Use of short tandem repeat analysis in unusual presentations of trophoblastic tumors and their mimics.

Gestational trophoblastic tumors can be difficult to distinguish from nongestational neoplasms. Somatic and germ cell tumors can mimic gestational choriocarcinoma, and epithelioid trophoblastic tumor (ETT) is known for its histologic, and sometimes clinical, resemblance to squamous cell carcinoma. Short tandem repeat (STR) analysis can separate gestational from nongestational neoplasms and can provide useful information about the type of causative conceptus. We present a series of cases which demonstrate the utility of STR analysis in the evaluation of gestational choriocarcinoma, epithelioid trophoblastic tumor, and their mimics. Samples from normal tissue and tumor were microdissected. DNA was extracted, and STR analysis was performed. Five cases were identified in which there was clinical and/or histologic concern for a gestational trophoblastic neoplasm. Case 1 is a choriocarcinoma presenting concurrently with a 16-week gestation. STR testing on the tumor, mother, and fetus showed that the tumor arose from a previous occult complete hydatidiform mole. Case 2 is an ETT presenting as multiple masses in bilateral kidneys, initially diagnosed as urothelial carcinoma. However, because of an elevated human chorionic gonadotropin, additional workup was performed which showed that the tumor was most likely an ETT. STR analysis showed that the tumor arose from a nonmolar pregnancy. Cases 3-5 illustrate somatic carcinomas mimicking gestational neoplasia. In those cases, STR confirmed a somatic origin. STR can be useful in distinguishing gestational from nongestational neoplasms, particularly in unusual settings. Also, STR analysis can add clinically useful information that is not available from clinical or histologic evaluation.

Lymphovascular space invasion in microcystic elongated and fragmented (MELF)-pattern well-differentiated endometrioid adenocarcinoma is associated with a higher rate of lymph node metastasis.

The microcystic elongated and fragmented (MELF) pattern of myoinvasion is a feature of some well-differentiated endometrial endometrioid adenocarcinomas that has been associated with poor prognosis. The myoinvasion in MELF-pattern tumors can be subtle and lead to underestimation of the depth of myometrial invasion resulting in tumor understaging; the presence of lymphvascular space invasion (LVSI) and lymph node metastasis in MELF-pattern tumors can also be subtle and lead to tumor understaging. To investigate the association of MELF-pattern invasion and lymph node metastasis, we reviewed a series of well-differentiated endometrioid adenocarcinomas and correlated the presence of MELF-pattern myoinvasion and LVSI with lymph node metastasis. Cases of T1 stage well-differentiated endometrioid adenocarcinomas with LVSI and a concurrent lymph node dissection were identified from departmental files. Hematoxylin and eosin-stained slides from the hysterectomy specimen and lymph nodes were reviewed for the presence of MELF-pattern myoinvasion, LVSI, and nodal metastasis. MELF-pattern myoinvasion was identified at least focally in 36% of cases. The pattern of LVSI differed between cases with MELF-pattern invasion and conventional-type invasion, as did the pattern of nodal metastasis. A statistically significantly higher rate of lymph node metastasis was present in cases with MELF-pattern invasion than in cases with conventional invasion, and the rate stratified with the proportion of MELF-pattern adenocarcinomas. MELF-pattern cases carry an increased rate of lymph node metastasis even within the subset of endometrioid tumors with LVSI, which has implications in routine clinical practice as it signals the importance of recognizing MELF-pattern myoinvasion.

Ovarian complete hydatidiform mole: case study with molecular analysis and review of the literature.

Ectopic complete molar pregnancy in the ovary is an exceptionally rare event. Here we present a case of ovarian complete hydatidiform mole in a 20-year-old gravida 2 para 1 woman. At presentation, the patient underwent excision of a hemorrhagic left ovarian cyst, with routine sections demonstrating a hemorrhagic corpus luteum with a single microscopic focus of detached atypical trophoblast, without chorionic villi. Subsequent left salpingo-oophorectomy for persistently elevated human chorionic gonadotropin led to a final diagnosis of complete hydatidiform mole arising in the ovary. The fallopian tube was unremarkable. Zygosity was determined using short tandem repeat analysis, confirming the diagnosis of monospermic complete mole. In the clinical setting of a markedly elevated human chorionic gonadotropin level and an ovarian mass, histopathologic examination is critical in distinguishing ectopic pregnancy from choriocarcinoma. Short tandem repeat analysis can be a useful adjunct to histologic diagnosis in challenging cases.

Genetic variations in EGFR and ERBB4 increase susceptibility to cervical cancer.

OBJECTIVES: Inherited genetic variability contributes to susceptibility to cervical cancer. We investigated the association of single nucleotide polymorphisms (SNPs) in the human epidermal growth factor receptor (ERBB) family with cervical cancer. METHODS: We used the transmission disequilibrium test (TDT) to look for excessive transmission of tag single nucleotide polymorphisms (tSNPs) in ERBB family members EGFR, ERBB2, ERBB3, and ERBB4 in a large sample of women with invasive and in situ cervical cancer and their biological parents (628 trios). The study used a discovery set of trios (244) analyzed by Illumina GoldenGate in which SNPs reaching a P<.05 were re-tested by TaqMan in the combined set of 628. We also explored collaborative effects of different ERBB alleles. RESULTS: Based on single SNP TDT tests we identified 16 significant SNPs in the discover stage and six of 14 SNPs that could be assayed by TaqMan were significantly overtransmitted in women with cervical cancer in the combined replication set. Four SNPs were located in intron 1 of EGFR and two SNPs in intron 24 of ERBB4. The EGFR variants are located near multiple enhancers, silencers, and the previously identified functional common polymorphisms in intron 1. CONCLUSIONS: Our data provide evidence for the involvement of intron 1 EGFR variants and intron 24 ERBB4 variants in modulating risk for the development of in situ and invasive cervical cancer. These variants should be examined in additional populations and functional studies would be needed to confirm this hypothesis.

Uterine serous carcinoma: increased familial risk for lynch-associated malignancies.

Serous uterine cancer is not a feature of any known hereditary cancer syndrome. This study evaluated familial risk of cancers for patients with serous uterine carcinoma, focusing on Lynch syndrome malignancies. Fifty serous or mixed serous endometrial carcinoma cases were prospectively enrolled. Pedigrees were developed for 29 probands and tumors were assessed for DNA mismatch repair (MMR) abnormalities. Standardized incidence ratios for cancers in relatives were estimated. A second-stage analysis was undertaken using data from Gynecologic Oncology Group (GOG)-210. Incidence data for cancers reported in relatives of 348 patients with serous and mixed epithelial and 624 patients with endometrioid carcinoma were compared. Nineteen of 29 (65.5%) patients in the single-institution series reported a Lynch-related cancer in relatives. Endometrial and ovarian cancers were significantly overrepresented and a high number of probands (6 of 29, 20.7%) reported pancreatic cancers. None of the probands' tumors had DNA MMR abnormalities. There was no difference in endometrial or ovarian cancer incidence in relatives of serous and endometrioid cancer probands in the case-control study. Pancreatic cancers were, however, significantly more common in relatives of patients with serous cancer [OR, 2.39; 95% confidence interval (CI), 1.06-5.38]. We identified an excess of endometrial, ovarian, and pancreatic cancers in relatives of patients with serous cancer in a single-institution study. Follow-up studies suggest that only pancreatic cancers are overrepresented in relatives. DNA MMR defects in familial clustering of pancreatic and other Lynch-associated malignancies are unlikely. The excess of pancreatic cancers in relatives may reflect an as yet unidentified hereditary syndrome that includes uterine serous cancers.

Histologic, molecular, and cytogenetic features of ovarian cancers: implications for diagnosis and treatment.

Ovarian epithelial carcinoma (OEC), the most common ovarian malignancy, is a heterogeneous disease with several histologic subtypes that show characteristic cytogenetic features, molecular signatures, oncologic signaling pathways, and clinical-biologic behavior. Recent advances in histopathology and cytogenetics have provided insights into pathophysiologic features and natural history of OECs. Several studies have shown that high- or low-grade serous, endometrioid, and clear cell carcinomas are characterized by mutations involving the TP53, K-ras/BRAF, CTNNB1, and PIK3CA genes, respectively. High-grade serous carcinomas, the most common subtype, often manifest with early transcoelomic spread of disease beyond the ovaries, whereas low-grade serous and mucinous carcinomas commonly manifest with early-stage disease, with a resultant excellent prognosis. On the basis of pathogenetic mechanisms, recent findings suggest a dualistic model of ovarian carcinogenesis consisting of types I and II. Type I (low-grade serous, mucinous, and endometrioid) cancers commonly arise from well-described, genetically stable precursor lesions (usually borderline tumors); manifest as large adnexal masses with early-stage disease; and have a relatively indolent clinical course, with an overall good prognosis. In contrast, type II carcinomas (high-grade serous, endometrioid, mixed, and undifferentiated variants) originate de novo from the adnexal epithelia, often demonstrate chromosomal instability, and have aggressive biologic behavior. Better knowledge of hereditary ovarian cancer syndromes and associated cytogenetic abnormalities has led to increased interest in novel biomarkers and molecular therapeutics. Genetic changes, pathologic features, imaging findings, and natural histories of a variety of histologic subtypes of OEC are discussed in this article.

JAZF1 and JJAZ1 gene fusion in primary extrauterine endometrial stromal sarcoma.

Endometrial stromal sarcoma predominantly occurs as a primary tumor of the uterus. The most common cytogenetic abnormality in these tumors is t(7;17)(p15;q21), which occurs in 33% to 80% of cases and results in a JAZF1-JJAZ1 gene fusion. Rare cases of primary extrauterine endometrial stromal sarcoma have been reported, but it remains uncertain whether the genetic features of uterine endometrial stromal sarcoma are also characteristic of extrauterine tumors. The present study evaluates the prevalence of the t(7;17)(p15;q21) and JAZF1-JJAZ1 gene fusion in a series of 6 cases of primary extrauterine endometrial stromal sarcoma. Conventional nested reverse transcriptase-polymerase chain reaction was performed using primers complementary to sense and antisense JAZF1 and JJAZ1 sequences. Interphase fluorescence in situ hybridization was performed to detect t(7;17)(p15;q21) using a break-apart strategy for both JAZF1 and JJAZ1. In one of the 6 extrauterine endometrial stromal sarcoma cases, JAZF1-JJAZ1 fusion transcripts were detected by reverse transcriptase-polymerase chain reaction. The same case showed evidence of both JAZF1 and JJAZ1 rearrangements by interphase fluorescence in situ hybridization. The remaining 5 cases were negative for the t(7;17)(p15;q21) by both reverse transcriptase-polymerase chain reaction and fluorescence in situ hybridization analysis. These findings demonstrate that the t(7;17)(p15;q21) and associated JAZF1-JJAZ1 fusion transcripts are present in only a subset of primary extrauterine endometrial stromal sarcoma. Although molecular testing for the t(7;17)(p15;q21) and associated gene fusion may be useful for confirming primary extrauterine endometrial stromal sarcoma, the low prevalence of the genetic aberration limits the clinical utility of the testing.

The chromosome Y-linked testis-specific protein locus TSPY1 is characteristically present in gonadoblastoma.

Gonadoblastoma is a rare gonadal neoplasm that occurs almost exclusively in individuals who are phenotypically females. Most cases develop in women who have an abnormal karyotype in which at least a portion of the centromeric region of the short arm of chromosome Y is present, a region often referred to as the GBY locus. Of the several genes present in the GBY locus, the TSPY1 gene (which encodes testis-specific protein, a protein thought to have a role in cell cycle regulation) appears to be the most likely to have a critical role in the pathogenesis of gonadoblastoma. To evaluate the association of TSPY1 with the tumor, we developed an interphase fluorescent in situ hybridization assay that uses probes that target the region of the GBY locus that contains TSPY1 and a commercially available chromosome X CEP probe. Using this set of probes in a dual-color approach, we evaluated 6 cases of gonadoblastoma identified from our files and found that both TSPY1 and chromosome X were present in 5 (84%) of 6 cases; in these 5 cases, the adjacent nonneoplastic gonadal parenchyma showed the same genotype as the tumor. Of 6 cases, 1 (16%) showed no evidence of TSPY1; in this case, which occurred in a gravida 2 para 2 woman, 2 X chromosomes were present in the nonneoplastic ovary, the gonadoblastoma, and associated dysgerminoma and granulosa cell tumors. From a basic science perspective, our data demonstrate that the TSPY1 gene is present in most gonadoblastomas, supporting the hypothesized role for TSPY1 in gonadoblastoma tumorigenesis; the lack of TSPY1 in a fertile woman suggests that other loci can, however, substitute for TSPY1 in the development of the tumor. From a clinical perspective, our data show that interphase fluorescence in situ hybridization targeting TSPY1 is a straightforward approach that can be used in the evaluation of Y-associated intersex disorders in women who develop gonadoblastoma.

Uterine extramedullary hematopoiesis: what is the clinical significance?

Extramedullary hematopoiesis (EMH) represents abnormal development and growth of hematopoietic tissue outside the bone marrow. Recent studies have shown its association with myelofibrosis and myeloid metaplasia, chronic myeloproliferative disorders, and other hematologic malignancies in up to two-thirds of the cases. Eleven cases of uterine EMH (UEMH) have been reported earlier; of these half had a concurrent, or subsequently developed a clinically significant hematologic disorder. We studied a larger group of patients with UEMH to understand the relationship with hematologic disorders. Cases diagnosed as UEMH between 1995 and 2007 were retrieved from our files (n=20). UEMH was confirmed in all 20 cases. Eighteen cases were located in the fundus including 5 in endometrial polyps and 5 in leiomyomas. Two foci were located within the cervix. The erythroid lineage was present in all foci; 35% also had myeloid precursors, and 2% had megakaryocytes. Twelve of 20 patients had underlying anemia (mean Hgb of 11 mg/dL, range: 5.5 to 15.7 mg/dL). No preexisting hematologic malignancy was identified in any of the patients. Follow-up information was available on 17 patients (mean: 2.88 yr; range: 0.2 to 9 yr). None of the patients developed a significant hematologic disorder other than anemia during follow-up. On the basis of our study, UEMH is frequently associated with chronic anemia. In comparison with existing literature suggesting a strong link between UEMH and hematopoietic disorders, our findings suggest that UEMH is rarely associated with serious underlying hematologic conditions and therefore does not warrant extensive hematologic workup.

TP53, MDM2, NQO1, and susceptibility to cervical cancer.

Host genetic variability modifies the risk of cervical cancer in women infected with oncogenic human papillomavirus (HPV). Studies have reported an association of the TP53 codon 72 arginine and cervical cancer, but the results are inconsistent. We examined the association of this single nucleotide polymorphism (SNP) in women with cervical cancer and cervical intraepithelial neoplasia grade 3, using a family-based association test. We further explored SNPs in two genes that regulate p53 stability: MDM2 (SNP309) and NQO1 (SNP609, SNP465). We also examined the relationship between host genotype and tumor HPV type. We genotyped 577 patients and their biological parents and/or siblings, using PCR-RFLP or Taqman assays. HPVs were typed by sequence-based methods. The transmission/disequilibrium test was used to detect disease-susceptibility alleles. The arginine peptide of TP53 codon 72 was overtransmitted in Caucasian families (P = 0.043), and the significance of this finding was enhanced in a subgroup of women infected with HPV16- and/or HPV18-related HPVs (P = 0.026). Allele C of NQO1 SNP609 was also overtransmitted in all cases (P = 0.026). We found no association between MDM2 SNP309 or NQO1 SNP465 and cervical cancer. Our results indicate that functional polymorphisms in TP53 codon 72 and NQO1 SNP609 associate with the risk of cervical cancer especially in women infected with type 16- and/or type 18-related HPVs.

A microRNA expression signature for cervical cancer prognosis.

Invasive cervical cancer is a leading cause of cancer death in women worldwide, resulting in about 300,000 deaths each year. The clinical outcomes of cervical cancer vary significantly and are difficult to predict. Thus, a method to reliably predict disease outcome would be important for individualized therapy by identifying patients with high risk of treatment failures before therapy. In this study, we have identified a microRNA (miRNA)-based signature for the prediction of cervical cancer survival. miRNAs are a newly identified family of small noncoding RNAs that are extensively involved in human cancers. Using an established PCR-based miRNA assay to analyze 102 cervical cancer samples, we identified miR-200a and miR-9 as two miRNAs that could predict patient survival. A logistic regression model was developed based on these two miRNAs and the prognostic value of the model was subsequently validated with independent cervical cancers. Furthermore, functional studies were done to characterize the effect of miRNAs in cervical cancer cells. Our results suggest that both miR-200a and miR-9 could play important regulatory roles in cervical cancer control. In particular, miR-200a is likely to affect the metastatic potential of cervical cancer cells by coordinate suppression of multiple genes controlling cell motility.

A miR-200 microRNA cluster as prognostic marker in advanced ovarian cancer.

OBJECTIVE: Ovarian cancer is one of the most deadly human cancers, resulting in over 15,000 deaths in the US each year. A reliable method that could predict disease outcome would improve care of patients with this disease. The main aim of this study is to identify novel prognostic biomarkers for advanced ovarian cancer. METHODS: We hypothesized that microRNAs (miRNAs) may predict outcome and have examined the prognostic value of these small RNA molecules on disease outcome prediction. miRNAs are a newly identified family of non-coding RNA genes, and recent studies have shown that miRNAs are extensively involved in the tumor development process. We have profiled the expression of miRNAs in advanced ovarian cancer using a novel PCR-based platform and correlated miRNA expression profiles with disease outcome. RESULTS: By performing miRNA expression profiling analysis of 55 advanced ovarian tumors, we have shown that three miR-200 miRNAs (miR-200a, miR-200b and miR-429) in the miR-200b-429 cluster are significantly associated with cancer recurrence and overall survival. Further target analysis indicates that these miR-200 miRNAs target multiple genes that are involved in cancer development. In addition, we have also shown that overexpression of this miR-200 cluster inhibits ovarian cancer cell migration. CONCLUSIONS: miR-200b-429 may be used as a prognostic marker for ovarian cancer outcome, and low-level expression of miR-200 miRNAs in this cluster predicts poor survival. In addition, our study suggests that miR-200 miRNAs could play an important regulatory role in ovarian cancer.

Cervical cancer histology and tumor differentiation affect 18F-fluorodeoxyglucose uptake.

BACKGROUND: This study aimed to evaluate the variation in cervical cancer glucose metabolism for different tumor histologies and levels of differentiation, as measured by the uptake of 18F-fluorodeoxyglucose (FDG) by positron emission tomography (PET). METHODS: The study population consisted of 240 patients with International Federation of Gynecology and Obstetrics stages Ib1 through IVb cervical cancer, who underwent a pretreatment FDG-PET. Tumor histology included 221 squamous cell (SC), 4 adenosquamous (AS), and 15 adenocarcinoma (AC) tumors. There were 14 well, 145 moderately, and 81 poorly differentiated tumors. The stage distribution was as follows: 70 stage I tumors (9 AC, 2 AS, and 59 SC), 102 stage II tumors (3 AC, 1 AS, and 98 SC), 64 stage III tumors (3 AC, 1 AS, and 60 SC), and 4 stage IV tumors (4 SC). From the FDG-PET, maximal standardized uptake value (SUVmax) was determined. The variation in SUVmax was analyzed for differences based on tumor histology and differentiation. RESULTS: For all patients, the mean SUVmax was 11.62 (range, 2.50-50.39). The mean SUVmax by histology was as follows: SC, 11.91 (range, 2.50-50.39); AS, 8.85 (range, 6.53-11.26); and AC, 8.05 (range, 2.83-13.92). Squamous versus nonsquamous tumors demonstrated a significant difference in SUVmax (P=.0153). SUVmax and tumor volume were not found to be correlated (R2=0.013). The mean SUVmax was 8.58 for well-differentiated, 11.56 for moderately differentiated, and 12.23 for poorly differentiated tumors. The mean SUVmax was significantly different for well-differentiated versus poorly differentiated cervical tumors (P=.0474). CONCLUSIONS: Cervical tumor FDG uptake varied by histology and differentiation. SC tumors demonstrated a significantly higher SUVmax compared with nonsquamous cell tumors, and poorly differentiated tumors also had a higher SUVmax.

Mucoepidermoid carcinoma of the cervix: another tumor with the t(11;19)-associated CRTC1-MAML2 gene fusion.

Mucoepidermoid carcinoma (MEC) of the uterine cervix is a controversial entity. By strict morphologic criteria, the tumor has features identical to those of salivary gland MEC and is characterized by nests composed of 3 cell types (epidermoid, intermediate, and mucin producing) in the absence of overt glandular differentiation. Nonetheless, the entity is not recognized in the current World Health Organization classification of cervical tumors. Given the morphologic similarity between MEC of the cervix and MEC of the salivary glands, we sought to determine if MEC of the cervix harbors the t(11;19)(q21;p13) characteristic of MEC of the major and minor salivary glands, a rearrangement that results in fusion of the cyclic adenosine 3',5' monophosphate coactivator CRTC1 to the Notch coactivator MAML2. We identified 7 cervical tumors from our departmental files and performed reverse transcription-polymerase chain reaction and fluorescence in situ hybridization-based molecular analysis for rearrangements of CRTC1 and MAML2; 14 conventional cervical adenosquamous carcinomas were used as controls. Analysis of the cervical MECs demonstrated a CRTC1-MAML2 fusion in 1 case, rearrangements of CRTC1 in 4 cases, and aberrations of MAML2 in 5 cases (rearrangements in 2 cases, amplification in 3 cases). All MEC showed aberrations of at least 1 of the loci, whereas none of the cervical adenosquamous carcinomas harbored rearrangements or amplification of either locus. Our results demonstrate that cervical tumors defined as MEC by strict morphologic criteria harbor genetic aberrations involving the genes characteristically rearranged in MEC of the salivary glands, and suggest that cervical MEC is an entity distinct from conventional cervical adenosquamous carcinoma. The development of drug therapy targeted to the genes rearranged in MEC underscores the importance of correct classification of cervical MEC because the diagnosis may hold therapeutic implications different from other cervical malignancies.

A unified sample preparation protocol for proteomic and genomic profiling of cervical swabs to identify biomarkers for cervical cancer screening.

Cervical cancer screening is ideally suited for the development of biomarkers due to the ease of tissue acquisition and the well-established histological transitions. Furthermore, cell and biologic fluid obtained from cervix samples undergo specific molecular changes that can be profiled. However, the ideal manner and techniques for preparing cervical samples remains to be determined. To address this critical issue a patient screening protein and nucleic acid collection protocol was established. RNAlater was used to collect the samples followed by proteomic methods to identify proteins that were differentially expressed in normal cervical epithelial versus cervical cancer cells. Three hundred ninety spots were identified via 2-D DIGE that were expressed at either higher or lower levels (>three-fold) in cervical cancer samples. These proteomic results were compared to genes in a cDNA microarray analysis of microdissected neoplastic cervical specimens to identify overlapping patterns of expression. The most frequent pathways represented by the combined dataset were: cell cycle: G2/M DNA damage checkpoint regulation; aryl hydrocarbon receptor signaling; p53 signaling; cell cycle: G1/S checkpoint regulation; and the ER stress pathway. HNRPA2B1 was identified as a biomarker candidate with increased expression in cancer compared to normal cervix and validated by Western blot.

CD83 gene polymorphisms increase susceptibility to human invasive cervical cancer.

We previously mapped a nonrandom frequent loss of heterozygosity (LOH) region in cervical cancers to 1 Mb of 6p23. Here, we describe the identification of a novel cervical cancer susceptibility gene, CD83. The gene was identified by several complementary approaches, including a family-based association study, comparison of transcript expression in normal and cancerous tissue, and genomic sequencing of candidate. CD83 encodes an inducible glycoprotein in the immunoglobulin superfamily and is a marker for mature dendritic cells. The association study that includes 377 family trios showed that five single nucleotide polymorphisms (SNP) within 8 kb of its 3'-end showed significant allelic association that was strengthened in a subgroup of women with invasive cancers infected by high-risk human papillomavirus type 16 and 18 (rs9296925, P = 0.0193; rs853360, P = 0.0035; rs9230, P = 0.0011; rs9370729, P = 0.0012; rs750749, P = 0.0133). Investigation of CD83 uncovered three alternative transcripts in cervical tissue and cell lines, with variant 3 (lacking exons 3 and 4) being more frequent in cervical cancer than in normal cervical epithelium (P = 0.0181). Genomic sequencing on 36 paired normal and cervical tumors revealed several somatic mutations and novel SNPs in the promoter, exons, and introns of CD83. LOH was confirmed in >90% of cervical cancer specimens. Immunofluorescence colocalized CD83 protein to the Golgi apparatus and cell membrane of cervical cancer cell lines. None of seven nearby genes was differentially expressed in cervical cancer. The importance of CD83 in epithelial versus dendritic cells needs to be determined, as does its role in promoting cervical cancer.

Profiling microdissected epithelium and stroma to model genomic signatures for cervical carcinogenesis accommodating for covariates.

This study is the first comprehensive, integrated approach to examine grade-specific changes in gene expression along the entire neoplastic spectrum of cervical intraepithelial neoplasia (CIN) in the process of cervical carcinogenesis. This was accomplished by identifying gene expression signatures of disease progression using cDNA microarrays to analyze RNA from laser-captured microdissected epithelium and underlying stroma from normal cervix, graded CINs, cancer, and patient-matched normal cervical tissues. A separate set of samples were subsequently validated using a linear mixed model that is ideal to control for interpatient gene expression profile variation, such as age and race. These validated genes were ultimately used to propose a genomically based model of the early events in cervical neoplastic transformation. In this model, the CIN 1 transition coincides with a proproliferative/immunosuppression gene signature in the epithelium that probably represents the epithelial response to human papillomavirus infection. The CIN 2 transition coincides with a proangiogenic signature, suggesting a cooperative signaling interaction between stroma and tumor cells. Finally, the CIN 3 and squamous cell carcinoma antigen transition coincide with a proinvasive gene signature that may be a response to epithelial tumor cell overcrowding. This work strongly suggests that premalignant cells experience a series of microenvironmental stresses at the epithelium/stroma cell interface that must be overcome to progress into a transformed phenotype and identifies the order of these events in vivo and their association with specific CIN transitions.

Comparison of molecular markers of hypoxia and imaging with (60)Cu-ATSM in cancer of the uterine cervix.

PURPOSE: To determine if hypoxia-related molecular markers are associated with (60)Cu labeled diacetyl-bis (N4 -methylthiosemicarbazone); ((60)Cu-ATSM) imaging of tumor hypoxia in cervical cancer. PROCEDURES: Fifteen patients were enrolled in a prospective study and underwent evaluation of tumor hypoxia with positron emission tomography (PET) using (60)Cu-ATSM. (60)Cu-ATSM-PET imaging was compared with the expression of tissue molecular markers, which included vascular endothelial growth factor (VEGF), cyclo-oxygenase-2 (COX-2), epidermal growth factor receptor (EGFR), carbonic anyhdrase IX (CA-9), and apoptotic index. RESULTS: Six patients had hypoxic tumors determined by (60)Cu-ATSM, and nine had non-hypoxic tumors. The 4-year overall survival estimates were 75% for patients with non-hypoxic tumors and 33% for those with hypoxic tumors (p = 0.04). Overexpression of VEGF (p = 0.13), EGFR (p = 0.05), CA-9 (p = 0.02), COX-2 (p = 0.08), and the presence of apoptosis (p = 0.005) occurred in patients with hypoxic tumors. Cox proportional hazards modeling demonstrated hypoxia as determined by (60)Cu-ATSM to be a significant independent predictor of tumor recurrence (p = 0.0287). CONCLUSIONS: (60)Cu-ATSM hypoxia was correlated with overexpression of VEGF, EGFR, COX-2, CA-9, an increase in apoptosis, and a poor outcome.

MLH3 mutation in endometrial cancer.

MLH3 is a recently described member of the DNA mismatch repair gene family. Based on its interaction with the MutL homologue MLH1, it was postulated that MLH3 might play a role in tumorigenesis. Germ line and somatic mutations in MLH3 have been identified in a small fraction of colorectal cancers, but the role of MLH3 in colorectal cancer tumorigenesis remains controversial. We investigated MLH3's role in endometrial tumorigenesis through analysis of tumor and germ line DNA from 57 endometrial cancer patients who were at increased risk for having inherited cancer susceptibility. Patients with known MSH2 or MSH6 mutations were excluded as well as those who had MLH1-methylated tumors. Sixteen different variants were identified by single-strand conformational variant analysis. Of the 12 missense changes identified, three were somatic mutations. One patient had a germ line missense variant and loss of heterozygosity (LOH) in her tumor specimen. There was no evidence of MLH3 promoter methylation based on combined bisulfite restriction analysis. The identification of inherited missense variants, somatic missense mutations (present in 3 of 57 tumors), and LOH in the tumor from a patient with a germ line missense change suggest a role for MLH3 in endometrial tumorigenesis.

DNA mismatch repair and TP53 defects are early events in uterine carcinosarcoma tumorigenesis.

Growing molecular evidence shows that uterine carcinosarcomas are clonal tumors. The carcinoma component has a dominant effect in the aggressive clinical behavior of these tumors. Defective DNA mismatch repair affects up to 30% of endometrial adenocarcinomas. The frequency and importance of defective DNA mismatch repair in the histiogenesis of uterine carcinosarcomas remains controversial. We studied the pattern and frequency of defective DNA mismatch repair and TP53 alterations in the epithelial and mesenchymal components of 28 uterine carcinosarcomas. We found evidence of defective DNA mismatch repair in six cases (21%) with a concordance rate of 83% for carcinoma-sarcoma pairs (kappa=0.887, P<0.001). Lack of immunostaining for the MLH1 protein was demonstrated in both components in two of these tumors. TP53 defects were evaluated by 17p deletion analysis and p53 immunostaining. Nineteen carcinoma (68%) and 18 sarcoma (64%) components had evidence of either TP53 allelic loss or p53 overexpression. These defects proved clonal in 76% of cases (kappa=0.602, P=0.003). Our results indicate that defective DNA mismatch repair and TP53 defects are common early events in carcinosarcoma tumorigenesis. The high rate of concordance for these molecular defects between the carcinoma and sarcoma components adds to existing molecular evidence that carcinosarcomas are clonal malignancies.