Project description:Paired RNA-Seq of 32 samples of chemo-naïve and post-chemotherapy PDAC tumors (HIPO_015) to define the molecular and cellular impact of neoadjuvant chemotherapy. Transcriptome analysis combined with high resolution mapping of whole tissue sections identified GATA6 (Classical), KRT17 (Basal-like) and Cytochrome P450 3A (CYP3A) co-expressing cells that were preferentially enriched in post-CTX resected samples. The sequencing was done on HiSeq2000/HiSeq2500 using the Takara_SMARTer_Ultra_Low_Input_RNA_and_NEBNext_ChIP-Seq Kit.

Project description:130 runs/ 65 samples of paired RNA-Seq data of chemo-naïve and post-chemotherapy pancreatic ductal adenocarcinoma (PDAC). The sequencing was done on Novaseq 6000 with Illumina TruSeq stranded mRNA Kit.

Project description:The high rate of recurrence and chemoresistance necessitates in ovarian cancer warrants further research into tumor markers characterizing the resistant population. The proportion of drug-resistant tissue cells in residual lesions after neoadjuvant chemotherapy increases, and drug-resistant markers are enriched. However, there is a lack of comprehensive understanding of tumor marker predoninance pre- and post- neoadjuvant chemotherapy. Here we performed quantitative proteomic analysis of TMT in three patients with matched pretreatment biopsies and post-NACT ovarian cancer tissues. This study highlights a dominant molecular subpopulation that persists in the ovary after neoadjuvant chemotherapy exposure in order to elucidate how it is involved in mediating chemotherapy response, which will lay the foundation for the development.

Project description:To characterize the spatial tumor microenvironment (TME) of high-grade serous ovarian cancer (HGSC) at the single cell level, we performed single-cell RNA sequencing (scRNA-seq) on 48 tumor or ascites samples from 29 HGSC patients. This data set includes paired scRNA-seq data from chemo-naive and post-neoadjuvant chemotherapy (IDS) samples of 22 HGSC patients.

Project description:Our data suggest that neoadjuvant chemotherapy enhances anti-cancer responses of T cells in peritoneal metastases of patients with high-grade serous ovarian cancer but does not decrease levels of immune checkpoint molecules, providing a rationale for sequential chemo-immunotherapy. tRNA was isolated from 35 omental tissue samples of HGSOC metastases either pre or post NACT treatment. RNASeq was performed on poly-A selected mRNA fragments, 100 b.p paired end, and strand specific, on average 40 million reads per sample.

Project description:Resistance to neoadjuvant chemotherapy is associated tumor recurrence of locally advanced rectal cancer (LARC), which remains an unmet demand to exploit potential therapeutic strategies to improve clinical outcomes. Here we demonstrated that aberrant activation of cell cycle pathways is correlated with resistance to neoadjuvant chemotherapy in LARC. A combinatorial drug screening of 130 kinase inhibitors targeting cell cycle regulators with oxaliplatin identified that CDK4/6 inhibitors synergistically enhanced anti-tumor effects of oxaliplatin both intrinsic and acquired chemo-resistant colon cancer cells. Functional studies in both in vitro and in vivo models showed that CDK4/6 inhibitors significantly increased sensitivity to oxaliplatin. Integrative transcriptomic and chromatin profiling analysis revealed that CDK4/6 inhibitors induced DNA repair defects to enhance sensitivity of oxaliplatin through epigenetically suppression of DNA repair related genes. Mechanistically, CDK4/6 inhibition impairs DNA damage repair through a previously unrecognized RB1/TEAD4/HDAC1 co-repressor complex which contributes to the resistance to neoadjuvant chemotherapy in LARC. Together, our work revealed an important role of CDK4/6 pathway in LARC patients with neoadjuvant chemotherapy, suggesting that targeting CDK4/6 could provide a potentially effective treatment strategy for LARC.

Project description:Resistance to neoadjuvant chemotherapy is associated tumor recurrence of locally advanced rectal cancer (LARC), which remains an unmet demand to exploit potential therapeutic strategies to improve clinical outcomes. Here we demonstrated that aberrant activation of cell cycle pathways is correlated with resistance to neoadjuvant chemotherapy in LARC. A combinatorial drug screening of 130 kinase inhibitors targeting cell cycle regulators with oxaliplatin identified that CDK4/6 inhibitors synergistically enhanced anti-tumor effects of oxaliplatin both intrinsic and acquired chemo-resistant colon cancer cells. Functional studies in both in vitro and in vivo models showed that CDK4/6 inhibitors significantly increased sensitivity to oxaliplatin. Integrative transcriptomic and chromatin profiling analysis revealed that CDK4/6 inhibitors induced DNA repair defects to enhance sensitivity of oxaliplatin through epigenetically suppression of DNA repair related genes. Mechanistically, CDK4/6 inhibition impairs DNA damage repair through a previously unrecognized RB1/TEAD4/HDAC1 co-repressor complex which contributes to the resistance to neoadjuvant chemotherapy in LARC. Together, our work revealed an important role of CDK4/6 pathway in LARC patients with neoadjuvant chemotherapy, suggesting that targeting CDK4/6 could provide a potentially effective treatment strategy for LARC.

Project description:PURPOSE: To develop a predictive test for response and survival following neoadjuvant taxane-anthracycline chemotherapy for HER2-negative invasive breast cancer. METHODS: We developed a microarray-based gene expression test from pre-treatment tumor biopsies (310 patients) to predict favorable outcome based on estrogen receptor (ER) status,pathologic response to chemotherapy, 3-year disease outcomes, and sensitivity to endocrine therapy. Tumors were classified as treatment-sensitive if predicted to have pathologic response (and not resistance) to chemotherapy, or sensitive to endocrine therapy. We tested predictive accuracy, with 95% confidence interval (CI), for pathologic response (PPV, positive predictive value), distant relapse-free survival (DRFS), and absolute risk reduction at median follow-up in 198 other patients. Independence from clinical-pathologic factors was assessed in a multivariate Cox regression analysis based on the likelihood ratio test. Other evaluable, published response predictors (genomic grade index (GGI), intrinsic subtype (PAM50), pCR predictor (DLDA30)) were compared. Neoadjuvant validation cohort of 198 HER2-negative breast cancer cases treated with taxane-anthracycline chemotherapy pre-operatively and endocrine therapy if ER-positive. Response was assessed at the end of neoadjuvant treatment and distant-relapse-free survival was followed for at least 3 years post-surgery.

Project description:PURPOSE: To develop a predictive test for response and survival following neoadjuvant taxane-anthracycline chemotherapy for HER2-negative invasive breast cancer. METHODS: We developed a microarray-based gene expression test from pre-treatment tumor biopsies (310 patients) to predict favorable outcome based on estrogen receptor (ER) status,pathologic response to chemotherapy, 3-year disease outcomes, and sensitivity to endocrine therapy. Tumors were classified as treatment-sensitive if predicted to have pathologic response (and not resistance) to chemotherapy, or sensitive to endocrine therapy. We tested predictive accuracy, with 95% confidence interval (CI), for pathologic response (PPV, positive predictive value), distant relapse-free survival (DRFS), and absolute risk reduction at median follow-up in 198 other patients. Independence from clinical-pathologic factors was assessed in a multivariate Cox regression analysis based on the likelihood ratio test. Other evaluable, published response predictors (genomic grade index (GGI), intrinsic subtype (PAM50), pCR predictor (DLDA30)) were compared. Neoadjuvant study of 310 HER2-negative breast cancer cases treated with taxane-anthracycline chemotherapy pre-operatively and endocrine therapy if ER-positive. Response was assessed at the end of neoadjuvant treatment and distant-relapse-free survival was followed for at least 3 years post-surgery.

Project description:This SuperSeries is composed of the following subset Series: GSE25055: Discovery cohort for genomic predictor of response and survival following neoadjuvant taxane-anthracycline chemotherapy in breast cancer GSE25065: Validation cohort for genomic predictor of response and survival following neoadjuvant taxane-anthracycline chemotherapy in breast cancer Refer to individual Series