CD47-SIRPα Checkpoint Inhibition Enhances Neutrophil-Mediated Killing of Dinutuximab-Opsonized Neuroblastoma Cells

Martinez-Sanz, Paula; Hoogendijk, Arjan J.; Verkuijlen, Paul; Schornagel, Karin; Bruggen, Robin van; Berg, Timo K. van den; Tytgat, Godelieve A.M.; Franke, Katka; Kuijpers, Taco W.; Matlung, Hanke L.

doi:10.3390/cancers13174261

Cited by 19 publications

(22 citation statements)

References 57 publications

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“…In a variety of neuroblastoma cell lines, knocking down CD47 or blocking SIRPa on neutrophils increased the neutrophil-mediated ADCC induced by dinutuximab (anti-GD2 antibody). Blocking the CD47-SIRPa interaction also increased ADCC capacity in primary patientderived neuroblastoma spheroid cells as long as GD2 expression was sufficient, once again highlighting the relevance of combination therapy (Figure 4) (171,172). Furthermore, anti-CD47 monoclonal antibodies were shown to work synergistically with trastuzumab to improve neutrophil ADCC against breast cancer cell lines (28,152).…”

Section: Combining Myeloid Checkpoint Inhibition With Iga Antibodies ...mentioning

confidence: 89%

Targeting Myeloid Checkpoint Molecules in Combination With Antibody Therapy: A Novel Anti-Cancer Strategy With IgA Antibodies?

et al. 2022

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Immunotherapy with therapeutic antibodies has shown a lack of durable responses in some patients due to resistance mechanisms. Checkpoint molecules expressed by tumor cells have a deleterious impact on clinical responses to therapeutic antibodies. Myeloid checkpoints, which negatively regulate macrophage and neutrophil anti-tumor responses, are a novel type of checkpoint molecule. Myeloid checkpoint inhibition is currently being studied in combination with IgG-based immunotherapy. In contrast, the combination with IgA-based treatment has received minimal attention. IgA antibodies have been demonstrated to more effectively attract and activate neutrophils than their IgG counterparts. Therefore, myeloid checkpoint inhibition could be an interesting addition to IgA treatment and has the potential to significantly enhance IgA therapy.

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Section: Combining Myeloid Checkpoint Inhibition With Iga Antibodies ...mentioning

confidence: 89%

Targeting Myeloid Checkpoint Molecules in Combination With Antibody Therapy: A Novel Anti-Cancer Strategy With IgA Antibodies?

et al. 2022

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“…Beyond oxidative stress, neutrophils utilize additional ammunition to kill tumor cells, including granule enzymes such as elastase ( Cui et al, 2021 ) or cathepsin-G ( Sionov et al, 2019 ). In addition, neutrophils can kill antibody-opsonized tumor cells via trogocytosis ( Bouti et al, 2021 ; Martinez Sanz et al, 2021 ; Martínez-Sanz et al, 2021 ; Matlung et al, 2018 ), which could translate to tumor-targeting antibody therapeutics. These studies suggest that harnessing neutrophil tumoricidal functions, including innate immune checkpoints ( Matlung et al, 2017 ), may help combat cancer.…”

Section: The Unheeded Complexity Of Neutrophil Heterogeneity In Cancermentioning

confidence: 99%

“…Notably, neutrophils promote almost every aspect of cancer progression, such as primary tumor growth and metastasis ( Coffelt et al, 2015 ; Cools-Lartigue et al, 2013 ; Demers et al, 2016 ; El Rayes et al, 2015 ; Engblom et al, 2017 ; Gershkovitz et al, 2018a ; Park et al, 2016 ; Quail et al, 2017 ; Yang et al, 2020 ), cancer stem cell maintenance ( Wculek and Malanchi, 2015 ), exit from dormancy and cell cycle progression ( Albrengues et al, 2018 ; Houghton et al, 2010 ; Szczerba et al, 2019 ), impaired immunosurveillance ( Casbon et al, 2015 ; Shaul et al, 2021 ; Spiegel et al, 2016 ; Veglia et al, 2019 ; Yajuk et al, 2021 ), and therapeutic resistance ( Salvagno et al, 2019 ; Siwicki et al, 2021 ; Wisdom et al, 2019 ). Nevertheless, other studies have found that neutrophils can have an anti-tumorigenic role, including cytotoxicity against tumor cells ( Bouti et al, 2021 ; Cui et al, 2021 ; Gershkovitz et al, 2018a ; Gershkovitz et al, 2018b ; Hirschhorn-Cymerman et al, 2020 ; Martinez Sanz et al, 2021 ; Martínez-Sanz et al, 2021 ; Matlung et al, 2018 ) and enhanced tumor cell clearance ( Blaisdell et al, 2015 ; Eruslanov et al, 2014 ; Singhal et al, 2016 ), particularly in early-stage disease. Given the discordant mechanisms by which neutrophils can influence cancer, it is apparent that we lack a fundamental understanding of how neutrophil biology shifts in the context of malignancy.…”

Section: Introductionmentioning

confidence: 99%

Neutrophil phenotypes and functions in cancer: A consensus statement

Quail

Amulic

Aziz

et al. 2022

Journal of Experimental Medicine

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184

125

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Neutrophils are the first responders to infection and inflammation and are thus a critical component of innate immune defense. Understanding the behavior of neutrophils as they act within various inflammatory contexts has provided insights into their role in sterile and infectious diseases; however, the field of neutrophils in cancer is comparatively young. Here, we summarize key concepts and current knowledge gaps related to the diverse roles of neutrophils throughout cancer progression. We discuss sources of neutrophil heterogeneity in cancer and provide recommendations on nomenclature for neutrophil states that are distinct in maturation and activation. We address discrepancies in the literature that highlight a need for technical standards that ought to be considered between laboratories. Finally, we review emerging questions in neutrophil biology and innate immunity in cancer. Overall, we emphasize that neutrophils are a more diverse population than previously appreciated and that their role in cancer may present novel unexplored opportunities to treat cancer.

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“…In vitro, macrophages can eliminate various opsonized solid [ 159 , 160 , 161 , 162 , 163 , 164 , 165 ] and hematological cancer [ 64 , 156 , 166 , 167 ] cell types via ADCP, which can be further promoted by treatment with anti-CD47 mAbs. Similarly, anti-CD47 mAbs enhance neutrophil-mediated ADCC of solid cancers in vitro, such as neuroblastoma [ 168 ]. However, it appears that neutrophils are less capable of killing hematologic cancer cells, and blockade of the CD47-SIRPα axis with anti-CD47 mAbs is not enough to promote tumor elimination.…”

Section: Cd47-sirpα As An Innate Immune Checkpoint In Neutrophil-medi...mentioning

confidence: 99%

Targeting the CD47-SIRPα Innate Immune Checkpoint to Potentiate Antibody Therapy in Cancer by Neutrophils

Behrens

Berg

Egmond

2022

Cancers

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In the past 25 years, a considerable number of therapeutic monoclonal antibodies (mAb) against a variety of tumor-associated antigens (TAA) have become available for the targeted treatment of hematologic and solid cancers. Such antibodies opsonize cancer cells and can trigger cytotoxic responses mediated by Fc-receptor expressing immune cells in the tumor microenvironment (TME). Although frequently ignored, neutrophils, which are abundantly present in the circulation and many cancers, have demonstrated to constitute bona fide effector cells for antibody-mediated tumor elimination in vivo. It has now also been established that neutrophils exert a unique mechanism of cytotoxicity towards antibody-opsonized tumor cells, known as trogoptosis, which involves Fc-receptor (FcR)-mediated trogocytosis of cancer cell plasma membrane leading to a lytic/necrotic type of cell death. However, neutrophils prominently express the myeloid inhibitory receptor SIRPα, which upon interaction with the ‘don’t eat me’ signal CD47 on cancer cells, limits cytotoxicity, forming a mechanism of resistance towards anti-cancer antibody therapeutics. In fact, tumor cells often overexpress CD47, thereby even more strongly restricting neutrophil-mediated tumor killing. Blocking the CD47-SIRPα interaction may therefore potentiate neutrophil-mediated antibody-dependent cellular cytotoxicity (ADCC) towards cancer cells, and various inhibitors of the CD47-SIRPα axis are now in clinical studies. Here, we review the role of neutrophils in antibody therapy in cancer and their regulation by the CD47-SIRPα innate immune checkpoint. Moreover, initial results of CD47-SIRPα blockade in clinical trials are discussed.

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CD47-SIRPα Checkpoint Inhibition Enhances Neutrophil-Mediated Killing of Dinutuximab-Opsonized Neuroblastoma Cells

Cited by 19 publications

References 57 publications

Targeting Myeloid Checkpoint Molecules in Combination With Antibody Therapy: A Novel Anti-Cancer Strategy With IgA Antibodies?

Targeting Myeloid Checkpoint Molecules in Combination With Antibody Therapy: A Novel Anti-Cancer Strategy With IgA Antibodies?

Neutrophil phenotypes and functions in cancer: A consensus statement

Targeting the CD47-SIRPα Innate Immune Checkpoint to Potentiate Antibody Therapy in Cancer by Neutrophils

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