Abstract
Chimeric antigen receptor (CAR)-based T-cell adoptive immunotherapy is a distinctively promising therapy for cancer. The engineering of CARs into T cells provides T cells with tumor-targeting capabilities and intensifies their cytotoxic activity through stimulated cell expansion and enhanced cytokine production. As a novel and potent therapeutic modality, there exists some uncontrollable processes which are the potential sources of adverse events. As an extension of this impactful modality, CAR-T cell-derived exosomes may substitute CAR-T cells to act as ultimate attackers, thereby overcoming some limitations. Exosomes retain most characteristics of parent cells and play an essential role in intercellular communications via transmitting their cargo to recipient cells. The application of CAR-T cell-derived exosomes will make this cell-based therapy more clinically controllable as it also provides a cell-free platform to diversify anticancer mediators, which responds effectively to the complexity and volatility of cancer. It is believed that the appropriate application of both cellular and exosomal platforms will make this effective treatment more practicable.
Highlights
As a breakthrough in the year 2013, cancer immunotherapy marks a turning point in oncology treatment options [1]
In the field of mesenchymal stem cells (MSCs)-mediated gene therapy, MSCs are used as a vehicle to deliver anticancer genes, the intracellular anticancer gene products must be produced in MSCs and secreted into extracellular space and penetrate into adjacent tumor cells passing through biological membrane, which is a natural barrier for most macromolecules including peptides and proteins
The extent of cytokine release from Chimeric antigen receptor (CAR)-T cells and the status of in vivo expansion of these cells cannot be appropriately controlled, which is the potential source of adverse events, such as cytokine release syndrome (CRS), cytokine storm and “ontarget, off-tumor” response
Summary
As a breakthrough in the year 2013, cancer immunotherapy marks a turning point in oncology treatment options [1]. We www.impactjournals.com/oncotarget outline the general information of exosomes and CARbased T-cell adoptive immunotherapy and focus on the therapeutic potential of CAR-T cell-derived exosomes in a cancer treatment model. Once expressed in T cells, the CAR-T cells acquire potent antigen-targeted cytotoxic activity and act as “living drugs” applied as cancer therapy.
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