Abstract
BackgroundHigh-grade non-muscle invasive bladder cancer (NMIBC) has a high risk of recurrence and progression to muscle-invasive forms, which seems to be largely related to the presence of tumorigenic stem-like cell populations that are refractory to conventional therapies. Here, we evaluated the therapeutic potential of Natural Killer (NK) cell-based adoptive immunotherapy against chemoresistant bladder cancer stem-like cells (CSCs) in a pre-clinical relevant model, using NK cells from healthy donors and NMIBC patients.MethodsCytokine-activated NK cells from healthy donors and from high-grade NMIBC patients were phenotypically characterized and assayed in vitro against stem-like and bulk differentiated bladder cancer cells. Stem-like cells were isolated from two bladder cancer cell lines using the sphere-forming assay. The in vivo therapeutic efficacy was evaluated in mice bearing a CSC-induced orthotopic bladder cancer. Animals were treated by intravesical instillation of interleukin-activated NK cells. Tumor response was evaluated longitudinally by non-invasive bioluminescence imaging.ResultsNK cells from healthy donors upon activation with IL-2 and IL-15 kills indiscriminately both stem-like and differentiated tumor cells via stress ligand recognition. In addition to cell killing, NK cells shifted CSCs towards a more differentiated phenotype, rendering them more susceptible to cisplatin, highlighting the benefits of a possible combined therapy. On the contrary, NK cells from NMIBC patients displayed a low density on NK cytotoxicity receptors, adhesion molecules and a more immature phenotype, losing their ability to kill and drive differentiation of CSCs. The local administration, via the transurethral route, of activated NK cells from healthy donors provides an efficient tumor infiltration and a subsequent robust tumoricidal activity against bladder cancer with high selective cytolytic activity against CSCs, leading to a dramatic reduction in tumor burden from 80 % to complete remission.ConclusionAlthough pre-clinical, our results strongly suggest that an immunotherapeutic strategy using allogeneic activated NK cells from healthy donors is effective and should be exploited as a complementary therapeutic strategy in high-risk NMIBC patients to prevent tumor recurrence and progression.Electronic supplementary materialThe online version of this article (doi:10.1186/s12916-016-0715-2) contains supplementary material, which is available to authorized users.
Highlights
High-grade non-muscle invasive bladder cancer (NMIBC) has a high risk of recurrence and progression to muscle-invasive forms, which seems to be largely related to the presence of tumorigenic stem-like cell populations that are refractory to conventional therapies
Activated-Natural Killer (NK) cells from healthy donors are highly effective against chemoresistant bladder cancer stem-like cells The functional activity of NK cells from HDs against parental cells and CSCs was evaluated by measuring CD107a degranulation, release of cytokines, and lysis of target cells following a 4 h co-culture period
Adoptive transfer of healthy activated-NK cells display anti-tumor activity in bladder cancer xenografted models Given the considerable low cytotoxic activity of NK cells from Bladder cancer (BC) patients, we focused on the anti-tumoral activity of NK cells from HD in animal models induced by xenotransplantation of HT-1376 cells
Summary
High-grade non-muscle invasive bladder cancer (NMIBC) has a high risk of recurrence and progression to muscle-invasive forms, which seems to be largely related to the presence of tumorigenic stem-like cell populations that are refractory to conventional therapies. We evaluated the therapeutic potential of Natural Killer (NK) cell-based adoptive immunotherapy against chemoresistant bladder cancer stem-like cells (CSCs) in a pre-clinical relevant model, using NK cells from healthy donors and NMIBC patients. The majority of the newly diagnosed cases are non-muscle-invasive tumors (NMIBC), up to 80 % recur and a significant part progresses to therapy refractory muscle-invasive forms (MIBC) [3, 4]. Evidence from other groups supports our findings, reinforcing the hypothesis of a driver role of those cells in the frequent relapses of BC, as well as a fuel to the progression towards invasive forms [6, 7]. The development of therapeutic strategies aimed to target cancer stemness is essential to prevent tumor relapse and progression, and represents an important challenge in BC management
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