Low-Dose Irradiation Programs Macrophage Differentiation to an iNOS+/M1 Phenotype that Orchestrates Effective T Cell Immunotherapy

Klug, Felix; Prakash, Hridayesh; Huber, Peter E.; Seibel, Tobias; Bender, Noemi; Halama, Niels; Pfirschke, Christina; Voss, Ralf Holger; Timke, Carmen; Umansky, Ludmila; Klapproth, Kay; Schäkel, Knut; Garbi, Natalio; Jäger, Dirk; Weitz, Jürgen; Schmitz‐Winnenthal, Hubertus; Hämmerling, Günter J.; Beckhove, Philipp

doi:10.1016/j.ccr.2013.09.014

Cited by 842 publications

(686 citation statements)

References 36 publications

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“…In addition to their large number, macrophages have the ability to support vascular normalization, improve T cell recruitment and promote Th1 responses after differentiation into M1 phenotype. 22 Here, we further tested whether macrophages were required for the combined treatment of CisMPs and LDI. To this end, we used clodronate liposomes, a wide used approach, to deplete macrophages.…”

Section: Combination Of Cis-mps and Ldi Generates Better Tumor Treatmmentioning

confidence: 99%

Chemotherapeutic tumor microparticles combining low-dose irradiation reprogram tumor-promoting macrophages through a tumor-repopulating cell-curtailing pathway

et al. 2017

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Stem cell-like tumor-repopulating cells (TRCs) have a critical role in establishing a tumor immunosuppressive microenvironment. However, means to enhance antitumor immunity by disrupting TRCs are absent. Our previous studies have shown that tumor cell-derived microparticles (T-MPs) preferentially abrogate TRCs by delivering antitumor drugs into nuclei of TRCs. Here, we show that low dose irradiation (LDI) enhances the effect of cisplatin-packaging T-MPs (Cis-MPs) on TRCs, leading to inhibiting tumor growth in different tumor models. This antitumor effect is not due to the direct killing of tumor cells but is T cell-dependent and relies on macrophages for their efficacy. The underlying mechanism is involved in therapeutic reprograming macrophages from tumor-promotion to tumorinhibition by disrupting TRCs and curtailing their vicious education on macrophages. These findings provide a novel strategy to reset macrophage polarization and confer their function more like M1 than M2 types with highly promising potential clinical applications.

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Section: Combination Of Cis-mps and Ldi Generates Better Tumor Treatmmentioning

confidence: 99%

Chemotherapeutic tumor microparticles combining low-dose irradiation reprogram tumor-promoting macrophages through a tumor-repopulating cell-curtailing pathway

et al. 2017

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“…The possible mechanisms undergirding these findings are that radiotherapy upregulates tumor-associated antigen-MHC complexes, enhances antigen cross-presentation in the draining lymph node, boosts T cell infiltration into tumors, 42 and promotes tumor-associated macrophage transformation from M2 to M1. 43 At the same time, emerging evidences indicated that low doses of fractionated radiotherapy led to PD-L1 upregulation on tumor cells by recruiting infiltrated lymphocytes in an IFNg-dependent manner, and fractionated radiotherapy delivered in combination with anti PD-1 or anti PD-L1 mAbs generated efficacious CD8 C T-cell responses that improved local tumor control, long-term survival, and protection against tumor re-challenge. 44,45 Although we showed that the PD-1-disrupted LMP2A-CTLs conferred enhanced cytotoxicity to the EBV-positive gastric cancer cell line in vitro, in the xenograft model of EBVaGC, we did not observe augmented tumor regression following treatment of PD-1 disrupted LMP2A-CTL.…”

Section: E1249558-10mentioning

confidence: 99%

CRISPR-Cas9-mediated disruption of PD-1 on human T cells for adoptive cellular therapies of EBV positive gastric cancer

Zou

Chen

et al. 2016

OncoImmunology

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The successful use of immune cell checkpoint inhibitors PD-1 and PD-L1, over the past 5 y has raised the concern of using immunotherapy to treat various cancers. Epstein-Barr virus-associated gastric cancer (EBVaGC) exhibits high infiltration of lymphocytes and high amplification of immune-related genes including PD-L1 as distinguished from Epstein-Barr virus-non-associated gastric cancer (EBVnGC). Here, we presume that this PD-1/PD-L1 pathway may hinder the efficacy of adoptive T cell therapy toward EBVaGC. These studies reveal possibility of generating PD-1-disrupted CTL by CRISPR-Cas9 system and demonstrate enhanced immune response of these PD-1-disrupted CTLs to the EBV-LMP2A antigen and superior cytotoxicity to the EBV-positive gastric cancer cell. In addition, when combined with low-dose radiotherapy, these PD-1-disrupted CTLs mediated an impressive antitumor effect in a xenograft mouse model of EBVaGC. Taken together, these studies illustrate PD-1/PD-L1-mediated immune tolerance of EBVaGC and provide a new strategy for targeting immune checkpoints to break the tolerance for the T cell-based adoptive therapy.

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“…However, recent studies in the tumor stroma showed that high doses of IR (> 8Gy) promote anti-inflammatory activation of macrophages, 20 and low doses (< 2Gy) combined with immunotherapy induce proinflammatory activation of macrophages that favor tumor elimination. 21 These data suggest that there is a direct effect of IR on macrophage activation. Upon activation, macrophages produce bystander signals 9 and play an important role in the development of radiation injury.…”

Section: Macrophage Response To Radiotherapymentioning

confidence: 89%

“…In tumor models, macrophage reprograming using a low dose of IR resulted in an antitumor activity. 21 Accordingly, in IR-induced tissue toxicity, the use of a proinflammatory agent could be a potential strategy to reprogram macrophage polarization and switch the profibrotic profile of macrophages to a more proinflammatory, antifibrotic one.…”

Section: Macrophages Involvement In Radiation-induced Injurymentioning

confidence: 99%

Macrophages in radiation injury: a new therapeutic target

2018

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Low-Dose Irradiation Programs Macrophage Differentiation to an iNOS+/M1 Phenotype that Orchestrates Effective T Cell Immunotherapy

Cited by 842 publications

References 36 publications

Chemotherapeutic tumor microparticles combining low-dose irradiation reprogram tumor-promoting macrophages through a tumor-repopulating cell-curtailing pathway

Chemotherapeutic tumor microparticles combining low-dose irradiation reprogram tumor-promoting macrophages through a tumor-repopulating cell-curtailing pathway

CRISPR-Cas9-mediated disruption of PD-1 on human T cells for adoptive cellular therapies of EBV positive gastric cancer

Macrophages in radiation injury: a new therapeutic target

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