Microsatellite instability in germ cell tumors of the testis and ovary

OBJECTIVES: Widespread replication-type error (RER) is a genetic alteration that has been observed in many different neoplasms and has been associated with defective DNA repair activity. There are conflicting data regarding the role that this type of genetic instability plays in the development and progression of adult germ cell tumors. METHODS: Universal amplification was performed on 104 paired specimens of tumor and constitutional DNA isolated from adult male and female germ cell tumors, in addition to subpopulations of carcinoma in situ (CIS), the precursor of testicular germ cell tumors (TGCTs). Preamplified DNA samples of TGCTs and ovarian germ cell tumors (OGCTs) were assayed for the presence of RER at 78 and 64 microsatellite loci, respectively. RESULTS: RER was observed at a single microsatellite locus in 7 of 24 individual testicular germ cell tumors, including subpopulations of CIS isolated from one of these patients. There was some evidence of RER clustering for microsatellite loci mapping to the short arm of chromosome 12. Genetic instability was more frequent in OGCTs, with widespread RER observed at 38 of 64 microsatellite loci. These alterations were noted in 12 of 36 malignant OGCTs showing RER at 1 or more loci, including 3 OGCTs demonstrating RER at more than 6 separate microsatellite loci. CONCLUSIONS: The pathogenetic significance of genetic instability in germ cell tumors remains uncertain, although the results of this study suggest a lesser role in TGCTs compared to that in OGCTs.     

Chromosome 4 deletions are frequent in invasive cervical cancer and differ between histologic variants

OBJECTIVE: Patterns of discontinuous deletion of chromosome 4 have been described in histologic variants of lung carcinomas and may represent different "hotspot" targets for gene-environment interactions. Since similar environmental risks exist for cervical cancer, we investigated patterns of discontinuous deletion in two major histologic variants. METHODS: Thirteen archival cases of squamous cell cancer (SCCA) and 11 cases of adenocarcinoma (AC) were precisely microdissected. Matched normal and tumor DNA were used for polymerase chain reaction (PCR) based loss of heterozygosity (LOH) analyses using 19 polymorphic markers spanning chromosome 4. Human papillomavirus (HPV) detection was determined by PCR using general and type-specific primers (HPV 16, 18). Differences in LOH between histologic tumor types and chromosomal regions were determined using Fisher's exact test. RESULTS: Loss at any chromosome 4 locus occurred in 92% of all tumors studied, with the majority of deletions occurring on the long arm of the chromosome. Four discrete minimal regions of discontinuous deletion (R) were identified. For these regions, LOH frequencies were 76% (R1, 4q34-q35), 48% (R2, 4q25-q26), 36% (R3, 4p15.1-p15.3), and 26% (R4, 4p16). Loss in SCCA predominated at 4q (4q34-q35; 83%) and in AC at 4p (4p15.3; 50%). Overall LOH on the p arm was significant in AC (82%) compared to SCCA (31%) (P = 0.02). HPV detection was similar in SCCA (85%) and AC (73%), and HPV 16/18 subtypes were similarly represented in both histologies. CONCLUSIONS: Chromosome 4 deletions are frequent in cervical carcinomas. Different patterns of deletion between SCCA and AC may represent gene regions targeted by different gene-environment interactions in these tumor subtypes.     

X chromosomal and autosomal loss of heterozygosity and microsatellite instability in human cervical carcinoma

The study analyzes tumor material and normal tissue from 27 patients with pure squamous cell carcinoma of the uterine cervix for loss of heterozygosity (LOH) and microsatellite instability (MSI) on 14 autosomal and 11 X chromosomal loci. Overall, 4-40% of the informative cases showed LOH at autosomal regions with the highest frequency at 3p (21-40%) and a marked frequency at 2q35-q37.1 (12.5%) and 17p13.3 (10%), representing regions with putative tumor suppressor gene (TSG) function. The frequency of X chromosomal LOH ranged from 4% to 20%, with a maximum at Xq28 (20%) and Xq11.2-q12 (17%), again indicating alterations in TSG. A 12% LOH was seen at Xq21.33-q22.3, a region encoding a protein with a regulatory function in the cell cycle via cyclin-dependent kinases. MSI was detected in autosomal regions in up to 7% in regions linked to the X chromosome in up to 11%, probably indicating alterations of mismatch repair mechanisms. Our results and those obtained from the literature suggest that autosomal LOH and MSI in carcinomas of the cervix uteri are predominantly found at regions with putative TSG function. Beside TSG alterations, X chromosomal LOH is probably more strongly connected to disturbances in cell cycle regulation.     

Allelotype of papillary serous peritoneal carcinomas.

OBJECTIVE: Papillary serous peritoneal carcinoma (PSPC) is histologically indistinguishable from papillary serous ovarian carcinoma (PSOC) with a similar clinical presentation, yet may differ in its carcinogenesis. The purpose of this study was to determine the incidence of allelic loss and the frequency of p53 mutation by p53 overexpression in PSPC compared to PSOC. METHODS: An allelotype analysis of 26 patients with PSPC was performed using 39 microsatellite markers from 25 chromosomal arms. Thirty-seven previously studied patients with PSOC served as the comparison. P53 mutations were detected by immunohistochemical protein overexpression. RESULTS: There was significantly less LOH in PSPC than PSOC. Both the number of chromosomes with LOH and the proportion of tumors with allelic loss were less frequent. Significant LOH, defined as >/=30% of informative tumors having loss at a chromosome locus, was seen on 4 chromosome arms in PSPC: 12p, 17p, 17q, and 18q, compared to 18 arms in PSOC: 4q, 5q, 6p, 6q, 9p, 9q, 12p, 12q, 13q, 15q, 16q, 17p, 17q, 18q, 19p, 19q, 22q, and Xq (P < 0.001). The median LOH frequency was higher in PSOC than PSPC, 43% versus 33%, respectively (P = 0.013), and more PSOC tumors had LOH than PSPC tumors, 91% versus 65% (P = 0.042). P53 overexpression was detected in 80% of PSPC tumors. CONCLUSIONS: LOH occurs less frequently in PSPC compared to PSOC. Chromosomal regions with high frequencies of LOH common to PSPC and PSOC, such as 12p, 17p, 17q, and 18q, may harbor tumor suppressor genes important in the carcinogenesis of both malignancies and likely include p53.     

Loss of heterozygosity analysis in uterine cervical adenocarcinoma

OBJECTIVE: Uterine cervical adenocarcinoma (CAC) is a rare form of cervical cancer, constituting only 5-8% of all cervical epithelial malignancies. Loss of heterozygosity (LOH) analysis of CAC was undertaken to identify alterations of chromosomal loci that may play important roles in the development of this tumor type. METHODS: We analyzed loss of heterozygosity (LOH) using a total of 50 markers on 20 chromosomal arms in 37 cases of microdissected CAC DNA. RESULTS: LOH of >40% was observed on 2p (50%), 3p (45%), 9p (45%), 11q (46%), 17p (57%), 17q (44%), 18q (57%), and 19p (44%). LOH of 30-40% was observed on 6p (38%), 6q (40%), and 10q (31%). Overall, mean LOH was 34% and fractional allelic loss (FAL) was 0.34. High-level and low-level microsatellite instability (MSI) was shown in four cases (11%) and six cases (16%), respectively. Frequency of LOH on10q was significantly higher in endometrioid-type than endocervical-type adenocarcinoma (71% versus 20%; P < 0.05). Conversely, 6q LOH was higher in endocervical type than endometrioid type (0% versus 60%; P < 0.05). 19p13.3 has been reported to be frequently deleted in adenoma malignum, a histological subtype of CAC. To define the critical regions of LOH in CAC in general, we further performed deletion mapping of 19p using 13 markers. Unlike adenoma malignum, multiple regions on 19p appeared to be important loci of LOH for CAC. CONCLUSION: CACs develop with frequent LOH of multiple chromosomal arms, which may be related to its aggressive clinical behavior and poor prognosis. LOH of 10q may be unique to endometrioid-type CAC.     

Chromosomal gain of 3q and loss of 11q often associated with nodal metastasis in early stage cervical squamous cell carcinoma.

BACKGROUND/PURPOSE: Cervical cancer remains a health problem among women worldwide. Delineation of genetic changes is critical to understanding the molecular basis of tumor progression, as well as for identifying genetic markers for early identification of patients at high risk for a poor outcome. METHODS: To provide comparative genomic hybridization data for cervical squamous cell carcinoma in Taiwan, and to gain further insight into genetic markers associated with lymph node metastasis of this disease, we performed comparative genomic hybridization analysis of 30 consecutive cases of cervical squamous cell carcinoma (24 stage IB and 6 stage IIB). RESULTS: The results disclosed that higher staged tumors or those with lymph node metastasis had more chromosomal imbalances. The commonly recurrent chromosomal imbalances were gains of 3q (46.7%), 1q (36.7%) and 8q (20.0%) and losses of 11q (36.7%), 3p (33.3%), 6q (23.3%), and 2q (20.0%). The frequencies of these chromosomal imbalances in stage IB and IIB tumors did not differ significantly. However, when compared with tumors without lymph node metastasis, the loss of 11q14-q22 (5/9 vs. 3/21, p = 0.019) and gains of 3q11-q22 and 3q26-qter (6/9 vs. 5/21, p = 0.026) were significantly more prevalent in tumors with lymph node metastasis. CONCLUSION: The results suggest that certain tumor-associated genes residing on 3q and 11q warrant further investigation to elucidate their role in the progression of this disease.     

Evaluation of deletions in 7q11.2 and 8p12-p21 as prognostic indicators of tumour development following molar pregnancy

OBJECTIVES: Previous studies have identified loss of chromosomal regions 7p12-q11.2 and 8p12-p21 in choriocarcinoma suggesting that suppressor genes involved in tumour development may be located within these regions. Our objectives were to refine the regions of loss and evaluate these deletions as prognostic indicators of trophoblastic tumour development following molar pregnancy. METHODS: Fluorescent microsatellite genotyping was used to perform deletion mapping in a series of thirty-nine gestational trophoblastic tumours (GTT) including both choriocarcinoma and placental site trophoblastic tumours. RESULTS: Significant loss of heterozygosity (LOH) was found for both regions in GTT that originated in non-molar pregnancies. Although no common interval of loss was found in those GTT with LOH for the 7q11.2 region, for the 8p12-p21 locus, markers D8S1731 and NEFL defined a minimal region of loss in all tumours showing LOH. However, complete LOH of either region occurred in only a minority of tumours (20%; chromosome 7: 24%; chromosome 8) suggesting that loss of neither region is likely to be a primary event in the development of GTT. This was further supported by the observation that no deletions were found in either region for the fourteen GTT that followed complete molar pregnancies. CONCLUSIONS: While we have defined a minimal interval in 8p12-p21 in which tumour suppressor genes involved in GTT are likely to be located, the data suggest that deletions in 7q11.2 or 8p12-p21 are unlikely to be useful prognostic indicators in the management of patients with molar pregnancies.     

Allelic deletion mapping on chromosome 6q and X chromosome inactivation clonality patterns in cervical intraepithelial neoplasia and invasive carcinoma

OBJECTIVE: Loss of heterozygosity (LOH) profiles and X chromosome inactivation patterns are analyzed in 42 patients with cervical intraepithelial neoplasias (CIN), including low-grade (CIN1) and high-grade (CIN2, CIN3) lesions, and 22 patients with invasive cervical carcinomas. METHOD: Laser capture microdissection was utilized to procure pure matched normal and lesional cells from each case. Sixteen microsatellite markers on four chromosomal arms, 6q21-q25.1, 8p21, 13q12.3--q13, and 17q12--q21, were amplified for LOH, as well as the HUMARA locus for X chromosome inactivation analysis. Eight additional markers spanning the long arm of chromosome 6 were utilized in all cases showing LOH on this arm and in which further tissue material was available for microdissection. RESULTS: Fifty-five percent of carcinomas showed deletions on chromosome bands 6q21--q25.1, 43% on 13q12.3--q13, and 40% on 17q12--q21. Deletions on 6q were identified in CIN3 (40%), CIN2 (37%), and CIN1 (10%), on 13q in CIN3 (33%) and CIN2 (33%), and rarely on chromosomal arm 17q. Finer 6q mapping revealed that marker D6S310 (q22) represented the centromeric and marker D6S255 (q25--q16) the telomeric boundary of deletion. A second, telomeric area of deletion at marker D6S281 (q27) was also identified. Monoclonal X chromosome inactivation patterns were identified in 12/13 cancers, 13/14 CIN3, 5/10 CIN2, and 0/6 CIN1. CONCLUSIONS: Two areas of deletion on chromosome 6q were identified in cervical tumors, suggesting the presence of tumor suppressor gene(s) inactivated in this neoplasia. LOH on this arm were identified early during cervical tumor progression. LOH on 13q and 17q also occur in cervical cancers. X chromosome inactivation patterns suggest that CIN develops into a monoclonal lesion during progression from CIN1 to CIN3.     

Molecular genetic changes in human epithelial ovarian malignancies.

The frequent finding of loss of heterozygosity (LOH) for a specific chromosomal marker in tumor DNA compared to normal DNA suggests the presence of a closely linked tumor-suppressor gene. Using Southern blot analysis, 34 primary ovarian epithelial tumors were examined for the presence of tumor-specific allelic losses, using six probes for chromosomes 6q, 11p, 13q, 16q, and 17p. A high incidence of LOH was observed on 11p, 13q, and 17p. LOH for 17p was present in 3 of 4 (75%) informative benign ovarian tumors, 1 of 5 (20%) borderline tumors, and 16 of 24 (67%) invasive ovarian cancers. Allelic loss with the H-ras1 probe on 11p was present in 10 of 19 (53%) invasive tumors but was not identified in 6 benign or borderline tumors. LOH on 13q was present in 18 of 31 (58%) informative cases including 8 of 10 (80%) Stage 1 tumors. This preliminary study suggests that loss of tumor-suppressor genes on chromosomes 13q and 17p may be early events in ovarian tumorigenesis and that changes on chromosome 11p are later events.     

Genetic changes during the multistage pathogenesis of human papillomavirus positive and negative vulvar carcinomas.

OBJECTIVE: To identify the molecular alterations found in 30 human papillomavirus (HPV) positive (n = 15) and negative (n = 15) vulvar carcinomas (VC) and their associated preinvasive lesions (VIN [vulvar intraepithelial neoplasia]) and normal epithelium to determine a common molecular pathogenesis of HPV positive and negative VC. METHODS: Loss of heterozygosity (LOH) at seven 3p chromosomal regions (3p12, 3p14.2, 3p14.3-21.1, 3p21.3, 3p22-24, 3p24.3, 3p25), 13q14 (RB) and 17p13.1 (p53) loci, and TP53 gene mutations in microdissected archival tissues were investigated. RESULTS: Fourteen of fifteen HPV positive VC had HPV 16 DNA sequences. The fractional regional loss index (FRL), an index of total allelic loss at all chromosomal regions analyzed, was greater in the HPV negative VCs than in the HPV positive tumors (FRL = 0.55 versus 0.32; P = .048) and was also greater in the HPV negative high-grade VINs as compared with the HPV positive lesions (0.29 versus 0.02; P = .002). Overall, LOH at any 3p region was frequent (80%) in both groups of cancers and in their associated VIN lesions. Although TP53 gene mutations were present in a minority of VCs (20%), allelic losses at the TP53 locus were frequently present, especially in HPV negative VCs, as compared with the HPV positive tumors (62% versus 15%; P = .02). CONCLUSION: A greater number of molecular alterations are found in HPV negative VCs compared with HPV positive tumors. Allelic losses at 3p are common early events in vulvar carcinogenesis in HPV negative cancers detected at a high rate in the corresponding high-grade precursor lesions (VIN II/III). TP53 gene mutations with associated 17p13.1 LOH are more common in HPV negative cancers.     

Array comparative genomic hybridization analysis of uterine leiomyosarcoma

PURPOSE: Using a genome-wide array-based comparative genomic hybridization (array-CGH), DNA copy number changes in uterine leiomyosarcoma were analyzed. MATERIALS AND METHODS: We analyzed 4 cases of uterine leiomyoma and 7 cases of uterine leiomyosarcoma. The paraffin-fixed tissue samples were microdissected under microscope and DNA was extracted. Array-based CGH and fluorescence in situ hybridization (FISH) were carried out with Genome database (Gene Ontology). RESULTS: Uterine leiomyoma showed no genetic alterations, while all of 7 cases of uterine leiomyosarcoma showed specific gains and losses. The percentage of average gains and losses were 4.86% and 15.1%, respectively. The regions of high level of gain were 7q36.3, 7q33-q35, 12q13-12q15, and 12q23.3. And the regions of homozygous loss were 1p21.1, 2p22.2, 6p11.2, 9p21.1, 9p21.3, 9p22.1, 14q32.33, and 14q32.33 qter. There were no recurrent regions of gain, but recurrent regions of loss were 1p21.1-p21.2, 1p22.3-p31.1, 9p21.2-p22.2, 10q25-q25.2, 11q24.2-q25, 13q12-q12.13, 14q31.1-q31.3, 14q32.32-q32.33, 15q11-q12, 15q13-q14, 18q12.1-q12.2, 18q22.1-q22.3, 20p12.1, and 21q22.12-q22.13. In the high level of gain regions, BAC clones encoded HMGIC, SAS, MDM2, TIM1 genes. Frequently gained BAC clone-encoded genes were TIM1, PDGFR-beta, REC Q4, VAV2, FGF4, KLK2, PNUTL1, GDNF, FLG, EXT1, WISP1, HER-2, and SOX18. The genes encoded by frequently lost BAC clones were LEU1, ERCC5, THBS1, DCC, MBD2, SCCA1, FVT1, CYB5, and ETS2/E2. A subset of cellular processes from each gene was clustered by Gene Ontology database. CONCLUSION: Using array-CGH, chromosomal aberrations related to uterine leiomyosarcoma were identified. The high resolution of array-CGH combined with human genome database would give a chance to find out possible target genes present in the gained or lost clones.     

LOH of chromosome 6q compared with LOH of 17q and 18q in ovarian cancers: relationship to p53 expression and clinicopathological findings

In 41 ovarian epithelial tumors (7 borderline and 34 invasive), loss of heterozygosity (LOH) of chromosomes 6q, 17q, and 18q was examined using 4 microsatellite markers: ER (6q 25–1), BRCA1 (17q21), DCC (18q21), and D18S58 (18q23). The LOH was compared with clinicopathological findings, including p53 and ER expression. In borderline tumors, LOH and p53 expression were never found, while in invasive carcinomas LOH and p53 were found in 71% and 59% of cases, respectively. In particular, in invasive carcinomas 6q LOH represented a marker distinguishing two groups of tumors; those with 6q LOH were only of serous histotype and at advanced stages (III/IV). No significant difference was found for any of genes in 5-year survival of the patients. No correlation was found between ER expression and ER LOH, as well as between biological aggressiveness and 17q and/or 18q LOH.
We conclude that p53 and LOH of the investigated loci distinguish borderline from invasive ovarian carcinomas; moreover, the comparison of these results with clinicopathological parameters suggests that the presence of 6q LOH may be a factor accounting for greater biologic aggressiveness independent of the histologic subtype.     

Treatment of ovarian germ cell tumors with a 3-day bleomycin, etoposide, and cisplatin regimen: a prospective multicenter study

BACKGROUND: Ovarian germ cell tumors (OGCT) are highly curable when treated with cytoreductive surgery and platinum-based chemotherapy. We evaluated the safety and activity of a 3-day modified bleomycin, etoposide, and cisplatinum (mBEP) regimen in patients with OGCT. PATIENTS AND METHODS: Patients with FIGO stages I-IV OGCT were treated with three (stages I-III complete resection) or four cycles (incomplete resection or stage IV) of bleomycin 15 mg iv, etoposide 120 mg/m(2) iv, and cisplatin 40 mg/m(2) iv for 3 days every 3 weeks. RESULTS: Forty-eight patients (14 with dysgerminoma and 34 with non-dysgerminomatous tumors) were included in our study. Most patients had stage I disease (65%) and complete resection of their tumor (67%). Twenty percent of patients developed grade 3 or 4 neutropenia with 4 episodes of neutropenic fever. During follow-up (median: 5 years), two patients developed progressive disease including one patient who died. All patients with stage I or II disease and all patients with dysgerminoma remain free of disease. However, 20% of patients with non-dysgerminomatous tumors stage III or IV experienced progressive disease. CONCLUSION: The modified 3-day BEP regimen was safe and effective in patients with OGCT. Further improvements are needed for patients with advanced, suboptimally debulked non-dysgerminomatous tumors.     

A novel amplification at 17q21-23 in ovarian cancer cell lines detected by comparative genomic hybridization

OBJECTIVE: Little is known about the molecular mechanisms involved in the pathogenesis and/or progression of ovarian cancer (OC). To investigate the genomic imbalances and identify the cancer-related genes associated with this tumor, we applied comparative genomic hybridization (CGH) in OC cell lines. METHODS: Chromosomal aberrations among 17 OC cell lines were analyzed with CGH. Since novel chromosomal regions, including 17q21-23, were identified, we examined the involvement of two candidate genes, PS6K and ZNF147, mapped on this chromosomal region. We examined the status of amplification and expression by fluorescence in situ hybridization as well as by Southern blot analysis and by Northern blot analysis on two candidate genes, respectively. RESULTS: All lines displayed numerous chromosomal imbalances; the most frequent losses were observed on 18q22-23 (29.4%), 13q22-34 (23.5%), 9p (17.6%), 4p11-14 (17.6%), and 11p14-15 (17.6%). The most common gains were noted at 20q12-13 (47.1%), 8q23-24 (35.2%), 5p15 (23.5%), 7q32-36 (23.5%), and 20p (23.5%). High-level gains (HLGs) were detected at 20q12-13 (four cell lines), 8q24 (two cell lines), 12p11-12 (two cell lines), and 17q21-23 (two cell lines). PS6K and ZNF147 genes were amplified in two cell lines exhibiting HLGs at 17q21-23, but not overexpressed. CONCLUSIONS: Our CGH data indicate that OCs have various DNA copy number changes. Among these frequent changes, 17q21-23 may harbor another tumor-associated gene(s) responsible for OC carcinogenesis.     

Investigation of loss of heterozygosity at specific loci on chromosomes 3p, 6q, 11p, 17p and 17q in ovarian cancer

In an attempt to further define the genetic events in the pathogenesis and progression of human ovarian cancer, an analysis of constitutional and ovarian carcinoma DNA samples revealed loss of heterozygosity (LOH) at specific loci on chromosomes 3p (38%), 6q (23%), 11p (33%), 17p (82%) and 17q (62%). In contrast, LOH was not observed in benign or borderline tumors. No significant association could be demonstrated between LOH at the loci studied and tumor stage, histologic subtype, grade or patient outcome. Further analyses of large tumor panels are now required to determine the relationship between LOH at these loci and the clinicopathological behavior of ovarian tumors.     

Frequent allelic imbalance of tumor suppressor gene loci in cervical dysplasia.

In addition to human papillomavirus (HPV) infection, loss of heterozygosity (LOH) at tumor suppressor gene loci has been frequently observed in cervical cancer. Thus, it may be assumed that detection and characterization of specific LOH profiles in preneoplastic lesions, in addition to HPV typing, might facilitate assessment of progression risk of cervical dysplasia. In this study, the type and frequency of allelic imbalance (allelic loss or allelic reduction) were analyzed in 24 unrelated cervical lesions using 14 polymorphic microsatellite markers at different tumor suppressor gene loci. No allelic loss was observed in four condylomatous lesions, whereas 2 of 13 (15%) CIN I lesions displayed allelic loss at 3p25 and 5q11-13. In high-grade lesions, however, allelic loss occurred in four of six (66%) cases at multiple chromosomal regions (3p14-25, 5p15, 5q11, 5q21, 11p15, and 17q21). Allelic reduction was observed in 4 of 13 (30%) low-grade lesions and 3 of 6 (50%) high-grade lesions. LOH was confined to lesions infected by high-risk HPV types. These data suggest that chromosomal instability is an early event in cervical carcinogenesis. The detection of LOH on multiple chromosome 3p loci in 50% of high-grade lesions suggests that a specific marker panel encompassing this region might enable better assessment of which lesions are likely to regress, persist, or progress.     

Ovarian gonodoblastoma with yolk sac tumor in a young 46, XX female: case report

BACKGROUND: Gonodoblastomas with ovarian germ cell tumors (OGCTs) other than dysgerminoma are very unusual. This is the first case report of a pure endodermal sinus tumor of the ovary with gonodoblastoma in a 46 XX, female. CASE: A 19-year-old female was admitted to our hospital with an abdominal mass and pain. She had elevated levels of CA-125 and AFP. Fertility sparing surgery was undertaken and revealed a Stage IA endodermal sinus tumor and gonodoblastoma in the same ovary. The patient refused chemotherapy and was followed-up for six months without disease. CONCLUSION: Gonodoblastomas may occur in conjunction with OGCTs. Tumor markers and immunohistochemical examination may help in the diagnosis of these OGCTs with gonodoblastoma.     

Comparative study of primary and recurrent ovarian serous carcinomas: comparative genomic hybridization analysis with a potential application for prognosis

OBJECTIVES: The purpose of this study is to comparatively characterize genomic imbalances in primary and recurrent ovarian serous carcinomas and to identify genomic alterations that may be used as a marker for prognosis. METHODS: Twenty ovarian serous carcinomas were studied by comparative genomic hybridization (CGH). RESULTS: Genomic alterations were found in all of the tumors. The most common regions involving gain of DNA copy numbers are 1q41q44, 8q22q24, 19p12q13.1, 20q12q13, 3q26q29, 12p12p13, 2p22p25, 7p14p21, 5p15.2p15.3, and 17q22q25. The most common regions with loss of DNA copy numbers are Xp11.2q13, 4q31q35, Xp21p22.3, 18q22q23, 13q22q31, 9p22p24, and 16q22q24. High-level gains were detected at chromosomal regions of 1q41q44, 2p22p25, 3q26q29, and 19p12q13.1. Comparative analysis of primary and recurrent tumors showed that gains of 2p22p25, 19p12q13.1, and 20q12q13 and loss of 5q14q22 were more common in the recurrent high-grade tumors. About 85% of the tumors showed increases in DNA copy numbers in the regions (2p and 8q) harboring the myc family gene. Patients with tumor containing fewer than seven chromosomal aberrations showed longer survival time. CONCLUSION: The myc oncogene family may play a role in the pathogenesis of ovarian serous carcinomas. Our study suggests that tumors with gains of 2p22p25, 19p12q13.1, and 20q12q13 and loss of 5q14q22 may be at high risk for recurrence. Furthermore, the patients' survival time inversely correlates with the numbers of chromosomal alterations found in their tumors. CGH analysis may have a clinical application in predicting prognosis and risk of recurrence in patients with ovarian serous carcinomas.     

Management of Early Ovarian Cancer: Germ Cell and Sex Cord-Stromal Tumors

Malignant ovarian germ cell tumors (OGCT) and sex cordstromal tumors (OSCST), each of which account for less than 5% of all ovarian malignancies, are much less common than epithelial ovarian cancer. In young patients suspected of having an OGCT, laparotomy is initially indicated for both diagnosis and treatment. For most patients, unilateral salpingo-oophorectomy with preservation of the contralateral ovary and the uterus is appropriate. The basis for this surgical approach is retrospective studies that show an equivalent cure rate for patients who undergo unilateral or bilateral adnexectomy. No prospective studies have compared unilateral with bilateral adnexectomy. Surgical staging is also important to determine the extent of disease, to determine prognosis, and to guide postoperative management. If metastatic disease is encountered during initial surgery for OGCT, the same principles of cytoreductive surgery that have been applied to surgically manage advanced epithelial ovarian cancer are recommended, with resection of as much tumor as is technically feasible and safe. For all OGCT patients except those with well-documented stage IA grade 1 pure immature teratoma or stage IA pure dysgerminoma, postoperative chemotherapy is indicated. The current recommended regimen for OGCT is bleomycin, etoposide, and cisplatin—a combination that appears to result in at least a 95% cure rate for stage I disease and at least a 75% cure rate for advanced-stage disease. For patients with metastatic dysgerminoma, chemotherapy, which has the advantage of preserving fertility in the majority of patients, has supplanted radiotherapy as standard treatment. For patients with OSCST, no standard therapy exists. Surgery alone is currently acceptable treatment for all patients with OSCST except those who have metastatic disease or Sertoli-Leydig cell tumors with poor differentiation or heterologous elements. Currently, platinum-based combination chemotherapy is favored for these latter patients, but the activity of such regimens appears only modest.     

Allelic imbalances in endometrial stromal neoplasms: frequent genetic alterations in the nontumorous normal-appearing endometrial and myometrial tissues

OBJECTIVES: Endometrial stromal sarcoma (ESS) is among the rarest primary malignant tumors of the uterus. The aim of this study was to examine the possibility of loss of heterozygosity (LOH) and microsatellite instability (MIS) in different tissue components of ESS. METHODS AND MATERIALS: Using PCR, we examined DNA extracts from microdissected tissues of 27 uterus samples containing malignant stromal cells of ESS (20 low grade and 3 high grade sarcomas), benign tumor cells of endometrial stromal nodules (ESN, 4 cases) as well as tumor-free myometrial and endometrial tissues close to and distant from the tumors. Normal cervical tissues (epithelial cells, stroma cells) were also microdissected and analyzed. Fifteen polymorphic DNA markers (chromosomes 2p, 3p, 5q, 10q, 11q, 13q, and 17p) were tested to identify possible genetic alterations. Samples from 10 women with prolapsed uteri without any histopathologic abnormalities were also selected as controls. RESULTS: While no genetic alterations could be identified in 12 (44.5%) ESS cases, 15 (55.5%) revealed LOH with at least one polymorphic DNA marker. LOH were found in 3 (100%) high-grade sarcomas, 10 (50%) low-grade ESS, and 2 (50%) benign ESN. Although LOH was found more often in the neoplastic stromal cells, several cases showed concurrent and independent LOH in the tumor-free myometrial or endometrial tissues either close to or distant from the tumors. The most common genetic abnormality (LOH) was observed at PTEN, a tumor suppressor gene located on chromosome 10q. No tumor was associated with microsatellite instability (MSI). The control group without any histologic abnormalities did not show LOH or MSI. CONCLUSIONS: The frequent occurrence of LOH and the lack of MSI suggest that loss of function(s) of tumor suppressor genes and not mismatch repair deficiency plays a key role in the pathogenesis of endometrial stromal neoplasms. The concurrent and independent occurrence of LOH in the stromal tumor cells and the tumor-free and normal-appearing myometrial and endometrial tissues strongly support the concept of genetic alterations in microenvironmental tissues and the interaction(s) between different tissue components in the development and progression of endometrial stromal neoplasms.