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1.
bioRxiv ; 2024 Jul 12.
Artigo em Inglês | MEDLINE | ID: mdl-39026718

RESUMO

BACKGROUND: High-risk neuroblastoma (HR-NBL) is an aggressive tumor of the sympathetic nervous system with high risk of relapse and poor overall survival. Allogeneic hematopoietic cell transplant (allo-HCT) has been used previously in HR-NBL patients; however, graft-versus-host-disease (GVHD) and disease progression have limited clinical application. Ex-vivo stimulated allogeneic natural killer (NK) cells represent a potential approach to enhance the graft-versus-tumor (GVT) effect without exacerbation of GVHD but have not shown efficacy in NBL. METHODS: Ex-vivo stimulated NK cells from C57BL/6NCr (B6) mice were expanded with soluble IL-15/IL-15Rα alone or with irradiated CD137L/CD54+ AgN2a-4P (15-4P) at a 1:1 ratio for 10-12 days. Allogeneic NK cells were then analyzed for activation, proliferation, cytokine production, and cytotoxicity against two murine NBL cell lines, Neuro2a and NXS2, in the absence or presence of anti-TIM-3. Lethally irradiated B6AJF1 Mice received allo-HCT from B6 donors followed by NBL challenge after 7 days to mimic tumor relapse. Select groups received anti-TIM-3 starting on day 9 for every 4 days with/without infusions of 15-4P B6 NK cells on days 14, 21, and 28. In select experiments, T cell and NK cells were selectively depleted to establish their contribution to the GVT effect. All groups were analyzed for tumor growth, GVHD and overall survival. RESULTS: Co-culturing NK cells with 15-4P results in 78-fold expansion with increased expression of Ki-67 and NKG2D, NKp46, TRAIL and TIM-3. 15-4P stimulated allogeneic NK cells showed enhanced cytotoxicity against NBL compared to IL-15 NK cells alone but was limited in part due to high expression of TIM-3 ligands on Neuro-2a compared to NXS2. The addition of TIM-3 blockade further enhanced NK cytotoxicity versus Neuro-2a, with enhanced 15-4P NK cell degranulation, Eomes, TRAIL and FasL expression observed. Analysis of RNA from 15-4P NK cells exposed to TIM-3 blockade showed gene expression of chemokines, NKG2D/DAP12 signaling, non-canonical NF-κb pathway and TRAIL signaling. Blockade of NKG2D, TRAIL or FasL on 15-4P NK cells abrogated cytotoxicity. In vivo, the combination of 15-4P stimulated allogeneic NK cells and TIM-3 blockade after allo-HCT resulted in prolonged survival against NBL with decreased tumor burden compared to NK cells or anti-TIM-3 alone, without inducing GVHD. Depletion of NK cells, but not T cells, abrogated the GVT effect. CONCLUSION: Allo-HCT can be a platform for treating NBL using combination ex-vivo stimulated allogeneic NK cell therapy with TIM-3 blockade to enhance the GVT effect without inducing GVHD.

2.
bioRxiv ; 2024 Jan 06.
Artigo em Inglês | MEDLINE | ID: mdl-37333207

RESUMO

Background: Osteosarcoma (OS) patients that present with metastatic disease have a poor prognosis and no curative options. Allogeneic bone marrow transplant (alloBMT) is curative for hematologic malignancies through the graft-versus-tumor (GVT) effect, but to date has been ineffective for solid tumors like OS. CD155 is expressed on OS and interacts strongly with the inhibitory receptors TIGIT and CD96 but also binds to the activating receptor DNAM-1 on natural killer (NK) cells but has never been targeted after alloBMT. Combining adoptive transfer of allogeneic NK (alloNK) cells with CD155 checkpoint blockade after alloBMT may enhance a GVT effect against OS but could enhance toxicities like graft-versus-host-disease (GVHD). Methods: Ex vivo activated and expanded murine NK cells were generated with soluble IL-15/IL- 15Rα. AlloNK and syngeneic NK (synNK) cell phenotype, cytotoxicity, cytokine production, and degranulation against the CD155-expressing murine OS cell line K7M2 were assessed in vitro. Mice bearing pulmonary OS metastases underwent alloBMT followed by infusion of alloNK cells with combinations of anti-CD155 and anti-DNAM-1 blockade. Tumor growth, GVHD and survival were monitored and differential gene expression of lung tissue was assessed by RNA microarray. Results: AlloNK cells exhibited superior cytotoxicity against CD155-expressing OS compared to synNK cells, and this activity was further enhanced by CD155 blockade. CD155 blockade increased alloNK cell degranulation and interferon gamma production through DNAM-1, as these functions were abrogated during DNAM-1 blockade. In vivo, CD155 blockade after alloBMT increased EFS with no exacerbation of GVHD. Treatment with combination CD155 and DNAM-1 blockade ameliorated survival and tumor control benefits seen with CD155 blockade alone. In mice treated with CD155 blockade, genes related to NK cell cytotoxicity were upregulated. DNAM-1 blockade resulted in upregulation of NK cell inhibition. Conclusions: These results demonstrate the safety and efficacy of infusing alloNK cells with CD155 blockade to mount a GVT effect against OS and show benefits are in part through DNAM-1. Defining the hierarchy of receptors that govern alloNK responses will be critical to translating combination adoptive NK cell and immune checkpoint inhibition for patients with solid tumors treated with alloBMT. WHAT IS ALREADY KNOWN ON THIS TOPIC: Allogeneic bone marrow transplant (alloBMT) has yet to show efficacy in treating solid tumors, such as osteosarcoma (OS). CD155 is expressed on OS and interacts with natural killer (NK) cell receptors, such as activating receptor DNAM-1 and inhibitory receptors TIGIT and CD96 and has a dominant inhibitory effect on NK cell activity. Targeting CD155 interactions on allogeneic NK cells could enhance anti-OS responses, but this has not been tested after alloBMT. WHAT THIS STUDY ADDS: CD155 blockade enhances allogeneic natural killer cell-mediated cytotoxicity against osteosarcoma and improved event-free survival after alloBMT in an in vivo mouse model of metastatic pulmonary OS. Addition of DNAM-1 blockade abrogated CD155 blockade-enhanced allogeneic NK cell antitumor responses. HOW THIS STUDY MIGHT AFFECT RESEARCH PRACTICE OR POLICY: These results demonstrate efficacy of allogeneic NK cells combined with CD155 blockade to mount an antitumor response against CD155-expressing OS. Translation of combination adoptive NK cell and CD155 axis modulation offers a platform for alloBMT treatment approaches for pediatric patients with relapsed and refractory solid tumors.

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