Impact of scFv structure in chimeric antigen receptor on receptor expression efficiency and antigen recognition properties

Abstract BACKGROUND Efficacy of chimeric antigen receptor T cell (CART) therapy remains limited in solid tumors. Given the heterogeneity of surface receptor expression and immunosuppressive stromal microenvironment, strategies to target tumor neovasculature and tumor stromal cells are needed to help overcome CART inhibition by GBM. Eph receptors are the largest family of receptor tyrosine kinases and are integral to cell adhesion, migration, and axon guidance, during development and homeostasis. EphA3 is a receptor tyrosine kinase which is lowly expressed in adult tissues but is highly expressed in tumor neovasculature and tumor stromal cells in GBM and other solid tumors. EphA3 is over-expressed in up to 40% of GBM samples. We aimed to develop CART cells directed against EphA3 to use in targeting tumor neovasculature and tumor stromal cells in GBM. METHODS we developed a second generation CD28 co-stimulated CAR construct in a third generation lentivirus backbone to generate EphA3 CART cells using the single chain variable fragment of ifabotuzumab, a monoclonal antibody directed against EphA3. Patient derived GBM xenograft cell lines were used in these experiments. RESULTS EphA3 directed CART cells exhibited specific and potent antitumor activity against EphA3+ GBM cell lines with variable transcriptome EphA3 expression indicating its broader applicability in patients with GBM. Killing over 24-hour incubation was significant at low effector: target ratio: 52.5% killing at 1.25:1 against cell lines with 25.05% EphA3 expression and 37.1% killing at 1.25:1and 90% killing at 5:1 ratio against a cell line with 19.28% expression. Conversely, when co-cultured with UTD controls there was significantly lower killing, or growth of tumor cells. CONCLUSION We demonstrate for the first time that targeting EphA3 with CART cells is feasible, efficacious and represents a novel therapeutics strategy to target GBM. Data from in vivo and combinatorial CART experiments will be reported at the meeting.

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A Tet-On Inducible System for Controlling CD19-Chimeric Antigen Receptor Expression upon Drug Administration

Cancer Immunology Research ◽

10.1158/2326-6066.cir-16-0043 ◽

2016 ◽

Vol 4 (8) ◽

pp. 658-668 ◽

Cited By ~ 66

Author(s):

Reona Sakemura ◽

Seitaro Terakura ◽

Keisuke Watanabe ◽

Jakrawadee Julamanee ◽

Erina Takagi ◽

...

Keyword(s):

Drug Administration ◽

Chimeric Antigen Receptor ◽

Antigen Receptor ◽

Receptor Expression

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DDRE-18. DEVELOPMENT OF EGFRvIII AND EGFR DIRECTED CHIMERIC ANTIGEN RECEPTOR T CELL THERAPY FOR THE TREATMENT OF GLIOBLASTOMA MULTIFORME

Neuro-Oncology ◽

10.1093/neuonc/noaa215.263 ◽

2020 ◽

Vol 22 (Supplement_2) ◽

pp. ii65-ii65

Author(s):

Michael Ruff ◽

Reona Sakemura ◽

Claudia Manriquez-Roman ◽

Mehrdad Hefazi-Torghabeh ◽

Kendall Schick ◽

...

Keyword(s):

T Cell ◽

Tumor Cells ◽

Cell Lines ◽

Chimeric Antigen Receptor ◽

Tumor Antigens ◽

Antigen Receptor ◽

Receptor Expression ◽

T Cell Therapy ◽

Multiple Tumor

Abstract BACKGROUND Chimeric antigen receptor T cell (CART) therapy has revolutionized the treatment landscape for hematological malignancies, its efficacy remains limited in solid tumors. EGFRvIII is a truncated version of the wild type EGFR in which deletion of exons 2–7 of the extracellular domain leads the variant (EGFRvIII) that is strongly antigenic and is mostly expressed on tumor cells. EGFR amplification (tEGFR) almost uniformly precedes the presence of EGFRvIII on tumor cells. The heterogeneity of surface receptor expression and immunosuppressive stromal microenvironment underscore the need to develop CART strategies to target multiple tumor antigens simultaneously. METHODS we generated tEGFR/EGFRvIII directed CAR construct by cloning a clinically relevant tEGFR and EGFRvIII specific scFv into a second generation CAR construct (41BB stimulated) in a third generation lentivirus backbone. This was used to transfect 293T cells and the generated lentivirus particles were used to transduce T cells and generate EGFRvIII/tEGFR CART cells. GBM primary patient derived cell lines were used in these experiments. These cells were passaged and maintained in patient derived xenograft models. RESULTS EGFRvIII/tEGFR directed CART cells exhibited potent antitumor activity against EGFRvIII/tEGFR + GBM cell lines: with 100% killing at 1.25:1, 2.5:1, 5:1 and 10:1 E:T ratio on multiple PDX cell lines with EGFRvIII expression and EGFR over-expression (greater than five copies of EGFR gene) at 24 hours of incubation. Conclusion: We demonstrate that targeting EGFRvIII and over-expressed EGFR with CART cells is feasible, efficacious and represents a promising therapeutic strategy to target GMB. Data from in vivo and combinatorial CART experiments will be reported at the meeting.

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