Project description:CT26 cells expressing lentiviral Cas9 and sgRNAs targeting either control or Gna13 were transplanted into immunocompetent BALB/c mice. Tumors were harvested and processed for RNA-seq
Project description:To gain insights into how EBV latency is maintained, we performed a human genome-wide CRISPR screen in latently EBV-infected Burkitt lymphoma B-cells. Our analyses identified a network of host factors that repress EBV lytic reactivation, centered on the transcription factor MYC and including cohesins, FACT, STAGA and Mediator. RNAseq was used to identify host and viral transcriptome changes in P3HR-1 Burkitt lymphoma cells expressing control, smc1a, supt16h, med12, or tada2b sgRNAs. RNAseq was used to identify host and viral transcriptome changes in Akata EBV+ burkitt lymphoma cells expressing control or myc sgRNAs.
Project description:T cell infiltration is essential for immune checkpoint inhibitors to be effective in treating solid cancers. Through a bioinformatic pipeline, we identified a target gene SUN1 that might relate to modulating immune cell infiltration and immune response. Thus, we generated one Sun1_knockout CT26 cell line (Sun1_KO) and two control CT26 cell lines (Sun1_Control) using CRISPR-Cas9. By performing RNA-seq on cultured cells, tumors grown in syngeneic model, and purified tumor cells from tumors grown in syngeneic model, we set out to understand how mouse Sun1 can affect immune-related pathways and immune cell infiltration and anti-PD1 efficacy in BALB/c mice.
Project description:Goal: Microsatellite-instable (MSI) tumors are one of the few cancers that respond to immune checkpoint blockade (ICB); however, the mechanism of MSI status development is unclear. Here, we report that protein phosphatase 2A (PP2A) deletion or inactivation converted cold microsatellite-stable (MSS) into MSI tumors. Objectives: Using RNA sequencing data of three CT26-shppp2r1a data and a CT26-scr data, we demonstrate that these intestinal tumors display differential core driver pathways.