Chimeric antigen receptor (CAR) T-cell therapy is an active basic research and clinical program at MSKCC, involving treatment of acute and chronic lymphocyte leukemia (CD19 CAR-specific) and advanced metastatic prostate cancer (PSMA CAR-specific) autologous T cells. The latter study includes monitoring T cell trafficking and persistence with 124I-FIAU/18F-FIAU and PET imaging. Our proposal compliments these on-going studies at MSKCC and explores the benefits of adding immune modulation to CAR-directed T cell therapy. Our primary objective is to validate reporter imaging systems that can be used to concurrently monitor CAR- directed T cell tumor targeting, activation and persistence (constitutive Reporter 1) and T cell activation (NFAT- inducible Reporter 2), plus tumor progression or regression (constitutive Reporter 3) in small animal models of prostate cancer. We also propose to develop a novel transgenic mouse colony that is immune tolerant to human PSMA and our multiple reporter systems (but otherwise retains normal immune function); this mouse colony will host orthotopic syngeneic MycCap murine tumors. We will also study an established human prostate (orthotopic) xenografts in NOD SCID mice. Our secondary objectives are related to addressing biological and therapeutic questions; namely, whether immune modulation strategies can enhance adoptive CAR-directed T cell therapy. They include: a) whether inhibition of the PD-1/PD-1L receptor ?check-point?, or whether the inhibition of CXCR4/CXCL12 signaling, or whether inhibition of TGF?1 signaling results in improved PSMA CAR-directed T cell targeting, activation and treatment response; b) whether combined inhibition of the above immune modulatory effectors results in a synergistic improvement of PSMA CAR-directed T cell targeting, activation and treatment response. We propose to use the reporter systems (Aim 1) and transgenic immune competent host animal (Aim 2) to verify our hypotheses by real-time imaging in appropriate animal models. Our central theme and hypothesis are that: 1) concurrent imaging and monitoring of T cell tumor targeting, activation and persistence, plus tumor progression (or regression) in small animal models of prostate cancer is feasible; 2) T cell exclusion from the tumor mass occurs in both murine and human prostate cancer animal models; 3) Immune modulation therapy (described above) will reverse T cell exclusion from the tumor and result in improved PSMA CAR-directed T cell tumor targeting, activation and treatment response; 4) Combined inhibition, using the above immune modulatory effectors, will result in a synergistic improvement of PSMA CAR-directed T cell tumor targeting, activation and treatment response. It should also be noted that we have compared several human PET-based reporter systems in transduced human T cells that would be suitable for future clinical studies (the PET-based reporters are not part of this application).

Public Health Relevance

STATEMENT/NARRATIVE Genetic engineering has been applied to more effectively direct T cells to tumor-expressing antigens, and cancer immunotherapy has witnessed a renaissance over the past few years with the clinical application of immune modulation ?check point? inhibitors. This application brings together these two developments and focuses on real-time imaging to monitor T cell tumor-targeting and activation, plus tumor response to combined T cell and immune modulation therapy, in appropriate animal models of aggressive prostate cancer. The imaging strategies that we will study in animal models can be translated to the clinic using PET and MRI imaging.

National Institute of Health (NIH)
National Cancer Institute (NCI)
Research Project (R01)
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Medical Imaging Study Section (MEDI)
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Menkens, Anne E
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Sloan-Kettering Institute for Cancer Research
New York
United States
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