Reprogramming T cell differentiation and exhaustion in CAR-T cell therapy

Prospects and challenges of CAR-T in the treatment of ovarian cancer

Ovarian cancer ranks as the seventh most prevalent cancer among women and is considered the most lethal gynecological malignancy on a global scale. The absence of reliable screening techniques, coupled with the insidious onset of nonspecific symptoms, often results in a delayed diagnosis, typically at an advanced stage characterized by peritoneal involvement. Management of advanced tumors typically involves a combination of chemotherapy and cytoreductive surgery. However, the therapeutic arsenal for ovarian cancer patients remains limited, highlighting the unmet need for precise, targeted, and sustained-release pharmacological agents. Genetically engineered T cells expressing chimeric antigen receptors (CARs) represent a promising novel therapeutic modality that selectively targets specific antigens, demonstrating robust and enduring antitumor responses in numerous patients. CAR T cell therapy has exhibited notable efficacy in hematological malignancies and is currently under investigation for its potential in treating various solid tumors, including ovarian cancer. Currently, numerous researchers are engaged in the development of novel CAR-T cells designed to target ovarian cancer, with subsequent evaluation of these candidate cells in preclinical studies. Given the ability of chimeric antigen receptor (CAR) expressing T cells to elicit potent and long-lasting anti-tumor effects, this therapeutic approach holds significant promise for the treatment of ovarian cancer. This review article examines the utilization of CAR-T cells in the context of ovarian cancer therapy.

Overcoming the challenges encountered in CAR-T therapy: latest updates from the 2023 ASH annual conference

Chimeric antigen receptor (CAR) -T cell therapy has entered the breakthrough era, characterized by a blend of therapeutic opportunities and challenges. With the integration of genome-editing technology, CAR-T cells will be empowered to become super warriors in eradicating tumor cells and attacking various tumors, including T-cell malignancies and acute myeloid leukemia. Notably, the optimization of CAR-T cells, including efficacy, safety, and manufacturing speed, coupled with other therapeutic strategies such as radiotherapy, hematopoietic stem cell transplantation, small-molecule inhibitors, and bispecific antibodies, could revolutionize the therapeutic landscape of tumors. Consequently, next-generation cellular immunotherapy, including universal CAR-NK cells and synergistic combination approaches, are anticipated to significantly impact cancer treatment in the coming decade. Nevertheless, the failure rates of CAR-T therapy continue to be significant. The challenge lies in determining the optimal combination strategy and identifying reliable and robust biomarkers to effectively select the patients who will derive the greatest benefit from CAR-T therapy. Herein, we highlight recent innovations in CAR-T products, combination strategies and predictive biomarkers of response presented at the 2023 ASH Annual Meeting.

A trispecific antibody induces potent tumor-directed T-cell activation and antitumor activity by CD3/CD28 co-engagement

Aim: A novel CD19xCD3xCD28 trispecific antibody with a tandem single-chain variable fragments (scFv) structure was developed for the treatment of B-cell malignancies. Methods: The trispecific antibody in inducing tumor-directed T-cell activation and cytotoxicity was evaluated in vitro and in vivo and compared with its bispecific counterpart BiTE-CD19xCD3 lacking a CD28-targeting domain. Results: The trispecific antibody with a co-stimulatory domain exhibited augmented T-cell activation and memory T-cell differentiation capability and it induced faster tumor cell lysis than the bispecific antibody. RNAseq analysis revealed that the trispecific antibody modulates CD3/TCR complex-derived signal and upregulates antiapoptotic factors to influence the survival of T cells. Conclusion: By CD3/CD28 co-engagement, the trispecific antibody demonstrated its advantages in T-cell immunity and potential use as a more powerful and long-lasting T-cell engager.