Elena Ratner

Landscape of somatic single-nucleotide and copy-number mutations in uterine serous carcinoma

Uterine serous carcinoma (USC) is a biologically aggressive subtype of endometrial cancer. We analyzed the mutational landscape of USC by whole-exome sequencing of 57 cancers, most of which were matched to normal DNA from the same patients. The distribution of the number of protein-altering somatic mutations revealed that 52 USC tumors had fewer than 100 (median 36), whereas 5 had more than 3,000 somatic mutations. The mutations in these latter tumors showed hallmarks of defects in DNA mismatch repair. Among the remainder, we found a significantly increased burden of mutation in 14 genes. In addition to well-known cancer genes (i.e., TP53, PIK3CA, PPP2R1A, KRAS, FBXW7), there were frequent mutations in CHD4/Mi2b, a member of the NuRD–chromatin-remodeling complex, and TAF1, an element of the core TFIID transcriptional machinery. Additionally, somatic copy-number variation was found to play an important role in USC, with 13 copy-number gains and 12 copy-number losses that occurred more often than expected by chance. In addition to loss of TP53, we found frequent deletion of a small segment of chromosome 19 containing MBD3, also a member of the NuRD–chromatin-modification complex, and frequent amplification of chromosome segments containing PIK3CA, ERBB2 (an upstream activator of PIK3CA), and CCNE1 (a target of FBXW7-mediated ubiquitination). These findings identify frequent mutation of DNA damage, chromatin remodeling, cell cycle, and cell proliferation pathways in USC and suggest potential targets for treatment of this lethal variant of endometrial cancer.

A KRAS-Variant in Ovarian Cancer Acts as a Genetic Marker of Cancer Risk

Ovarian cancer (OC) is the single most deadly form of womens cancer, typically presenting as an advanced disease at diagnosis in part due to a lack of known risk factors or genetic markers of risk. The KRAS oncogene and altered levels of the microRNA (miRNA) let-7 are associated with an increased risk of developing solid tumors. In this study, we investigated a hypothesized association between an increased risk of OC and a variant allele of KRAS at rs61764370, referred to as the KRAS-variant, which disrupts a let-7 miRNA binding site in this oncogene. Specimens obtained were tested for the presence of the KRAS-variant from nonselected OC patients in three independent cohorts, two independent ovarian case-control studies, and OC patients with hereditary breast and ovarian cancer syndrome (HBOC) as well as their family members. Our results indicate that the KRAS-variant is associated with more than 25% of nonselected OC cases. Further, we found that it is a marker for a significant increased risk of developing OC, as confirmed by two independent case-control analyses. Lastly, we determined that the KRAS-variant was present in 61% of HBOC patients without BRCA1 or BRCA2 mutations, previously considered uninformative, as well as in their family members with cancer. Our findings strongly support the hypothesis that the KRAS-variant is a genetic marker for increased risk of developing OC, and they suggest that the KRAS-variant may be a new genetic marker of cancer risk for HBOC families without other known genetic abnormalities.

MicroRNA signatures differentiate melanoma subtypes

Melanoma is an aggressive cancer that is highly resistance to therapies once metastasized. We studied microRNA (miRNA) expression in clinical melanoma subtypes and evaluated different miRNA signatures in the background of gain of function somatic and inherited mutations associated with melanoma. Total RNA from 42 patient derived primary melanoma cell lines and three independent normal primary melanocyte cell cultures was evaluated by miRNA array. MiRNA expression was then analyzed comparing subtypes and additional clinicopathologic criteria including somatic mutations. The prevalence and association of an inherited variant in a miRNA binding site in the 3’UTR of the KRAS oncogene, referred to as the KRAS-variant, was also evaluated. We show that seven miRNAs, miR-142-3p, miR-486, miR-214, miR-218, miR-362, miR-650 and miR-31, were significantly correlated with acral as compared to non-acral melanomas (p < 0.04). In addition, we discovered that the KRAS-variant was enriched in non-acral melanoma (25%), and that miR-137 under expression was significantly associated with melanomas with the KRAS-variant. Our findings indicate that miRNAs are differentially expressed in melanoma subtypes and that their misregulation can be impacted by inherited gene variants, supporting the hypothesis that miRNA misregulation reflects biological differences in melanoma.

MicroRNA Signatures Differentiate Uterine Cancer Tumor Subtypes

OBJECTIVE Endometrial cancer (EC) is the most common gynecologic malignancy. Type I EC has a favorable prognosis, while type II ECs account for half of all treatment failures. Little knowledge of the biological differences is available to predict EC outcomes besides their pathological distinctions. MicroRNAs (miRNA) are a family of non-translated RNAs important in regulating oncogenic pathways. Mis-expression patterns of miRNAs in EC, as well as differences in miRNA expression patterns between the subtypes of EC, has not been previously evaluated. Our purpose was to identify miRNA profiles of EC subtypes, and to identify miRNAs associated with these subtypes to ultimately understand the different biological behavior between these subtypes. METHODS Ninety-five fresh/frozen and paraffin-embedded samples of endometrial type I and II cancer, carcinosarcomas and benign endometrial samples were collected. MiRNA expression profiles were evaluated by microarray analysis. Statistical analysis was performed. RESULTS Distinct miRNA signatures in tumor versus normal samples and in endometrioid vs. uterine papillary serous carcinomas exist. Additionally, carcinosarcomas have a unique miRNA signature from either the type I or II epithelial tumors. CONCLUSIONS We hypothesize that further understanding the miRNAs that separate these subtypes of EC will lead to biological insights into the different behavior of these tumors.

A KRAS variant is a biomarker of poor outcome, platinum chemotherapy resistance and a potential target for therapy in ovarian cancer

Germline variants in the 3′ untranslated region (3′UTR) of cancer genes disrupting microRNA (miRNA) regulation have recently been associated with cancer risk. A variant in the 3′UTR of the KRAS oncogene, referred to as the KRAS variant, is associated with both cancer risk and altered tumor biology. Here, we test the hypothesis that the KRAS variant can act as a biomarker of outcome in epithelial ovarian cancer (EOC), and investigate the cause of altered outcome in KRAS variant-positive EOC patients. As this variant seems to be associated with tumor biology, we additionally test the hypothesis that this variant can be directly targeted to impact cell survival. EOC patients with complete clinical data were genotyped for the KRAS variant and analyzed for outcome (n=536), response to neoadjuvant chemotherapy (n=125) and platinum resistance (n=306). Outcome was separately analyzed for women with known BRCA mutations (n=79). Gene expression was analyzed on a subset of tumors with available tissue. Cell lines were used to confirm altered sensitivity to chemotherapy associated with the KRAS variant. Finally, the KRAS variant was directly targeted through small-interfering RNA/miRNA oligonucleotides in cell lines and survival was measured. Postmenopausal EOC patients with the KRAS variant were significantly more likely to die of ovarian cancer by multivariate analysis (hazard ratio=1.67, 95% confidence interval: 1.09–2.57, P=0.019, n=279). Perhaps explaining this finding, EOC patients with the KRAS variant were significantly more likely to be platinum resistant (odds ratio=3.18, confidence interval: 1.31–7.72, P=0.0106, n=291). In addition, direct targeting of the KRAS variant led to a significant reduction in EOC cell growth and survival in vitro. These findings confirm the importance of the KRAS variant in EOC, and indicate that the KRAS variant is a biomarker of poor outcome in EOC likely due to platinum resistance. In addition, this study supports the hypothesis that these tumors have continued dependence on such 3′UTR lesions, and that direct targeting may be a viable future treatment approach.

Comparison between 155 cases of robotic vs. 150 cases of open surgical staging for endometrial cancer

OBJECTIVE To compare the outcomes of 155 cases of endometrial cancer who had robot-assisted surgical staging to 150 open cases. METHODS Retrospective chart review of cases of endometrial cancer that underwent staging two different ways by two surgeons at an academic institution. RESULTS Mean age was 62.4 years in the robotic arm and 65 (P=0.04) in the open arm. Mean body mass index was 34.5 Kg/m(2) in the robotic arm and 33 Kg/m(2) in the open arm (P=0.2). Pelvic and para-aortic lymph node dissection were performed in 94.8% and 67.7% of the robotic cases versus 95.3% and 74% of the open cases, respectively. Mean operative time was 127 min in the robotic arm, and 141 min in the open arm (P=0.0001). Mean lymph node count was 20.3 in the robotic arm, and 20 in the open arm (P=0.567). Mean estimated blood loss was 119 ml in the robotic arm and 185 in the open arm (P=0.015). Mean hospital stay was 1.5 days in the robotic arm, and 4 days in the open arm (P=0.0001). The incidence of postoperative ileus (0.6% vs. 10.7%, P=0.0001), infections (5.2% vs. 24%, P=0.0001), anemia/transfusion (1.3% vs. 7.7%, P=0.005), and cardiopulmonary complications (3.2% vs.14.7%, P=0.003) was significantly lower in the robotic arm vs. the open arm. There was one death in the robotic arm attributed to pre-existing cardiac condition. CONCLUSION Robotic-assisted staging reaps the benefits of minimally invasive surgery without compromising the adequacy of the procedure. Dedication to the technique shortens the operative time.

Proteomic but Not Enzyme-Linked Immunosorbent Assay Technology Detects Amniotic Fluid Monomeric Calgranulins from Their Complexed Calprotectin Form

ABSTRACT Four proteomic biomarkers (human neutrophil peptide 1 [HNP1], HNP2 [defensins], calgranulin C [Cal-C], and Cal-A) characterize the fingerprint of intra-amniotic inflammation (IAI). We compared proteomic technology using surfaced-enhanced laser desorption-ionization-time of flight (SELDI-TOF) mass spectrometry to enzyme-linked immunosorbent assay (ELISA) for detection of these biomarkers. Amniocentesis was performed on 48 women enrolled in two groups: those with intact membranes (n = 27; gestational age [GA], 26.0 ± 0.8 weeks) and those with preterm premature rupture of the membranes (PPROM; n = 21; GA, 28.4 ± 0.9 weeks). Paired abdominal amniotic fluids (aAFs)-vaginal AFs (vAFs) were analyzed in PPROM women. Quantitative aspects of HNP1-3, Cal-C, Cal-A, and calprotectin (a complex of Cal-A with Cal-B) were assessed by ELISA. SELDI-TOF mass spectrometry tracings from 16/48 (33.3%) aAFs and 13/17 (88.2%) vAFs were consistent with IAI (three or four biomarkers present). IAI (by SELDI-TOF mass spectrometry) was associated with increased HNP1-3 and Cal-C measured by ELISA. However, immunoassays detected Cal-A in only 4 of the AFs even though its specific SELDI-TOF mass spectrometry peak was identified in 19/48 AFs. Calprotectin immunoreactivity was decreased in AFs retrieved from women with IAI (P = 0.01). In conclusion, IAI is associated with increased HNP1-3 levels. In the absence of isoform-specific ELISAs, mass spectrometry remains the only way to discriminate the HNP biomarker isoforms. Monomeric Cal-A is not reliably estimated by specific ELISA as it binds to Cal-B to form the calprotectin complex. Cal-C was reliably measured by SELDI-TOF mass spectrometry or specific ELISA.

Poly (ADP-ribose) polymerase inhibitors: on the horizon of tailored and personalized therapies for epithelial ovarian cancer.

Purpose of review Management of the epithelial ovarian cancer (EOC) remains a therapeutic challenge, with continued poor overall survival (OS). Given low chemotherapy response rates for recurrent disease and short survival times, new treatment options with improved therapeutic indices for targeting cancers vulnerability are urgently needed in this patient population. Recent findings In this review, we summarize the recent development and clinical evaluations of inhibitors of poly (ADP-ribose) polymerase (PARP) as novel targeting agents for EOC. PARP inhibitors exploit synthetic lethality to target DNA repair defects in hereditary breast and ovarian cancer. In recent clinical trials, EOC patients with BRCA mutations exhibited favorable responses to the PARP inhibitor olaparib compared with patients without BRCA mutations. Additionally, olaparib has been reported to augment the effects of cisplatin and carboplatin on recurrence-free survival and OS in mice bearing BRCA1/2-deficient tumors. Given that hereditary EOC with deleterious BRCA1/2 mutations and BRCAness sporadic EOC are profoundly susceptible to synthetic lethality with PARP inhibition, it is imperative to identify a population of EOC patients that is likely to respond to PARP inhibitors. Recent studies have identified the gene expression profiles of DNA repair defects and BRCAness that predict clinical outcomes and response to platinum-based chemotherapy in EOC patients. Summary Ovarian cancer continues to carry the highest mortality among gynecologic cancers in the western world. Clinical development of PARP inhibitors that target DNA repair defects in cancer is a novel and imperative stride in individualized identification of molecular characteristics in management of ovarian cancer.

Mutational landscape of uterine and ovarian carcinosarcomas implicates histone genes in epithelial–mesenchymal transition

Significance Some cancers, termed carcinosarcomas (CSs), have mixed cell types, with either epithelial or mesenchymal features. Sequencing the genomes of uterine and ovarian CSs demonstrated that these different cell types derive from a common precursor cell that has many mutations typical of epithelial cancers. In addition, we find that these tumors have a significant burden of point mutations and amplification of histone genes, suggesting a potential role of these mutations in sarcomatous transformation. Consistent with this finding, expression of specific histone gene mutations in uterine carcinoma cells changed gene expression toward a mesenchymal state. These findings have potential implications for the treatment of these cancers. Carcinosarcomas (CSs) of the uterus and ovary are highly aggressive neoplasms containing both carcinomatous and sarcomatous elements. We analyzed the mutational landscape of 68 uterine and ovarian CSs by whole-exome sequencing. We also performed multiregion whole-exome sequencing comprising two carcinoma and sarcoma samples from six tumors to resolve their evolutionary histories. The results demonstrated that carcinomatous and sarcomatous elements derive from a common precursor having mutations typical of carcinomas. In addition to mutations in cancer genes previously identified in uterine and ovarian carcinomas such as TP53, PIK3CA, PPP2R1A, KRAS, PTEN, CHD4, and BCOR, we found an excess of mutations in genes encoding histone H2A and H2B, as well as significant amplification of the segment of chromosome 6p harboring the histone gene cluster containing these genes. We also found frequent deletions of the genes TP53 and MBD3 (a member with CHD4 of the nucleosome remodeling deacetylase complex) and frequent amplification of chromosome segments containing the genes PIK3CA, TERT, and MYC. Stable transgenic expression of H2A and H2B in a uterine serous carcinoma cell line demonstrated that mutant, but not wild-type, histones increased expression of markers of epithelial–mesenchymal transition (EMT) as well as tumor migratory and invasive properties, suggesting a role in sarcomatous transformation. Comparison of the phylogenetic relationships of carcinomatous and sarcomatous elements of the same tumors demonstrated separate lineages leading to these two components. These findings define the genetic landscape of CSs and suggest therapeutic targets for these highly aggressive neoplasms.

Polymerase ε (POLE) ultra-mutated tumors induce robust tumor-specific CD4 + T cell responses in endometrial cancer patients

OBJECTIVE Around 7-10% of endometrial carcinomas are characterized by polymerase-ε-(POLE) exonuclease-domain-mutations, an ultra-mutated-phenotype and a favorable prognosis. It is currently unknown whether POLE ultra-mutated-tumors are more immunogenic when compared to the other groups of endometrial cancers. METHODS We used autologous-dendritic-cells (DC) pulsed with whole-tumor-extracts to assess the level of CD8+ and CD4+ T-cell-activation induced by POLE-ultramutated (+) and POLE wild-type (-) endometrial cancer cells in vitro. T-lymphocyte-proliferations were evaluated using CFSE and/or ([3H])thymidine-incorporation-assays while the ability to specifically kill autologous-tumor-cells by cytotoxic-T-lymphocyte (CTL) was tested in standard 4-h-(51)Cr-cytotoxicity-assays. In order to correlate cytotoxic activity and proliferation by CD4+ and CD8+ T-lymphocytes, respectively, with a particular lymphoid subset, two-color-flow-cytometric analysis of intracellular-cytokine-expression (IFN-γ vs IL-4) at the single cell level was also performed. RESULTS DC-pulsed with tumor extracts were able to induce CTL-responses against autologous-tumor-cells in both POLE (+) and POLE (-) cancer patients (P=0.305). These CD8+ T-cell-populations were cytotoxic against tumor-cells but they did not lyse PHA-stimulated-autologous-lymphocytes or autologous-EBV-transformed-lymphoblastoid-control-cell-lines. In contrast, only POLE (+) tumor-lysate-pulsed-DC were able to induce significant proliferation and high IFN-γ expression (i.e., Th1-cytokine-bias) in autologous in vitro DC-stimulated CD4+ T-cells as well as naïve CD4+ and CD8+ T-cells from patients-peripheral-blood (P<0.05). CONCLUSIONS POLE ultra-mutated-tumors are significantly more immunogenic when compared to POLE (-) tumors, in particular to the helper arm of the immune system. These data lend support to the hypothesis that the better prognosis of patients with POLE (+) tumors may at least in part be linked to their enhanced immunogenicity.