2023
Immunogenetic Metabolomics Reveals Key Enzymes That Modulate CAR T-cell Metabolism and Function.
Renauer P, Park J, Bai M, Acosta A, Lee W, Lin G, Zhang Y, Dai X, Wang G, Errami Y, Wu T, Clark P, Ye L, Yang Q, Chen S. Immunogenetic Metabolomics Reveals Key Enzymes That Modulate CAR T-cell Metabolism and Function. Cancer Immunology Research 2023, 11: 1068-1084. PMID: 37253111, PMCID: PMC10527769, DOI: 10.1158/2326-6066.cir-22-0565.Peer-Reviewed Original ResearchConceptsCAR T cellsHER2-specific CAR T cellsT cellsTumor microenvironmentChimeric antigen receptor T cellsT cell-based immunotherapyAntigen receptor T cellsCD19-specific chimeric antigen receptor (CAR) T cellsCAR T-cell therapyCell-based immunotherapyReceptor T cellsT-cell therapyVivo colorectal cancer modelsColorectal cancer modelT cell functionT cell metabolismTumor infiltrationEvasion mechanismsImmunosuppressive metaboliteImmune evasionCancer modelImmunologic analysisCD19-specificUnfavorable tumor microenvironmentPDK1 deficiency
2022
A genome-scale gain-of-function CRISPR screen in CD8 T cells identifies proline metabolism as a means to enhance CAR-T therapy
Ye L, Park JJ, Peng L, Yang Q, Chow RD, Dong MB, Lam SZ, Guo J, Tang E, Zhang Y, Wang G, Dai X, Du Y, Kim HR, Cao H, Errami Y, Clark P, Bersenev A, Montgomery RR, Chen S. A genome-scale gain-of-function CRISPR screen in CD8 T cells identifies proline metabolism as a means to enhance CAR-T therapy. Cell Metabolism 2022, 34: 595-614.e14. PMID: 35276062, PMCID: PMC8986623, DOI: 10.1016/j.cmet.2022.02.009.Peer-Reviewed Original ResearchConceptsCAR T cellsT cell-based immunotherapyRight molecular targetCell-based immunotherapyCAR-T therapyChimeric antigen receptorMultiple cancer modelsCAR-T efficacyFunction CRISPR screensCD8 TPrimary CD8Immune functionImmunological diseasesImmune boosterCancer modelAntigen receptorDistinct gene expressionMolecular targetsCRISPR activation screensMetabolic programsImmunological analysisTherapyCancerEfficacyActivation screens
2019
In vivo CRISPR screening in CD8 T cells with AAV–Sleeping Beauty hybrid vectors identifies membrane targets for improving immunotherapy for glioblastoma
Ye L, Park JJ, Dong MB, Yang Q, Chow RD, Peng L, Du Y, Guo J, Dai X, Wang G, Errami Y, Chen S. In vivo CRISPR screening in CD8 T cells with AAV–Sleeping Beauty hybrid vectors identifies membrane targets for improving immunotherapy for glioblastoma. Nature Biotechnology 2019, 37: 1302-1313. PMID: 31548728, PMCID: PMC6834896, DOI: 10.1038/s41587-019-0246-4.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAntigens, CDCD8-Positive T-LymphocytesCell Line, TumorCRISPR-Cas SystemsDependovirusFemaleGene EditingGlioblastomaHumansImmunotherapy, AdoptiveLymphocyte Activation Gene 3 ProteinMaleMembrane ProteinsMiceN-AcetylglucosaminyltransferasesNeoplasm ProteinsProtein Disulfide-IsomerasesReceptors, Cell SurfaceRNA, Guide, CRISPR-Cas SystemsTransposasesXenograft Model Antitumor AssaysConceptsRNA cassetteMembrane protein targetsPrimary murine T cellsGenetic screening systemSingle-cell sequencingScreen hitsSleeping Beauty (SB) transposonCRISPR screensMembrane proteinsCell sequencingT cellsAdeno-associated virusGenomic integrationMembrane targetsMurine T cellsProtein targetsEfficient geneHuman GBM cellsGene editingT cell receptor transgenic modelGBM cellsBeauty transposonPDIA3T cell-based immunotherapyAntigen-specific killing