Abstract
Simple SummaryHematopoietic stem cell transplantation (HSCT) causes early immune deficiency and susceptibility to both opportunistic infections and cancer relapse. In this study, using a mouse model where donor cells can be tracked over time, we have observed that the combination of IL-2 (a cytokine which activates the immune system) combined with the blockade of TGF-β (a cytokine which suppresses the immune system) increased immune recovery and resulted in greater anti-tumor efficacy. The combination of IL-2 and anti-TGF-β accelerated NK cell and myeloid cell reconstitution after HSCT.The failure of autologous hematopoietic stem cell transplantation (HSCT) has been associated with a profound immunodeficiency that follows shortly after treatment, which renders patients susceptible to opportunistic infections and/or cancer relapse. Thus, given the additional immunosuppressive pathways involved in immune evasion in cancer, strategies that induce a faster reconstitution of key immune effector cells are needed. Natural killer (NK) cells mediate potent anti-tumor effector functions and are the first immune cells to repopulate after HSCT. TGF-β is a potent immunosuppressive cytokine that can impede both the development and function of immune cells. Here, we evaluated the use of an immunotherapeutic regimen that combines low dose of IL-2, an NK cell stimulatory signal, with TGF-β neutralization, in order to accelerate NK cell reconstitution following congenic HSCT in mice by providing stimulatory signals yet also abrogating inhibitory ones. This therapy led to a marked expansion of NK cells and accelerated NK cell maturation. Following HSCT, mature NK cells from the treated recipients displayed an activated phenotype and enhanced anti-tumor responses both in vitro and in vivo. No overt toxicities or adverse effects were observed in the treated recipients. However, these stimulatory effects on NK cell recovery were predicated upon continuous treatment as cessation of treatment led to return to baseline levels and to no improvement of overall immune recovery when assessed at later time-points, indicating strict regulatory control of the NK cell compartment. Overall, this study still demonstrates that therapies that combine positive and negative signals can be plausible strategies to accelerate NK cell reconstitution following HSCT and augment anti-tumor efficacy.
Highlights
Hematopoietic stem cell transplantation (HSCT), both autologous or allogeneic is used to treat a variety of hematological malignancies, such as leukemia or lymphoma [1]
Because Natural killer (NK) cell recovery after HSCT has been shown to begin around day 7 post-HSCT, we initiated immunotherapy at this time to ensure the benefits of the therapy on NK cells as other immune cells present at earlier time points post-HSCT could be expanded by IL-2 as well
The results showed that only the combination therapy (CT) group demonstrated significant increases in survival (Figure 5H) demonstrating the accelerated NK cell recovery and activity could result in increased anti-tumor efficacy of HSCT
Summary
Hematopoietic stem cell transplantation (HSCT), both autologous or allogeneic is used to treat a variety of hematological malignancies, such as leukemia or lymphoma [1]. Despite the benefits that this therapy has shown with hematologic cancers, there still are significant obstacles associated with it limiting efficacy including opportunistic infections such as CMV reactivation, cancer relapse and susceptibility to opportunistic infections due to a profound state of immune deficiency following the transplant. With allogeneic HSCT, the occurrence of graft-versus-host disease (GvHD), which accounts for a significant degree of the HSCT-related mortality and morbidity necessitating immunosuppression [1,2]. Given these shortcomings associated with HSCT, the development of means to accelerate immune reconstitution post-transplant may significantly impact outcomes, with relapse. Despite significant progress in NK cell expansion ex vivo, clinical benefits from NK cell adoptive transfer therapy has been rather limited [4,5], possibly due to suppressor mechanisms, issues with the short life-span of NK cells, lack of optimization of NK cell transfer conditions or immune evasion
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