Project description:We profiled genome-wide DNA methylation in four cancer cell line, ie SW480-lenti SW480-TET2CD, SW620--lenti and SW620-TET2CD.

Project description:The colorectal cancer (CRC) cell line pair SW480/SW620 is an accepted model to study CRC progression and metastasis formation. Studying miRNA expression differences might allow to uncover molecular mechanisms that underlie metastasis initiation Both cell lines are derived from the same patient, but at different stages of the disease. They might show differences in tumor-initiating cell (TIC) potential.

Project description:The colorectal cancer (CRC) cell line pair SW480/SW620 is an accepted model to study CRC progression and metastasis formation. Studying gene expression differences might allow to uncover molecular mechanisms that underlie metastasis initiation Both cell lines are derived from the same patient, but at different stages of the disease. They might show differences in tumor-initiating cell (TIC) potential.

Project description:Four cancer cell line, ie SW480-Vector, SW480-TET2, SW620-Vector and SW620-TET2 were treated with tgfb1, repsox and control. Then the total RNA of these samples were extracted and sequenced with Illumina Nextseq 500.

Project description:Two isogenic human colorectal cancer cell lines (primary SW480 cell line and its lymph node metastatic variant SW620 cell line),as an in vitro metastatic model. We have demonstrated that SW620 cell line possesses high metastasis potential and SW480 cell linepossesses low metastatic potential. We want to compare the whole cell microRNAs profiles of two isogenic colorectal cancer cell lines (SW480 and SW620 cell line), to gain an insight into the molecular events of colon cancer metastasis.

Project description:A previous study suggested that the expression of miR181a-5p was higher in CRC tissues, but whether CRC cell-derived exosomes regulate the activation of HSCs through secreting miR181a-5p and promoting CRLM warrants further investigation. We compared the miRNA expression profiles between exosomes from highly metastatic CRC cells (RKO and SW620) and those from weakly-metastatic CRC cells (HT29 and SW480).

Project description:Two isogenic human colorectal cancer cell lines (primary SW480 cell line and its lymph node metastatic variant SW620 cell line),as an in vitro metastatic model. We have demonstrated that SW620 cell line possesses high metastasis potential and SW480 cell linepossesses low metastatic potential.

Project description:Protein extraction and proteolytic digestion were performed using a Filter-Assisted Sample Preparation (FASP) protocol. In case of phosphopeptide enrichment immobilized Fe(III) affinity chromatography (Fe-IMAC) was performed. The peptides were fractionated using an HPLC system fitted with an SCX column. 10 sample datasets were used: 1. CRC_N: Normal tissue samples were obtained from 20 colorectal cancer patients, no quantification.Phosphopeptide enrichment was performed. 2. CRC_T: Human colorectal cancer tissue samples were obtained from 20 patients, no quantification. Phosphopeptide enrichment was performed. 3. CRC_iTRAQ: Human colorectal cancer tissue samples were obtained from 24 patients, iTRAQ quantification. 4. CRC_phospho_iTRAQ:Human colorectal cancer tissue samples were obtained from 24 patients, iTRAQ quantification.Phosphopeptide enrichment was performed. 5. HCT116_iTRAQ: Human colon cancer cell HCT116, iTRAQ quantification. 6. HCT116_phospho_iTRAQ: Human colon cancer cell HCT116, phosphopeptide enrichment, iTRAQ quantification. 7. SW_SILAC_HL: Human colon cancer cell SW480 and SW620, SW480 and SW620 were grown in SILAC media, containing l-arginine (Arg0) and l-lysine (Lys0) (SW480; light), or 13C615N4-l-arginine (Arg10) and 13C6-l-Lysine (Lys6) (SW620; heavy). 8. SW_SILAC_LH: SW480 and SW620 were grown in SILAC media, containing l-arginine (Arg0) and l-lysine (Lys0) (SW620; light), or 13C615N4-l-arginine (Arg10) and 13C6-l-Lysine (Lys6) (SW480; heavy). 9. SW_phospho_SILAC_HL: SW480 and SW620 were grown in SILAC media, containing l-arginine (Arg0) and l-lysine (Lys0) (SW480; light), or 13C615N4-l-arginine (Arg10) and 13C6-l-Lysine (Lys6) (SW620; heavy). Phosphopeptide enrichment was performed. 10. SW_phospho_SILAC_LH: SW480 and SW620 were grown in SILAC media, containing l-arginine (Arg0) and l-lysine (Lys0) (SW620; light), or 13C615N4-l-arginine (Arg10) and 13C6-l-Lysine (Lys6) (SW480; heavy). Phosphopeptide enrichment was performed. For creation of xml and mgf files, Proteome Discoverer 1.3 and Mascot v2.3 software were used.

Project description:Epitranscriptomic reader, writer and eraser (RWE) proteins are involved in the recognition, installation, and removal, respectively, of chemical modifications in RNA, and aberrant expressions of some of these proteins were found to be associated with cancer initiation and progression. Here, we our recently established parallel-reaction monitoring (PRM)-based targeted proteomic method, in conjunction with stable isotope labelling by amino acids in cell culture (SILAC), to investigate the differential expression of epitranscriptomic RWE proteins in a matched pair of primary/metastatic colorectal cancer (CRC) cells (i.e., SW480/SW620) derived from the same patient. We were able to detect 113 non-redundant epitranscriptomic RWE proteins in these two lines of cells. We found that 48 and 5 proteins were respectively up- and down-regulated by at least 1.5-fold in SW620 over SW480 cells. Particularly, NAT10, HNRNPC, and DKC1 were markedly up-regulated, and their potential roles in driving CRC metastasis were supported by recent studies. Interrogation of the Clinical Proteomic Tumor Analysis Consortium (CPTAC) data revealed that the elevated expressions of these and other RWE proteins are also accompanied with CRC initiation, suggesting the roles of these proteins in both the initiation and metastatic transformation of CRC. It can be envisaged that the established PRM method can be further utilized to examine the roles of epitranscriptomic RWE proteins in the metastatic transformations of other types of cancer.

Project description:We performed microarray analysis of four colorectal cancer cell lines (Caco2, HCT116, SW480, and SW620).