Project description:We sought to determine whether dysregulation of the retinoblastoma (RB) tumor suppressor pathway was associated with improved response to neoadjuvant chemotherapy in breast cancer.An RB-loss signature was used to analyze the association between pathway status and pathologic complete response in gene expression datasets encompassing three different neoadjuvant regimens. Parallel immunohistochemical analysis of the RB pathway was conducted on pretreatment biopsies to determine the association with pathologic response to neoadjuvant chemotherapy.An RB-loss gene expression signature was associated with increased pathologic complete response in datasets from breast cancer patients treated with 5-fluorouracil/adriamycin/cytoxan (FAC; P < 0.001), T/FAC (P < 0.001), and Taxane/Adriaymcin (P < 0.001) neoadjuvant therapy encompassing approximately 1,000 patients. The association with improved response to neoadjuvant chemotherapy was true in both estrogen receptor (ER)-positive and ER-negative breast cancer. Elevated expression of p16ink4a is associated with the RB-loss signature (R = 0.493-0.5982), and correspondingly p16ink4a mRNA levels were strongly associated with pathologic complete response in the same datasets analyzed. In an independent cohort, immunohistochemical analyses of RB and p16ink4a revealed an association of RB loss (P = 0.0018) or elevated p16ink4a (P = 0.0253) with pathologic complete response. In addition, by Miller-Payne and clinicopathologic scoring analyses, RB-deficient tumors experienced an overall improved response to neoadjuvant chemotherapy.Disruption of the RB pathway as measured by several independent methods was associated with improved response to neoadjuvant chemotherapy. The RB-pathway status was relevant for pathologic response in both ER-positive and ER-negative breast cancer with similar results observed with multiple chemotherapy regimens. Combined, these data indicate that RB status is associated with the response to neoadjuvant chemotherapy in breast cancer and could be used to inform treatment.

Project description:Breast cancer is a heterogeneous disease that can be subdivided into clinical, histopathological and molecular subtypes (luminal A-like, luminal B-like/HER2-negative, luminal B-like/HER2-positive, HER2-positive, and triple-negative). The study of new molecular factors is essential to obtain further insights into the mechanisms involved in the tumorigenesis of each tumor subtype. RASSF2 is a gene that is hypermethylated in breast cancer and whose clinical value has not been previously studied. The hypermethylation of RASSF1 and RASSF2 genes was analyzed in 198 breast tumors of different subtypes. The effect of the demethylating agent 5-aza-2'-deoxycytidine in the re-expression of these genes was examined in triple-negative (BT-549), HER2 (SK-BR-3), and luminal cells (T-47D). Different patterns of RASSF2 expression for distinct tumor subtypes were detected by immunohistochemistry. RASSF2 hypermethylation was much more frequent in luminal subtypes than in non-luminal tumors (p = 0.001). The re-expression of this gene by lentiviral transduction contributed to the differential cell proliferation and response to antineoplastic drugs observed in luminal compared with triple-negative cell lines. RASSF2 hypermethylation is associated with better prognosis in multivariate statistical analysis (P = 0.039). In conclusion, RASSF2 gene is differently methylated in luminal and non-luminal tumors and is a promising suppressor gene with clinical involvement in breast cancer.

Project description:To advance in our understanding of the biological pathways involved in breast cancer tumor progression we have analyzed a set of breast tumor biopsies in order to identify the genomic pathways in which tumor may develop. With this objective, a cDNA microarray platform containing 800 genes was constructed. These genes were chosen because they are in several representatives signaling pathways, namely estrogen and progesterone receptor related pathways, cell cycle, DNA repair, chromatin remodeling, cell proliferation, apoptosis, cell adhesion, cell invasion and angiogenesis. An analysis of the gene expression profile of a large group of breast tumors was carried out and good correlation with their clinical-histopathological data was obtained. We identified different tumor subclusters with distinctive phenotype characteristics within our population, which later correlated with clinical outcome. The most significant genes able to discriminate between different tumor phenotypes of our training set of samples were determined applying a “Leave-one-out” cross-validation method of statistical analysis called PAM (Prediction analysis of microarrays). The predictor was further tested on a new incoming set of samples where we determined to which subtype of tumor new samples were allocated and predicted outcome was compared to clinical data, showing how some distinct tumor phenotypes correlate with a poor prognosis. Pathway analysis of the most significant genes belonging to each phenotype was performed to elucidate the most representative biological signaling pathways through which tumor progression might elapse. We constructed a real time expression profiling platform with a selection of the most differentially expressed genes in each subtype, which could be used as a technique to help improve the diagnosis and prognosis of the breast tumor samples of our sample population.

Project description:BACKGROUND:Immunotherapy has recently been proposed as a promising treatment to stop breast cancer (BrCa) progression and metastasis. However, there has been limited success in the treatment of BrCa with immune checkpoint inhibitors. This implies that BrCa tumors have other mechanisms to escape immune surveillance. While the kynurenine pathway (KP) is known to be a key player mediating tumor immune evasion and while there are several studies on the roles of the KP in cancer, little is known about KP involvement in BrCa. METHODS:To understand how KP is regulated in BrCa, we examined the KP profile in BrCa cell lines and clinical samples (n?=?1997) that represent major subtypes of BrCa (luminal, HER2-enriched, and triple-negative (TN)). We carried out qPCR, western blot/immunohistochemistry, and ultra-high pressure liquid chromatography on these samples to quantify the KP enzyme gene, protein, and activity, respectively. RESULTS:We revealed that the KP is highly dysregulated in the HER2-enriched and TN BrCa subtype. Gene, protein expression, and KP metabolomic profiling have shown that the downstream KP enzymes KMO and KYNU are highly upregulated in the HER2-enriched and TN BrCa subtypes, leading to increased production of the potent immunosuppressive metabolites anthranilic acid (AA) and 3-hydroxylanthranilic acid (3HAA). CONCLUSIONS:Our findings suggest that KMO and KYNU inhibitors may represent new promising therapeutic targets for BrCa. We also showed that KP metabolite profiling can be used as an accurate biomarker for BrCa subtyping, as we successfully discriminated TN BrCa from other BrCa subtypes.

Project description:A series of recent studies have demonstrated that the retinoblastoma tumor suppressor (RB) pathway plays a critical role in multiple clinically relevant aspects of breast cancer biology, spanning early stage lesions to targeted treatment of metastatic disease. In ductal carcinoma in situ, multiple groups have shown that dysregulation of the RB pathway is critically associated with recurrence and disease progression. Functional models have similarly illustrated key roles for RB in regulating epithelial-mesenchymal transition and other features contributing to aggressive disease. Invasive breast cancers are treated in distinct fashions, and heterogeneity within the RB pathway relates to prognosis and response to commonly used therapeutics. Luminal B breast cancers that have a poor prognosis amongst estrogen receptor-positive disease are defined based on the expression of RB-regulated genes. Such findings have led to clinical interventions that directly target the RB pathway through CDK4/6 inhibition which have promise in both estrogen receptor-positive and Her2-positive disease. In contrast, RB loss results in improved response to chemotherapy in triple-negative breast cancer, where ongoing research is attempting to define intrinsic vulnerabilities for targeted intervention. These findings support a wide-reaching impact of the RB pathway on disease that could be harnessed for improved clinical interventions.

Project description:This SuperSeries is composed of the SubSeries listed below. Refer to individual Series

Project description:This study identified DNA methylation patterns that were associated with tumor subtypes, disease outcome, and distinct metabolome and gene expression patterns. This study performed a large scale DNA methylation (Illumina HumanMethylation450 BeadChip [HumanMethylation450 15017482 v.1.1], N=73), gene expression (Affymetrix Human Gene 1.0 ST Array [HuGene-1_0-st], N=108), and metabolome (Metabolon, Inc. Durham, NC) analysis of fresh-frozen human breast tumors from African-American and European-American patients from the greater Baltimore area, Maryland (US), with survival follow-up.

Project description:Loss of cell cycle controls is a hallmark of cancer and has a well-established role in aggressive B cell malignancies. However, the role of such lesions in indolent follicular lymphoma (FL) is unclear and individual lesions have been observed with low frequency. By analyzing genomic data from two large cohorts of indolent FLs, we identify a pattern of mutually exclusive (P = 0.003) genomic lesions that impair the retinoblastoma (RB) pathway in nearly 50% of FLs. These alterations include homozygous and heterozygous deletions of the p16/CDKN2a/b (7%) and RB1 (12%) loci, and more frequent gains of chromosome 12 that include CDK4 (29%). These aberrations are associated with high-risk disease by the FL prognostic index (FLIPI), and studies in a murine FL model confirm their pathogenic role in indolent FL. Increased CDK4 kinase activity toward RB1 is readily measured in tumor samples and indicates an opportunity for CDK4 inhibition. We find that dual CDK4 and BCL2 inhibitor treatment is safe and effective against available models of FL. In summary, frequent RB pathway lesions in indolent, high-risk FLs indicate an untapped therapeutic opportunity.

Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:This study identified DNA methylation patterns that were associated with tumor subtypes, disease outcome, and distinct metabolome and gene expression patterns. This study performed a large scale DNA methylation (Illumina HumanMethylation450 BeadChip [HumanMethylation450 15017482 v.1.1], N=73), gene expression (Affymetrix Human Gene 1.0 ST Array [HuGene-1_0-st], N=108), and metabolome (Metabolon, Inc. Durham, NC) analysis of fresh-frozen human breast tumors from African-American and European-American patients from the greater Baltimore area, Maryland (US), with survival follow-up.