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: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:Nicotinamide adenine dinucleotide (NAD), a cofactor for hundreds of metabolic reactions in all cell types, plays an essential role in diverse cellular processes including metabolism, DNA repair, and aging. NAD metabolism is critical to maintain cellular homeostasis in response to environmental signals, however, how it is impacted by the environment remains unclear. Here, we report an unexpected trans-kingdom cooperation between bacteria and mammalian cells wherein bacteria contribute to host NAD biosynthesis. Bacteria confer mammalian cells with the resistance to inhibitors of NAMPT, the rate limiting enzyme in the main vertebrate NAD salvage pathway. Mechanistically, a microbial nicotinamidase (PncA) that converts nicotinamide to nicotinic acid, a key precursor in the alternative deamidated NAD salvage pathway, is necessary and sufficient for this protective effect. This bacteria-enabled bypass of the pharmacologically induced metabolic block in mammalian cells represents a novel paradigm in drug resistance. This host-microbe metabolic interaction also dramatically enhances the hepatic NAD-boosting efficiency of nicotinamide and nicotinamide riboside supplementation, demonstrating a crucial role of microbes, gut microbiota in particular, in systemic NAD metabolism.

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: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: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: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:Comparison the mRNA expression profiles of 101 CRC tissues to those from matched 35 non-neoplastic colon mucosal tissues from patients with stage III CRCs treated with FOLFOX adjuvant chemotherapy in each molecular subtype. Gene expression–based subtyping is widely accepted as a relevant source of disease stratification. Results provide important information of molecular marker genes for molecular classification.

Project description:Tryptophan metabolism and de novo NAD biosynthesis is associated with behavioural changes in IBD patients. The microbiota and tryptophan de novo syntheses of the distal colon, distal colon and brain of C57BL/6 control mice and Winnie mice littermates with chronic intestinal inflammation were compared using RNA-Seq. Differentially expressed genes were analysed using Micromon software. Changes in tryptophan and nicotinamide metabolism-associated gene expressions, metabolites, and abundance of gut microbiota associated with chronic intestinal inflammation and dysregulated tryptophan metabolism in the Winnie mouse distal colon and brain were apparent. Our findings shed light on the physiological alterations in tryptophan metabolism, specifically its diversion from the serotonergic pathway towards the kynurenine pathway and the consequential effects on de novo NAD+ synthesis, in the context of chronic intestinal inflammation

Project description:This study employs single-cell RNA sequencing (scRNA-seq) to investigate the impact of a probiotic consortium, alone or in combination with the chemotherapeutic regimen FOLFOX, on the tumor microenvironment (TME) of MC38 colorectal adenocarcinoma allografts in C57BL/6J mice. MC38 tumor-bearing mice were divided into three experimental groups: untreated control, FOLFOX-treated, and FOLFOX plus composite probiotics-treated. Tumors were harvested at a defined endpoint, dissociated into single-cell suspensions, and subjected to scRNA-seq using the 10x Genomics platform. The resulting data enable high-resolution characterization of transcriptional changes across immune, stromal, and malignant cell populations within the TME. This dataset aims to elucidate how combinatorial probiotic and chemotherapy intervention reshapes cellular composition, cell-state transitions, and intercellular communication networks, potentially revealing mechanisms of enhanced anti-tumor immunity or therapy resistance.