Identification and characterisation of novel CAR‐T cells to target IL13Rα2 positive human glioma in vitro and in vivo

Pamela Leland; Heba Degheidy; Ashley Lea; Steven R. Bauer; Raj K. Puri; Bharat H. Joshi

doi:10.1002/ctm2.1664

Clinical and Translational Medicine (May 2024)

Identification and characterisation of novel CAR‐T cells to target IL13Rα2 positive human glioma in vitro and in vivo

Pamela Leland,
Heba Degheidy,
Ashley Lea,
Steven R. Bauer,
Raj K. Puri,
Bharat H. Joshi

Affiliations

Pamela Leland: Tumor Vaccine and Biotechnology Branch Division of Cell Therapy II Silver Spring Maryland USA
Heba Degheidy: Cellular and Tissue Therapy Branch, Office of Cellular Therapy & Human Tissues, Office of Therapeutic Products Center for Biologics Evaluation and Research U.S. Food and Drug Administration, White Oak Silver Spring Maryland USA
Ashley Lea: Tumor Vaccine and Biotechnology Branch Division of Cell Therapy II Silver Spring Maryland USA
Steven R. Bauer: Cellular and Tissue Therapy Branch, Office of Cellular Therapy & Human Tissues, Office of Therapeutic Products Center for Biologics Evaluation and Research U.S. Food and Drug Administration, White Oak Silver Spring Maryland USA
Raj K. Puri: Tumor Vaccine and Biotechnology Branch Division of Cell Therapy II Silver Spring Maryland USA
Bharat H. Joshi: Tumor Vaccine and Biotechnology Branch Division of Cell Therapy II Silver Spring Maryland USA

DOI: https://doi.org/10.1002/ctm2.1664
Journal volume & issue: Vol. 14, no. 5
pp. n/a – n/a

Abstract

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Abstract Background Previously, we discovered that human solid tumours, but not normal human tissues, preferentially overexpress interleukin‐13Receptor alpha2, a high binding receptor for IL‐13. To develop novel anti‐cancer approaches, we constructed a chimeric antigen receptor construct using a high binding and codon optimised scFv‐IL‐13Rα2 fragment fused with CD3ζ and co‐stimulatory cytoplasmic domains of CD28 and 4‐1BB. Methods We developed a scFv clone, designated 14‐1, by biopanning the bound scFv phages using huIL‐13Rα2Fc chimeric protein and compared its binding with our previously published clone 4‐1. We performed bioinformatic analyses for complementary determining regions (CDR) framework and residue analyses of the light and heavy chains. This construct was packaged with helper plasmids to produce CAR‐lentivirus and transduced human Jurkat T or activated T cells from peripheral blood mononuclear cells (PBMCs) to produce CAR‐T cells and tested for their quality attributes in vitro and in vivo. Serum enzymes including body weight from non‐tumour bearing mice were tested for assessing general toxicity of CAR‐T cells. Results The binding of 14‐1 clone is to IL‐13Rα2Fc‐chimeric protein is ∼5 times higher than our previous clone 4‐1. The 14‐1‐CAR‐T cells grew exponentially in the presence of cytokines and maintained phenotype and biological attributes such as cell viability, potency, migration and T cell activation. Clone 14‐1 migrated to IL‐13Rα2Fc and cell free supernatants only from IL‐13Rα2+ve confluent glioma tumour cells in a chemotaxis assay. scFv‐IL‐13Rα2‐CAR‐T cells specifically killed IL‐13Rα2+ve but not IL‐13Rα2‐ve tumour cells in vitro and selectively caused significant release of IFN‐γ only from IL‐13Rα2+ve co‐cultures. These CAR‐T cells regressed IL‐13Rα2+ve glioma xenografts in vivo without any general toxicity. In contrast, the IL‐13Rα2 gene knocked‐down U251 and U87 xenografts failed to respond to the CAR‐T therapy. Conclusion Taken together, we conclude that the novel scFv‐IL‐13Rα2 CAR‐T cell therapy may offer an effective therapeutic option after designing a careful pre‐clinical and clinical study.

Published in Clinical and Translational Medicine

ISSN: 2001-1326 (Online)
Publisher: Wiley
Country of publisher: Australia
LCC subjects: Medicine: Medicine (General)
Website: https://onlinelibrary.wiley.com/journal/20011326

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