ABSTRACT
In recent times, chimeric antigen receptor (CAR)-T cell therapy has shown rapid advancements and gained clinical approval for use in cancer immunotherapy. CAR, a synthetic receptor integrated into autologous T cells, has yielded highly successful results in patients with leukemia. The significant potential of CAR-T cells has been validated through clinical trials in adult and pediatric cancer treatments. Our therapy developed specifically for CD19-specific Acute Lymphoblastic Leukemia (ALL) has shown promising results in in vitro and in vivo tests. To enhance the response against cancer, provide a bistimulatory effect, and increase stability, we designed two different CAR structures specific to CD19. These designs incorporate the CD28 and 41BB costimulatory domains. Through in vitro analysis, we evaluated the population ratios and cytotoxic activities of Central Memory T cells (TCM) and Stem Cell Memory T cells (TSCM) in CAR-T (CAR1928-T and CAR19BB-T) cells. Our initial design, CAR1928-T, produced an effective anti-tumor response. With our second design, CAR19BB-T, we not only achieved an anti-tumor effect but also conferred memory capabilities, leading to a comprehensive treatment approach. We demonstrated that CAR-T cells produced using Phytohemagglutinin (PHA) exhibited increased persistence in vitro and in vivo compared to anti-CD3 and anti-CD28 stimulation. The use of PHA to activate CAR19BB-T cells developed a long-lasting and effective CAR-T cell production method in vivo using cancerous animal models. CAR-T cell-treated mice survived tumor-free for up to 60 days, surpassing the survival of mice that received tumors only. Additionally, CAR19BB-T cell production with PHA remained stable over time. These results highlight a novel CAR-T cell production approach with a high-memory T cell profile capable of delaying or preventing cancer relapse. We optimized the method for the production of long-term and effective CAR-T cells and tested it in preclinical experiments. As a result, it was demonstrated that CAR-T cells generated with PHA, when administered as a co-stimulatory dose, can provide continuous proliferation and long-term persistence without compromising their anti-cancer efficacy. Preclinical studies have been completed to obtain valuable data for enhancing the long-term effectiveness of CAR-T therapy in clinical trials and transitioning to clinical applications.
Competing Interest Statement
The authors have declared no competing interest.
Footnotes
Funding statement: All funding in the project was supported by the Presidency of Turkish Health Institutes (TUSEB) with grant number 4293.
Conflict of interest: C.T., B.S., G.G., T.T., and Y.A. are inventors of patent applications (pending) including “Allogeneic CAR-T cells expressing bispecific chimeric antigen receptors (CARs) targeting CD19 along with CD20 or CD22” (PCT/TR2023/050541 and 2022/009703) at Turkish Patent and Trademark Office. No other author has a competing interest except for these authors.