DICER1-related Sertoli-Leydig cell tumor and gynandroblastoma: Clinical and genetic findings from the International Ovarian and Testicular Stromal Tumor Registry.

BACKGROUND: Ovarian sex cord-stromal tumors (OSCST) include juvenile granulosa cell tumors (JGCT), Sertoli-Leydig cell tumor (SLCT) and gynandroblastoma (GAB) among others. These ovarian sex cord-stromal tumors as well as other tumors including pleuropulmonary blastoma (PPB) may be associated with DICER1 mutations. We sought to describe the clinical and genetic findings from the first 107 individuals enrolled in the International Ovarian and Testicular Stromal Tumor Registry. METHODS: Medical and family history were obtained for individuals consecutively enrolled in the International Ovarian and Testicular Stromal Tumor Registry. Pathology was centrally reviewed. DICER1 sequencing was performed on blood and tumor tissue. RESULTS: Of the 107 participants, 49 had SLCT, 25 had JGCT and 5 had GAB. Nearly all (36/37) SLCTs and 4/4 GAB tested had a DICER1 mutation in an RNase IIIb domain hotspot; approximately half of these individuals had a predisposing germline DICER1 mutation. Metachronous SLCTs were seen in 3 individuals with germline DICER1 mutations. Other DICER1-associated conditions were seen in 19% of patients with SLCT or GAB. Three children of women with SLCT were diagnosed with PPB based on genetic testing and clinical screening during the course of this study. All were diagnosed with PPB in its earliest and most curable form (Type I), were treated with surgery alone, and are alive without evidence of disease. CONCLUSIONS: Recognition of the distinct genetic basis for a group of these tumors improves precise classification in difficult cases and promotes mutation-based screening and early detection.

Expression of P450 Aromatase in Granulosa Cell Tumors and Sertoli-Stromal Cell Tumors of the Ovary: Which Cells Are Responsible for Estrogenesis?

Granulosa cell tumors are representative of estrogenic ovarian tumors, and some Sertoli-stromal cell tumors are also estrogenic. The exact cells that are responsible for estrogenesis, however, have yet to be identified. In the present study, 25 sex cord-stromal tumors (20 granulosa cell tumors, 4 Sertoli-Leydig cell tumors, and a Sertoli cell tumor) were immunohistochemically examined for expression of P450 aromatase, which is critical for estrogenesis. All of the tumors had been evaluated for estrogenic function, including contemporaneous endometrial hyperplasia and/or elevation of serum estradiol. Eleven of 14 estrogenic granulosa cell tumors showed sparse or aggregated immunoreactivity for aromatase, whereas 5 of 6 nonestrogenic tumors did not. Aromatase was selectively expressed by plump granulosa cells with eosinophilic or vacuolated cytoplasm, resembling luteinized granulosa cells. Such a localization of aromatase is analogous to that in normal ovaries. Aromatase expression in primary tumors was recapitulated by recurrent tumors. In Sertoli-stromal cell tumors, either undifferentiated plump cells or well-differentiated Sertoli cells expressed aromatase. In conclusion, the expression of P450 aromatase corresponds to specific cell morphology in sex cord-stromal tumors, including recurrent tumors. Aromatase status in granulosa cell tumors provides helpful information on whether serum estradiol could be a marker for recurrence.

[Immunohistochemical study on telomerase activity in ovarian sex-cord stromal tumors].

BACKGROUND & OBJECTIVE: Telomerase activity has been detected in a broad range of human cancers including epithelial malignancies from in female genital tract, but the expression of the telomerase activity in ovarian sex-cord tumors has not been reported up to now. In this report we investigated the telomerase activity in ovarian sex-cord stromal tumors and its relationship with clinicopathological feature. METHODS: Twenty-five cases of ovarian sex-cord stromal tumor, including granulosa cell tumors, thecofibromas, sclerosing stromal tumors, and Sertoli-Leydig cell tumors were retrieved, and the expression of human telomerase reverse transcriptase (hTRT) was assessed immunohistochemically using polyclonal antibody H231. RESULTS: hTRT were positive in 60.0% of all cases, and the signal mainly located in the cytoplasm of tumor cells, especially in luteinized cells and Ledig cells. The positive rate was significantly related to different histological types and the patients' clinical endocrinal manifestation (P value were 0.01 and 0.041, respectively), but no statistically significant difference was found between the expression of hTRT and tumor histological grade or patients' prognosis. CONCLUSIONS: In ovarian sex-cord stromal tumors, the tumor component differentiating to luteinized stromal cell has high telomerase activity, and the telomerase activity may play an important role in patients' endocrinal disorder.

Telomerase activity in sex cord-stromal tumors of the ovary.

OBJECTIVE: Telomerase is a ribonucleoprotein that protects chromosomes from degradation and end-to-end fusions by maintaining telomere length. Studies have shown that telomerase is present in 95% of gynecologic malignancies and in 88% of epithelial ovarian carcinomas but undetectable in benign tissue. The aim of this investigation was to determine whether telomerase is present in sex cord-stromal tumors and whether telomerase activity is indicative of patient outcomes. METHODS: Forty-five consecutive sex cord-stromal ovarian tumors were analyzed by using reverse transcription-polymerase chain reaction for expression of human telomerase, human telomerase reverse transcriptase, and telomerase activity. RESULTS: Of the 29 patients with malignant cell types (granulosa cell, Sertoli-Leydig cell, and steroid cell tumors), 21 of the 28 patients (75%) available for follow-up had recurrence, with a mean follow-up of 86 months (95% CI, 36-157 months). The telomerase repeat amplification protocol assay had a sensitivity of 74% and specificity of 94% for malignancy. Patients with telomerase-positive tumors had a mean disease-free interval of 66.5 months; for those with telomerase-negative tumors the interval was 90 months. In addition, patients with telomerase-positive tumors were more likely to be dead from disease or alive with disease than those without telomerase activity, and they showed trends toward requiring a larger number of surgical procedures for the treatment of their disease. However, these trends were not statistically significant. CONCLUSION: Although activation of telomerase is clearly an important step in carcinogenesis, it is unlikely to be helpful in the clinical management of sex cord-stromal tumors of the ovary.

Sex steroid biosynthesis enzymes in ovarian sex-cord stromal tumors.

Previous studies on neoplastic and hyperplastic ovarian lesions using paraffin-embedded material have demonstrated immunolocalization of sex steroid biosynthetic enzymes (SSBEs): P-450 side chain cleavage (P-450 SCC), which converts cholesterol to pregnenolone; 3 beta-hydroxysteroid dehydrogenase (3 beta-HSD), which converts pregnenolone to progesterone; P-450 17 alpha-hydroxylase and lyase (P-450 17A), which convert progesterone to 17 alpha-hydroxyprogesterone and 4-androstene-3,17-dione; and P-450 aromatase (P-450 AR), which converts 4-androstene-3,17-dione to estradiol. To investigate the utility of immunohistochemical staining for SSBEs, we studied a series of 45 sex cord-stromal tumors of the ovary. P-450 SCC was present in 9 of 11 Sertoli-stromal cell tumors, 3 of 12 granulosa cell tumors, 2 of 7 thecomas, and 1 of 1 stromal luteomas; 3 beta-HSD was present in 5 of 11 Sertoli-stromal cell tumors, 2 of 12 granulosa cell tumors, 2 of 7 thecomas, and 1 of 1 stromal luteoma; P-450 17A was present in 5 of 11 Sertoli-stromal cell tumors, 2 of 12 granulosa cell tumors, 2 of 6 thecomas, and 1 of 1 stromal luteomas; P-450 AR was present in 6 of 11 Sertoli-stromal cell tumors, 2 of 12 granulosa cell tumors, none of 7 thecomas, and 1 of 1 stromal luteoma. SSBEs were not present in 12 fibromas, one sclerosing stromal tumor, and one myxoma. Five of 45 patients with sex cord-stromal tumors showed androgenic effects; 4 of 11 patients with Sertoli-stromal cell tumors and the patient with a stromal luteoma. These five sex cord-stromal tumors contained P-450 SCC, and three of four of the Sertoli-stromal cell tumors contained 3 beta-HSD, P-450 17A, and P-450 AR. Concurrent endometrial histology was available in 25 of 45 sex cord-stromal tumor patients. None of the five sex cord-stromal tumors arising in patients with endometria that showed hyperplasia or adenocarcinoma showed immunoreactivity for SSBEs. Eight patients' endometria were unremarkable, but their sex cord-stromal tumor contained SSBEs. SSBEs were present in areas showing Leydig cell, Sertoli cell, or steroid cell differentiation or luteinized areas; however, the results did not significantly add to the histologic classification of sex-cord stromal tumors. Androgenic hormonal effects could always be explained by synthesis of hormones by SSBEs present in the patient's sex cord-stromal tumor.(ABSTRACT TRUNCATED AT 400 WORDS)

Use of tissue-specific promoters in the regulation of aromatase cytochrome P450 gene expression in human testicular and ovarian sex cord tumors, as well as in normal fetal and adult gonads.

We have previously demonstrated that the tissue-specific regulation of human aromatase cytochrome P450 (P450arom) gene expression is, in part, the consequence of the use of tissue-specific promoters. Promoter I.1 (PI.1) and PI.2-specific transcripts are expressed in the placenta, whereas promoter II (PII) appears to be the only active promoter in the corpus luteum. Testicular and ovarian sex cord tumors with annular tubules (SCTATs) associated with gynecomastia in prepubertal boys and isosexual precocity in girls with Peutz-Jeghers syndrome (P-JS) have been previously reported. In the present study, we investigated the regulatory elements directing P450arom gene transcription in samples of SCTAT from three prepubertal boys and a girl with P-JS and an ovarian granulosa cell tumor from an adult woman, as well as in healthy fetal and adult testicular and ovarian tissues. Placental tissue was used as a control. Using polymerase chain reaction linked to reverse transcription and northern blotting, we determined the tissue-specific use of various P450arom promoters by analyzing specific 5'-termini from messenger RNA templates. Results indicate a universal gonadal promoter (PII) directs P450arom gene expression in healthy fetal and adult ovaries and testes, as well as in SCTAT of the P-JS and an adult ovarian granulosa cell tumor. These results are interpreted to mean that use of PII in human ovary and testis is preserved from the fetal period into adult life as well as in transformed neoplastic Sertoli and granulosa cells. On the other hand, transcripts from placenta are specific for PI.1 (and to a much lesser extent, PI.2). In SCTAT, immunoreactive P450arom is detected only in the cytoplasm of neoplastic cells, whereas the normal-appearing sex cords do not contain any immunoreactive P450arom. These results further suggest that the markedly increased aromatase expression of these transformed neoplastic cells is not a consequence of using different tissue-specific promoters. Rather it appears to involve activation (or failure of inhibition) of the upstream regulatory elements of the same promoter, which is normally functional in all gonadal tissues, namely the proximal PII.

Use of tissue-specific promoters in the regulation of aromatase cytochrome P450 gene expression in human testicular and ovarian sex cord tumors, as well as in normal fetal and adult gonads.

We have previously demonstrated that the tissue-specific regulation of human aromatase cytochrome P450 (P450arom) gene expression is, in part, the consequence of the use of tissue-specific promoters. Promoter I.1 (PI.1) and PI.2-specific transcripts are expressed in the placenta, whereas promoter II (PII) appears to be the only active promoter in the corpus luteum. Testicular and ovarian sex cord tumors with annular tubules (SCTATs) associated with gynecomastia in prepubertal boys and isosexual precocity in girls with Peutz-Jeghers syndrome (P-JS) have been previously reported. In the present study, we investigated the regulatory elements directing P450arom gene transcription in samples of SCTAT from three prepubertal boys and a girl with P-JS and an ovarian granulosa cell tumor from an adult woman, as well as in healthy fetal and adult testicular and ovarian tissues. Placental tissue was used as a control. Using polymerase chain reaction linked to reverse transcription and northern blotting, we determined the tissue-specific use of various P450arom promoters by analyzing specific 5'-termini from messenger RNA templates. Results indicate a universal gonadal promoter (PII) directs P450arom gene expression in healthy fetal and adult ovaries and testes, as well as in SCTAT of the P-JS and an adult ovarian granulosa cell tumor. These results are interpreted to mean that use of PII in human ovary and testis is preserved from the fetal period into adult life as well as in transformed neoplastic Sertoli and granulosa cells. On the other hand, transcripts from placenta are specific for PI.1 (and to a much lesser extent, PI.2). In SCTAT, immunoreactive P450arom is detected only in the cytoplasm of neoplastic cells, whereas the normal-appearing sex cords do not contain any immunoreactive P450arom. These results further suggest that the markedly increased aromatase expression of these transformed neoplastic cells is not a consequence of using different tissue-specific promoters. Rather it appears to involve activation (or failure of inhibition) of the upstream regulatory elements of the same promoter, which is normally functional in all gonadal tissues, namely the proximal PII.