Project description:Colorectal carcinoma is currently treated with a combination of chemotherapeutic drugs supplemented with targeted drugs. Since there is an eminent need to improved therapeutic success we employed the phenotypically-driven therapeutically guided multidrug optimization (TGMO) technology to identify personalized optimal drug combinations (ODCs). Using this technology we obtained low dose synergistic and selective ODCs for a panel of human colorectal carcinoma cells that remained active in 3-dimensional heterotypic co-culture models. From RNA sequencing and phosphoproteomics analysis we noticed considerable overlap in the top 20 most active kinases in all cell lines and that the mechanism converges around MAP kinase signaling and cell cycle inhibition despite differential cell mutation status, transcript expression levels and protein kinase activity. RNA sequencing revealed differentially expressed genes that confirmed these observations. These combinations were subsequently translated to in vivo models. Interestingly, the optimized drug mixtures reduced tumor volume with 80% and significantly outperformed the standard chemotherapy (FOLFOX) in these models, while preventing toxicity, observed after FOLFOX treatment. Pharmacokinetics studies demonstrated that the combinations supported significantly enhanced drug bioavailability.

Project description:To measure global gene expression in primary metastatic colorectal cancer patients who have undergone fluorouracil, leucovorin and oxaliplatin (FOLFOX) chemotherapy and screen valuable biomarkers to predict the effects of chemotherapy. Samples from primary metastatic colorectal cancer patients were collected. The effects of chemotherapy were evaluated.

Project description:we aim to compare the difference of chemotherapy responses between FOLFOX-resistant and wild type colorectal cancer cells for suggesting novel treatment targets.

Project description:Response rates of 118 colorectal cancer patients to regiments were evaluated by histoculture drug response assay. Affymetrix SNP 6.0 chips were used to determine genotypes of the same colorectal cancer patients. SNPs associated with chemosensitivity to treatment regiments were identified by genome-wide association study. AV: avastin (Bevacizumab), ER: Erbitux (Cetuximab), FXA: bevacizumab + FOLFOX, FXE: Cetuximab + FOLFOX , FRA: Bevacizumab + FOLFIRI, FRE: Cetuximab + FOLFIRI; Numbers (0-100) represent responsiveness to the given drug regimens; the larger, the better responsive to given regimens

Project description:Colorectal Cancer (CRC) is one of most common cancers in the world and a main treatment in postoperative chemotherapy is oxaliplatin and fluorouracil (FOLFOX), But the effect is different among CRC patients. In this study, LC-MS/MS strategy was used to profile the plasma proteome in FOLFOX benefit and futile group. As a result, a panel of plasma proteins by machine learning from our data was verified for a possible prediction tool in postdiagnosis.

Project description:Purpose: The DNA Damage Immune Response (DDIR) assay was developed in breast cancer (BC) based on biology associated with deficiencies in homologous recombination and Fanconi Anemia (HR/FA) pathways. A positive DDIR call identifies patients likely to respond to platinum-based chemotherapies in breast and oesophageal cancers. In colorectal cancer (CRC) there is currently no biomarker to predict response to oxaliplatin. We tested the ability of the DDIR assay to predict response to oxaliplatin-based chemotherapy in CRC and characterised the biology in DDIR-positive CRC. Methods: Samples and clinical data were assessed according to DDIR status from patients who received either 5FU or FOLFOX within the FOCUS trial (n=361, stage 4), or neo-adjuvant FOLFOX in the FOxTROT trial (n=97, stage 2/3). Whole transcriptome, mutation and immunohistochemistry data of these samples were used to interrogate the biology of DDIR in CRC. Results: Contrary to our hypothesis, DDIR negative patients displayed a trend towards improved outcome for oxaliplatin-based chemotherapy compared to DDIR positive patients. DDIR positivity was associated with Microsatellite Instability (MSI) and Colorectal Molecular Subtype 1 (CMS1). Refinement of the DDIR signature, based on overlapping interferon-related chemokine signalling associated with DDIR positivity across CRC and BC cohorts, further confirmed that the DDIR assay did not have predictive value for oxaliplatin-based chemotherapy in CRC. Conclusions: DDIR positivity does not predict improved response following oxaliplatin treatment in CRC. However, data presented here suggests the potential of the DDIR assay in identifying immune-rich tumours that may benefit from immune checkpoint blockade, beyond current use of MSI status.

Project description:The combination of FOLFOX and bevacizumab (FOLFOX-Bev) is a promising treatment for advanced colorectal cancer (CRC). To gain insights into the cellular changes associated with FOLFOX-Bev treatment, we conducted single-cell transcriptomic analysis of CRC samples derived from a patient before and after treatment. Our results show that cancer cells with high proliferative, metastatic, and pro-angiogenic properties respond better to FOLFOX-Bev treatment. Moreover, FOLFOX-Bev enhances CD8+ T cell cytotoxicity, thereby boosting the anti-tumor immune response. Conversely, FOLFOX-Bev impairs the functionality of tumor-associated macrophages, plasma cells, and cancer-associated fibroblasts, leading to a decrease in VEGFB-mediated angiogenesis. Furthermore, FOLFOX-Bev treatment reset intercellular communication, which could potentially affect the function of non-cancer cells. Our findings provide valuable insights into the molecular mechanisms underlying the response of advanced CRC to FOLFOX-Bev treatment and highlight potential targets for improving the efficacy of this treatment strategy.

Project description:Study: Oxaliplatin-based chemotherapy for colorectal liver metastasis is associated with sinusoidal injury of liver parenchyma and may result in increased morbidity after liver surgery. Preclinical and human liver parenchyma studies have proposed several pathways of oxaliplatin-induced injury, but the effects on protein level remains unknown. Protein expression in liver tissue from eight patients treated with FOLFOX and seven controls without treatment was analyzed by label-free liquid chromatography mass spectrometry. Conclusion: Six weeks after FOLFOX treatment less than 1% of identified proteins showed changes in expression. The changes were associated with DNA replication, cell cycle entry and innate immune response. We hypothesize that the changes are residual after recovery from FOLFOX treatment injury.

Project description:This study aimed to identify potential miRNA-based biomarkers that can predict FOLFOX-CIPN symptoms. High throughput microRNA sequencing was performed on the RNA circulating in the plasma of eight patients with CRC who underwent FOLFOX chemotherapy. miRNA expression profiles were evaluated according to two groups: those who underwent ≤three cycles and those who underwent ≥six cycles of FOLFOX chemotherapy.

Project description:Relapse and metastatic progression is a frequent event in colorectal cancer patients detected at early stages. The risk of recurrence requires the development of new biomarkers to correctly predict biological behavior of early stage II and stage III patients and their response to adjuvant chemotherapy. Here, we combined the proteomic quantification of secreted proteins involved in metastasis with a transcriptional analysis to develop a risk score algorithm based on the expression of six genes (SEC6). The SEC6 signature was predictive of survival and recurrence for stage II and III patients in four different datasets including a total of 1534 patients and was also associated with deficient mismatch repair, CpG-island methylator positive status and BRAF mutation. SEC6 was also predictive of beneficial or detrimental effects from 5-Fluorouracil-containing regimes and the improved response to more aggressive chemotherapies based on FOLFOX and FOLFIRI. In summary, the SEC6 risk-score algorithm may constitute a new tool for decision-making in colorectal cancer management.