Figure 2: TSCM-based therapeutic interventions for human diseases.
T memory stem cells (TSCM) can be either tamed (left panel) to treat TSCM-driven diseases such as autoimmunity, T-cell leukemia and T-cell tropic infections or exploited (right panel) to potentiate T cell-based immunotherapies against cancer and infectious diseases. Left panel: WNT antagonists or short hairpin RNA (shRNA) targeting key molecules involved in WNT signaling such as T cell factor 7 (TCF7) could be used to disrupt long-lasting, self-renewing TSCM reservoirs by driving them to differentiate into short-lived subsets such as effector memory T cells (TEM). Nanoparticle or aptamer technology could be employed to specifically target CD4+ T cells or virally-infected T cells. Right panel: patient- or donor-derived naïve-like T cells can be used to generate and in vitro expand TSCM with or without gene engineering. Gene modifications include the insertion of tumor or virus-specific chimeric antigen receptor (CAR) or T cell receptor (TCR) genes, tumor or virus-specific TCR gene editing, suicide gene transfer in the context of donor lymphocyte infusion following hematopoietic stem cell transplantation, and CCR5 deletion in the setting of HIV-1 infection. Virus-specific TSCM can also be expanded from the naturally-occurring antigen-specific TCR repertoire through in vitro sensitization protocols favoring the generation of TSCM. TN, naïve T cell; TCM, central memory T cell; APC, antigen presenting cell.