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Tumor Immunology

$145,304P30FY2023CANIH

University Of California Los Angeles, Los Angeles CA

Investigators

Linked publications, trials & patents

Trial NCT07339085Trial NCT07276438Trial NCT07242365Trial NCT06650163Trial NCT06568016Trial NCT06113016Trial NCT05595499Trial NCT04205838Trial NCT04201873Trial NCT04185311Trial NCT04119024Trial NCT04106362Trial NCT04069923Trial NCT04069910Trial NCT04050215Trial NCT04007029Trial NCT03996850Trial NCT03970252Trial NCT03953157Trial NCT03904251Trial NCT03902951Trial NCT03892720Trial NCT03830918Trial NCT03825796Trial NCT03745690Trial NCT03732950Trial NCT03732352Trial NCT03672773Trial NCT03623854Trial NCT03618134Trial NCT03603223Trial NCT03601455Trial NCT03596710Trial NCT03582774Trial NCT03582475Trial NCT03541850Trial NCT03515577Trial NCT03506802Trial NCT03425461Trial NCT03411070Trial NCT03368547Trial NCT03319342Trial NCT03240861Trial NCT03202472Trial NCT03128619Trial NCT03025139Trial NCT03014804Trial NCT02940262Trial NCT02928510Trial NCT02925351Trial NCT02919332Trial NCT02902757Trial NCT02888301Trial NCT02881242Trial NCT02880020Trial NCT02879994Trial NCT02830165Trial NCT02816879Trial NCT02775292Trial NCT02756130Trial NCT02701153Trial NCT02688348Trial NCT02683200Trial NCT02672033Trial NCT02597894Trial NCT02575027Trial NCT02451865Trial NCT02336763Trial NCT02310594Trial NCT02296229Trial NCT02280161Trial NCT02263898Trial NCT02176902Trial NCT02070406Trial NCT02049593Trial NCT02048020Trial NCT02015559Trial NCT01912820Trial NCT01013285Trial NCT01005472Trial NCT00999557Trial NCT00998010Trial NCT00985192Trial NCT00955591Trial NCT00882765Trial NCT00880542Trial NCT00769470Trial NCT00706615Trial NCT00685516Trial NCT00616642Trial NCT00612066Trial NCT00601289Trial NCT00601094Trial NCT00521209Trial NCT00509431Trial NCT00471887Trial NCT00450567Trial NCT00444223Trial NCT00352001Trial NCT00349167

Abstract

TUMOR IMMUNOLOGY RESEARCH PROGRAM (TI) ABSTRACT AACR president-elect Antoni Ribas, MD, PhD (Director) together with T cell engineer Yvonne Chen, PhD (Co- Director) lead the UCLA Jonsson Comprehensive Cancer Center (JCCC) Tumor Immunology Research Program (TI). Ribas and Chen stimulate Program cohesion and goal-oriented achievement through two independent but related objectives, which are to provide a highly interactive and supportive environment that deepens member understanding of tumor immunology, and to develop novel immune-based therapies for patients with cancer. TI brings basic and translational scientists together, guided by Los Angeles County (LAC) catchment area needs and priorities, to spawn novel investigator-initiated immunotherapy clinical trials in melanoma, lymphoma, brain, lung, and kidney cancer, and other tumor types. There are many TI Program strengths, including in the following nine areas. (1) Bringing new cancer immunotherapies to drug regulatory approval. (2) Uncovering mechanisms of response and resistance to immune checkpoint blockade. (3) Clinical trials of genetically engineered T cells and their precursors with T cell receptors (TCRs) or chimeric antigen receptors (CARs) to generate cancer- directed immune systems. (4) Non-invasive imaging of tumor antigen-specific T cell distributions and tumor targeting in vivo. (5) Engineering new platforms for immune monitoring of T cell responses to cancer. (6) Examining the relationship between inflammation and cancer. (7) Generating and using antibody fusion proteins for cancer therapy. (8) Investigating therapeutic combinations with targeted agents to sensitize cancer cells to immunotherapy. (9) Studies aiming to improve the lives of patients with AIDS-related cancers. These nine and additional basic and translational Program strengths rely heavily upon a CCSG-funded infrastructure and all six JCCC Shared Resources. The Flow Cytometry Shared Resource (FCSR) is the most active core and the Small Animal Imaging Shared Resource (SAISR) enables T cell imaging projects that move from preclinical models to patients. Outside of the six official JCCC Shared Resources is the JCCC/Human Gene Medicine Program Good Manufacturing Practices (GMP) facility, which TI investigators use to manufacture personalized cell products in- house, meeting local, state, and federal regulations for use in humans. The TI Program has 31 members from 11 departments in four schools at UCLA and affiliate, Caltech. As of March 1, 2019, the Program had $19,280,597 in direct cost funding, including $4,823,507 (25%) from the NCI, and $14,028,565 (73%) in direct cost peer-reviewed funding. Program discoveries resulted in 627 publications, with 13% from intra-programmatic and 37% from inter-programmatic collaborations. In addition, 57% of publications are from collaborations with external institutions and 44% are in high-impact (IF ≥10, or field leading) journals. Impactful Program research yielded paradigm shifting discoveries in mechanisms of immunotherapy resistance and practice changing advances with three FDA approvals since 2014, the first FDA approvals for immune checkpoint inhibitors in cancer, for melanoma and lung cancer, and FDA approval for anti-CD19 CAR-T cells in large B cell lymphoma.

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