Nanotechnology-Assisted CAR-T-Cell Therapy for Tumor Treatment.

The adoptive transfer of T cells redirected by chimeric antigen receptors (CARs) has made a dramatic breakthrough in defeating hematological malignancies. However, in solid tumor treatment, CAR-T-cell therapy has attained limited therapeutic benefits due to insufficient infiltration and expansion, rapidly diminishing function following adoptive transfer, and severe life-threatening toxicities. To address these challenges, advancements in nanotechnology have utilized innovative approaches to devise stronger CAR-T cells with reduced toxicity and enhanced anti-tumor activity. Equipping CAR-T cells with multifunctional nanoparticles can abrogate immunosuppressive signaling in the tumor area, augment the functions of CAR-T cells, and mitigate their toxicity against normal tissues. Additionally, nanoparticle-mediated CAR-T-cell programming has the potential to optimize manufacturing and lower the cost for the broader implementation of CAR-T-cell therapy. In this review, we introduce the obstacles to be surmounted in CAR-T-cell therapy, highlight the nanotechnology-based strategies that aim to enrich the therapeutic applications of CAR-T-cell therapy, and envision the prospect of nanoparticle-assisted CAR-T-cell therapy.