Abstract
Somatic variants in DNA damage response genes such as ATM are widespread in hematologic malignancies. ATM protein is essential for double-strand DNA break repair. Germline ATM deficiencies underlie ataxia-telangiectasia (A-T), a disease manifested by radiosensitivity, immunodeficiency, and predisposition to lymphoid malignancies. Patients with A-T diagnosed with malignancies have poor tolerance to chemotherapy or radiation. In this study, we investigated chimeric antigen receptor (CAR) T cells using primary T cells from patients with A-T (ATM-/-), heterozygote donors (ATM+/-), and healthy donors. ATM-/- T cells proliferate and can be successfully transduced with CARs, though functional impairment of ATM-/- CAR T-cells was observed. Retroviral transduction of the CAR in ATM-/- T cells resulted in high rates of chromosomal lesions at CAR insertion sites, as confirmed by next-generation long-read sequencing. This work suggests that ATM is essential to preserve genome integrity of CAR T-cells during retroviral manufacturing, and its lack poses a risk of chromosomal translocations and potential leukemogenicity. Significance: CAR T-cells are clinically approved genetically modified cells, but the control of genome integrity remains largely uncharacterized. This study demonstrates that ATM deficiency marginally impairs CAR T-cell function and results in high rates of chromosomal aberrations after retroviral transduction, which may be of concern in patients with DNA repair deficiencies.