Tamir Zelter scite author profile

Neutrophils are a heterogeneous population of myeloid cells which may either promote or hinder tumor growth and progression. Anti-tumor neutrophils have the capacity to kill tumor cells in a contactdependent manner. However, the molecular mechanisms underlying tumor cell recognition by neutrophils remained unexplored. Tumor cells were shown to express aberrant glycosylation patterns and neutrophils are equipped with receptors capable of recognizing such glycosylations. Accordingly, we hypothesized that the receptor for advanced glycation end products (RAGE) may facilitate neutrophil recognition of tumor cells. Indeed, RAGE decoy receptors and RAGE-specific blocking antibodies dramatically reduce tumor cell susceptibility to neutrophil cytotoxicity. Unexpectedly, we found that tumor cell RAGE rather than neutrophil RAGE is important for the killing process. We further identified neutrophil Cathepsin G as the neutrophil component interacting with tumor cell RAGE. Cathepsin G-deficient neutrophils show impaired ability to kill tumor cells, suggesting that RAGE-Cathepsin G interaction is required for neutrophil cytotoxicity. These data unravel new aspects of neutrophil antitumor activity and identify a novel role for RAGE and Cathepsin G in neutrophil-mediated cytotoxicity. ARTICLE HISTORY

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The PD-L1/PD-1 Axis Blocks Neutrophil Cytotoxicity in Cancer

Yajuk

Baron

Toker

et al. 2021

Cells

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The PD-L1/PD-1 axis mediates immune tolerance and promotes tumor growth and progression via the inhibition of anti-tumor immunity. Blocking the interaction between PD-L1 and PD-1 was clinically shown to be beneficial in maintaining the anti-tumor functions of the adaptive immune system. Still, the consequences of blocking the PD-L1/PD-1 axis on innate immune responses remain largely unexplored. In this context, neutrophils were shown to consist of distinct subpopulations, which possess either pro- or anti-tumor properties. PD-L1-expressing neutrophils are considered pro-tumor as they are able to suppress cytotoxic T cells and are propagated with disease progression. That said, we found that PD-L1 expression is not limited to tumor promoting neutrophils, but is also evident in anti-tumor neutrophils. We show that neutrophil cytotoxicity is effectively and efficiently blocked by tumor cell-expressed PD-1. Furthermore, the blocking of either neutrophil PD-L1 or tumor cell PD-1 maintains neutrophil cytotoxicity. Importantly, we show that tumor cell PD-1 blocks neutrophil cytotoxicity and promotes tumor growth via a mechanism independent of adaptive immunity. Taken together, these findings highlight the therapeutic potential of enhancing anti-tumor innate immune responses via blocking of the PD-L1/PD-1 axis.

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TRPM2 modulates neutrophil attraction to murine tumor cells by regulating CXCL2 expression

Gershkovitz

Fainsod-Levi

Zelter

et al. 2018

Cancer Immunol Immunother

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Neutrophils impose strong immune pressure against PfEMP1 variants implicated in cerebral malaria

Zelter

Strahilevitz

Simantov³

et al. 2022

EMBO Reports

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Plasmodium falciparum, the deadliest form of human malaria, remains one of the major threats to human health in endemic regions. Its virulence is attributed to its ability to modify infected red blood cells (iRBC) to adhere to endothelial receptors by placing variable antigens known as PfEMP1 on the iRBC surface. PfEMP1 expression determines the cytoadhesive properties of the iRBCs and is implicated in severe malaria. To evade antibody-mediated responses, the parasite undergoes continuous switches of expression between different PfEMP1 variants. Recently, it became clear that in addition to antibody-mediated responses, PfEMP1 triggers innate immune responses; however, the role of neutrophils, the most abundant white blood cells in the human circulation, in malaria remains elusive. Here, we show that neutrophils recognize and kill blood-stage P. falciparum isolates. We identify neutrophil ICAM-1 and specific PfEMP1 implicated in cerebral malaria as the key molecules involved in this killing. Our data provide mechanistic insight into the interactions between neutrophils and iRBCs and demonstrate the important influence of PfEMP1 on the selective innate response to cerebral malaria.

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Neutrophils impose strong selective pressure against PfEMP1 variants implicated in cerebral malaria

Zelter

Strahilevitz

Simantov³

et al. 2021

Preprint

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Plasmodium falciparum, the deadliest form of human malaria, remains one of the major threats to human health in endemic regions. Its virulence is attributed to its ability to modify infected red blood cells (iRBC) to adhere to endothelial receptors by placing variable antigens known as PfEMP1 on the surface of the red cell. PfEMP1 expression on the red cell surface determines the cytoadhesive properties of the iRBCs and is implicated in severe manifestations of malaria. To evade antibody mediated responses the parasite undergoes continuous switches of expression between different PfEMP1 variants. Recently it became clear that in addition to antibody mediated responses, PfEMP1 triggers an innate immune response, however, the role of neutrophils, the most abundant white blood cells in the human circulation, in malaria remains elusive. Here we show that neutrophils recognize and kill blood stages of several P. falciparum isolates, and we identify neutrophil ICAM-1 and specific PfEMP1s implicated in cerebral malaria as the key molecules involved in this killing. Our data provide mechanistic insight into the interactions between neutrophils and iRBCs and demonstrate the important influence of PfEMP1 on the selective innate response to cerebral malaria.

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Tamir Zelter

Neutrophil Cathepsin G and Tumor Cell RAGE Facilitate Neutrophil Anti-Tumor Cytotoxicity

The PD-L1/PD-1 Axis Blocks Neutrophil Cytotoxicity in Cancer

TRPM2 modulates neutrophil attraction to murine tumor cells by regulating CXCL2 expression

Neutrophils impose strong immune pressure against PfEMP1 variants implicated in cerebral malaria

Neutrophils impose strong selective pressure against PfEMP1 variants implicated in cerebral malaria

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