case of a coincidence of two very rare diseases in a female--hemophilia A and gonadal dysgenesis; both may be caused by chromosomal and genetic abnormalities. The girl, aged 22, presented severe hemophilia with excessive haematoma after bruising and recurrent hemarthroses, had undeveloped breasts and very hypoplastic internal genital organs. Laboratory tests revealed factor VIII: C - 1%, VIII R: AG - 160%, VIII:WF - 111%, 46, XX karyotype, elevated LH in urine - 25 IU/l. This coincidence had a beneficial effect since there was no menorrhagia.     

H-Y antigen in Swyer syndrome and the genetics of XY gonadal dysgenesis

Summary The H-Y antigen is a plasma membrane antigen involved in the organogenesis of the mammalian testis. Its expression on human cells is determined by a Y-linked gene. Phenotypic females affected by 46,XY gonadal dysgenesis (Swyer's syndrome) can be either H-Y-positive or H-Y-negative. In this paper we report H-Y antigen and endocrine studies in a sibship with three affected sisters. Immunological studies were performed on two of the patients, and a clearly positive expression was detected in both cases. Endocrine studies consisted in the investigation of the hypothalamic-pituitary-gonadal axis, which revealed that gonadal hormone insufficiency is the only endocrine abnormality associated with the syndrome. A new genetic interpretation and classification of XY gonadal dysgenesis is proposed.     

Mixed gonadal dysgenesis and precocious puberty

A girl aged 5 years and 6 months presented with premature thelarche in our outpatient clinic. During long-term observation, we recorded growth acceleration, advanced bone age, and elevated oestradiol levels which together were taken to confirm the diagnosis of precocious puberty. The patient was successfully treated with a gonadotropin-releasing hormone agonist, but in view of the poor growth prognosis, recombinant human growth hormone was administered concurrently. At the age of 9 years and 6 months a mild clitoris enlargement and conspicuous muscle development without any further signs of virilization were noticed. Laboratory findings showed high values for testosterone and normal basal values for 17-hydroxyprogesterone and dehydroepinadrosterone sulphate. Explorative laparotomy revealed a gonadoblastoma arising from testicular structures on the left, a female streak gonad on the right side, and normal uterus and fallopian tubes. The karyotype was 46,XY/45,X. These findings confirmed the diagnosis of mixed gonadal dysgenesis with testosterone-producing gonadoblastoma.     

Role of gonadal dysgenesis in gonadoblastoma induction in 46, XY individuals. The Leuven experience in 46, XY pure gonadal dysgenesis and testicular feminization syndromes.

To stress the importance of gonadal dysgenesis in the genesis of gonadoblastoma in the presence of the Y-chromosome, the authors report their experience on 7 patients with 46, XY Pure Gonadal Dysgenesis (PGD) and 14 patients with complete or incomplete forms of Testicular Feminization (TF) syndrome. The diagnostic criteria and the clinical and pathological findings are reviewed. Four patients with PGD were found to be affected by bilateral (1 patient) or unilateral (1 patient) gonadoblastomas, and by extragonadal (1 patient) or gonadal (1 patient) dysgerminoma, whereas no gonadal tumors were encountered in testes of patients with complete (CTF) or incomplete (ITF) forms of TF, underlining the pathogenic role of the gonadal dysgenesis.     

Cytogenetic and clinical findings in mares with gonadal dysgenesis.

Gonadal dysgenesis in the mare is associated with several different karyotypes, including sex chromosome aneuploidy (63,X; 63,X/64,XX; 63,X/64,XY or 65,XXX), the normal male complement (64,XY) and autosomal deletion (64,XX?del2q-). The 63,X is the most common karyotype found in gonadal dysgenesis. Aneuploid cases probably represent spontaneous chromosome non-disjunction during oogenesis, spermatogenesis or early embryonic development. Cases with XY or autosomal deletion may be inherited defects or of spontaneous origin.     

XY gonadal dysgenesis and the H-Y antigen

Summary H-Y antigen was determined in 12 patients affected by XY gonadal dysgenesis. Of these, three proved to be H-Y negative, and nine, including two sisters, were H-Y positive; two of the unrelated positive cases exhibited a reduced antigen titer. Therefore, this clinical condition must be genetically heterogeneous. It is assumed that in the negative cases and possibly in those with reduced antigen titer, the H-Y generating system is affected by mutation, while in the regular positive cases the target cells are unable to respond due to a defect of the gonad-specific H-Y antigen receptor.I dedicate this article to the memory of Ilse Aschmoneit     

XY gonadal dysgenesis in a Charolais heifer

The anatomical and cytogenetical findings on a three quarter Charolais heifer which failed to show oestrus are described. The heifer had a karyotype of 60, XY in all tissues studied and was sex chromatin negative. The vulva and vagina were normal, the cervix had a double external os, the left ovary was partially hypoplastic, there was no right gonad and a cystic dilatation of the fallopian tube was recorded.     

Absence of Y-specific DNA sequences in human 46,XX true hermaphrodites and in 45,X mixed gonadal dysgenesis

Summary A search for Y-specific DNA sequences has been performed in a sample of seven 46,XX true hermaphrodites and one 45,X mixed gonadal dysgenesis case and compared with a sample of 11 XX males. Using six Y-specific DNA probes no hybridization signal was obtained in the hermaphrodite group; in contrast, all XX males gave a positive signal with at least one probe. This difference is statistically highly significant. We conclude that the aetiology of true hermaphroditism is different from that of the XX male syndrome. As all cases of the hermaphrodite group are positive for the serological sex-specific antigen (Sxs) it is concluded that this antigen can be present even in the absence of Y-specific DNA.     

Molecular analysis of SRY gene in patients with mixed gonadal dysgenesis.

Mixed gonadal dysgenesis (MGD) includes a group of heterogeneous conditions consisting of a dysgenetic testis with a streak gonad. MGD is probably due to a disturbance in testicular determination/differentiation. The objective of this study is to analyze the SRY gene in MGD patients. A molecular investigation was undertaken in sixteen patients with this disorder in an attempt to determine mutations in SRY through polymerase chain reaction, single strand conformational polymorphism and direct sequencing. Eleven patients showed 45,X/46,XY and five 46,XY karyotype. Mutations in SRY gene were shown to be absent in these patients. This study confirms the findings of other studies. The etiology of MGD is heterogeneous, and cytogenetics mosaicism typically seen in these patients may be a cause of this condition, although, the presence of mutations in testicular organizing genes downstream of SRY is still to rule out.     

H-Y antigen in 46,XY gonadal dysgenesis

Summary Presence of H-Y antigen has been correlated with testicular differentiation, and absence of H-Y with failure of testicular differentiation, in a variety of mammalian species. To determine more precisely the relationship between expression of H-Y antigen and development of the testis, we studied the cells of phenotypic females with the 46,XY male karyotype. Blood leukocytes were typed H-Y⁺ in five XY females with gonadal dysgenesis, although in other studies blood leukocytes from XY females with gonadal dysgenesis were typed H-Y^-. Thus mere presence of H-Y antigen is not sufficient to guarantee normal differentiation of the testis. In the present paper we review evidence for an additional factor in gonadal organogenesis, the H-Y antigen receptor. We infer that testicular development requires engagement of H-Y and its receptor. It follows that XY gonadal dysgenesis is the consequence of functional absence of the H-Y testis inducer as in the following conditions: failure of synthesis of H-Y or failure of specific binding of H-Y.     

Asymmetrical gonadal dysgenesis. Report of a case (author's transl)]

The authors report a case of asymmetrical gonadal dysgenesis related to 45XO-46XY mosaicism in a 16 year old girl. Delayed growth and puberty, Turner's dysmorphism without sexual ambiguity and skeletal abnormalities are the main clinical features suggesting the diagnosis. Exploratory laparotomy reveals infantil uterus, bilateral fallopian tubes and streak gonads. A right dysgenetic testis is identified on electron microscopic examination. Theories on pathogenesis of this unusual genetic defect are discussed.