Generation and application of human induced-stem cell memory T cells for adoptive immunotherapy.
Taisuke KondoYuki ImuraShunsuke ChikumaSana HibinoSetsuko Omata-MiseMakoto AndoTakashi AkanumaMana IizukaRyota SakaiRimpei MoritaAkihiko YoshimuraPublished in: Cancer science (2018)
Adoptive T-cell therapy is an effective strategy for cancer immunotherapy. However, infused T cells frequently become functionally exhausted, and consequently offer a poor prognosis after transplantation into patients. Adoptive transfer of tumor antigen-specific stem cell memory T (TSCM ) cells is expected to overcome this shortcoming as TSCM cells are close to naïve T cells, but are also highly proliferative, long-lived, and produce a large number of effector T cells in response to antigen stimulation. We previously reported that activated effector T cells can be converted into TSCM -like cells (iTSCM ) by coculturing with OP9 cells expressing Notch ligand, Delta-like 1 (OP9-hDLL1). Here we show the methodological parameters of human CD8+ iTSCM cell generation and their application to adoptive cancer immunotherapy. Regardless of the stimulation by anti-CD3/CD28 antibodies or by antigen-presenting cells, human iTSCM cells were more efficiently induced from central memory type T cells than from effector memory T cells. During the induction phase by coculture with OP9-hDLL1 cells, interleukin (IL)-7 and IL-15 (but not IL-2 or IL-21) could efficiently generate iTSCM cells. Epstein-Barr virus-specific iTSCM cells showed much stronger antitumor potentials than conventionally activated T cells in humanized Epstein-Barr virus transformed-tumor model mice. Thus, adoptive T-cell therapy with iTSCM offers a promising therapeutic strategy for cancer immunotherapy.
Keyphrases
- cell therapy
- induced apoptosis
- stem cells
- cell cycle arrest
- epstein barr virus
- poor prognosis
- endoplasmic reticulum stress
- endothelial cells
- chronic kidney disease
- diffuse large b cell lymphoma
- working memory
- regulatory t cells
- long non coding rna
- end stage renal disease
- dendritic cells
- metabolic syndrome
- peritoneal dialysis
- pluripotent stem cells