The current socioeconomic and regulatory landscape of immune effector cell therapies

Sainatham, Chiranjeevi; Yadav, Devvrat; Dilli Babu, Aravind; Tallapalli, Jayanth Reddy; Kanagala, Sai Gautham; Filippov, Evgenii; Murillo Chavez, Franco; Ahmed, Nausheen; Lutfi, Forat

doi:10.3389/fmed.2024.1462307

Front. Med.

2024

DOI: 10.3389/fmed.2024.1462307

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The current socioeconomic and regulatory landscape of immune effector cell therapies

Chiranjeevi Sainatham,

Devvrat Yadav,

Aravind Dilli Babu

et al.

Abstract: Immune cell effector therapies, including chimeric antigen receptor (CAR)-T cells, T-cell receptor (TCR) T cells, natural killer (NK) cells, and macrophage-based therapies, represent a transformative approach to cancer treatment, harnessing the immune system to target and eradicate malignant cells. CAR-T cell therapy, the most established among these, involves engineering T cells to express CARs specific to cancer cell antigens, showing remarkable efficacy in hematologic malignancies like leukemias, B-cell lym… Show more

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Next frontier in cancer treatment: an iPSC supported CAR-T cell therapies

Sona

2024

Asia-Pac J Oncol

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The spread of cancer and huge number of cancer related deaths has made it imperative for scientist to search new diagnostic, prognostic and treatment tools for its effective management. Chimeric Antigen Receptor (CAR) T-cell (CAR-T) therapy has been brought into limelight as novel treatment strategy for cancer. In this review we briefly introduced the CAR-T therapy highlighting its successful application for various cancers along with the possibility of integrating the induced pluripotent stem cell (iPSC) technology with CAR-T technology to overcome its intrinsic limitation. The mechanism of CAR-T technology is based on the isolation of white blood cells through leukapheresis from patients’ blood or healthy donors followed by the isolation of T-cells (a type of immune cells). The isolated T-cells are engineered through using a viral vector or other methods to incorporate the CAR gene and expanded in the lab. This modification enables T cells to distinguish and attack antigens on the surfaces of cancer cells. However, this approach is not without its inherent limitations. CAR-T cell therapy notable limitation is the exhaustible availability of T cells within the donor or patient system, which can restrict the feasibility and effectiveness of therapeutic intervention. A potential solution to this limitation may lie in synergizing CAR-T technology with the induced pluripotent stem cell (iPSC) technology. The inherent potential of iPSC technology lies in its ability to provide an endless supply of T-cell resources. A substantial amount of research revealed the production of various human CAR-T cells using iPSC technology. Therefore, such combinatorial approach utilizing CAR-T technology for mounting an immunological attack against cancer with continues supply of T-cells through iPSCs technology can prove revolutionary in designing novel and pragmatic methods for cancer treatment.

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Next frontier in cancer treatment: an iPSC supported CAR-T cell therapies

Sona

2024

Asia-Pac J Oncol

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The current socioeconomic and regulatory landscape of immune effector cell therapies

Cited by 1 publication

References 191 publications

Next frontier in cancer treatment: an iPSC supported CAR-T cell therapies

Next frontier in cancer treatment: an iPSC supported CAR-T cell therapies

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