We performed a Phase I clinical trial of donor derived CD19-specific chimeric antigen receptor T-cells (CAR T-cells) for B-cell malignancy that relapsed or persisted after matched related allogeneic hemopoietic stem cell transplant. To overcome the cost and transgene capacity limitations of traditional viral vectors, CAR T-cells were produced using the piggyBac transposon system of genetic modification. Following CAR T-cell infusion, one patient developed a gradually enlarging retroperitoneal tumor due to a CAR expressing CD4+ T-cell lymphoma. Screening of other patients led to the detection of a second CAR T-cell tumor in thoracic para-aortic lymph nodes in an asymptomatic patient. Analysis of the first lymphoma showed a high transgene copy number, but no insertion into typical oncogenes. There were also structural changes such as altered genomic copy number and point mutations unrelated to the insertion sites. Transcriptome analysis showed transgene promoter driven upregulation of transcription of surrounding regions despite insulator sequences surrounding the transgene. However, marked global changes in transcription predominantly correlated with gene copy number rather than insertion sites. In both patients, the CAR T-cell derived lymphoma progressed and one patient died. We describe the first two cases of malignant lymphoma derived from CAR gene modified T-cells. Although CAR T-cells have an enviable record of safety to date, our results emphasize the need for caution and regular follow up of CAR T recipients, especially when novel methods of gene transfer are used to create genetically modified immune therapies. The trial was registered at www.anzctr.org.au as ACTRN12617001579381.
CD19-specific chimeric antigen receptor (CAR19) T-cells effectively induce remission of B-cell malignancy, but the cost and complexity of production using viral vectors is a factor limiting widespread application. Furthermore, the small cargo capacity of viral vectors may hamper future development of more heavily engineered CAR T-cells. We demonstrated the feasibility of generating CAR19 T-cells from HLA-matched donors of sibling allogeneic hematopoietic stem cell transplant (HSCT) patients via a simple and inexpensive method using the high-capacity piggyBac transposon. A cohort of 10 patients with relapsed or refractory B-cell acute lymphoblastic leukemia or aggressive lymphoma following HSCT were the first human subjects to receive piggyBac-generated CAR19 T-cells. Treatment with intra-patient escalating doses of CAR19 T-cells was effective, with all 9 evaluable patients achieving complete remission. At a median follow-up of 18.0 months, 5 patients remained in complete remission of B-cell malignancy. One patient died of viral sepsis. Four patients developed cytokine release syndrome of maximum grade 2, and no neurotoxicity or new graft-versus-host disease occurred. However, two patients developed malignant CAR19 T-cell tumors, one of whom was successfully treated; one patient died of the secondary tumor. The piggyBac system represents a feasible alternative to viral vectors for the generation of effective CAR19 T-cells, but its oncogenic potential in the context of the described production process will need to be addressed before any further clinical use is possible. This trial was registered at www.anzctr.org.au as ACTRN12617001579381.
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