Chemical genetic control of cytokine signaling in CAR-T cells using lenalidomide-controlled membrane-bound degradable IL-7.

CAR-T cell therapy has emerged as a breakthrough therapy for the treatment of relapsed and refractory hematologic malignancies. However, insufficient CAR-T cell expansion and persistence is a leading cause of treatment failure. Exogenous or transgenic cytokines have great potential to enhance CAR-T cell potency but pose the risk of exacerbating toxicities.

Genetic retargeting of E3 ligases to enhance CAR T cell therapy.

Chimeric antigen receptor (CAR) T cell therapies are medical breakthroughs in cancer treatment. However, treatment failure is often caused by CAR T cell dysfunction. Additional approaches are needed to overcome inhibitory signals that limit anti-tumor potency.

SEAKER cells coordinate cellular immunotherapy with localized chemotherapy.

Tumor antigen escape and T cell dysfunction limit the effectiveness of chimeric antigen receptor (CAR) T cell therapies. To overcome these challenges, Gardner et al. engineered synthetic enzyme-armed killer (SEAKER) cells to coexpress a CAR and a prodrug-activating enzyme to orchestrate a dual immunologic and pharmacologic attack at the tumor site.