Targeting Autocrine CCL5–CCR5 Axis Reprograms Immunosuppressive Myeloid Cells and Reinvigorates Antitumor Immunity

Y, Ban; Mai, Junhua; Li, Xin; Mitchell-Flack, Marisa; Zhang, Tuo; Zhang, Lixing; Chouchane, Lotfi; Ferrari, Mauro; Shen, Haifa; Ma, Xiaojing

doi:10.1158/0008-5472.can-16-2913

Cited by 126 publications

(105 citation statements)

References 49 publications

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“…Of note, immunosuppressive G‐MDSC accumulation into tumor sites can also rely on host‐derived factors. Ban et al., for example, showed that the altered neutrophil maturation and G‐MDSC accumulation in the primary tumors of 4T1 and PyMT murine breast tumors are controlled by myeloid CCR5 and an autocrine CCR5‐CCL5 axis, but not by tumor‐derived CCL5. In the absence of host CCL5, neutrophils similar to N1 TANs are recruited into tumors .…”

Section: Neutrophil Subsets In Cancermentioning

confidence: 99%

“…Ban et al., for example, showed that the altered neutrophil maturation and G‐MDSC accumulation in the primary tumors of 4T1 and PyMT murine breast tumors are controlled by myeloid CCR5 and an autocrine CCR5‐CCL5 axis, but not by tumor‐derived CCL5. In the absence of host CCL5, neutrophils similar to N1 TANs are recruited into tumors . Taken together, these studies show that functional plasticity exists among neutrophils along their course of maturation during tumorigenesis and tumor progression.…”

Section: Neutrophil Subsets In Cancermentioning

confidence: 99%

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Getting TANned: How the tumor microenvironment drives neutrophil recruitment

SenGupta

Subramanian

Parent

2018

Journal of Leukocyte Biology

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The directed migration of neutrophils to sites of injury or infection is mediated by complex networks of chemoattractant‐receptor signaling cascades. The recent appreciation of neutrophils as active participants in tumor progression and metastasis has drawn attention to a number of chemokine‐receptor systems that may drive their recruitment to tumors. However, the dynamic nature of the tumor microenvironment (TME) along with the phenotypic diversity among tumor‐associated neutrophils (TANs) call for a more comprehensive approach to understand neutrophil trafficking to tumors. Here, we review recent advances in understanding how guidance cues underlie neutrophil migration to primary and secondary tumor sites. We also discuss how the presence of other myeloid cells, such as functionally diverse subsets of tumor‐associated macrophages (TAMs), can further influence neutrophil accumulation in tumors. Finally, we highlight the importance of hypoxia sensing in localizing TAMs and TANs in the tumor niche and provide a cohesive view on how both myeloid cell types shape TME‐associated extracellular matrix organization, which in turn contribute to tumor progression.

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Section: Neutrophil Subsets In Cancermentioning

confidence: 99%

Section: Neutrophil Subsets In Cancermentioning

confidence: 99%

Getting TANned: How the tumor microenvironment drives neutrophil recruitment

SenGupta

Subramanian

Parent

2018

Journal of Leukocyte Biology

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“…Additional cancer neutrophil makers are gaining attention in their ability to distinguish maturation state (c‐kit or CD117, CXCR2, CD101, CCR5), or oxidative and inflammatory activity (lectin‐type oxidized LDL receptor 1 (LOX‐1), CXCR4, CD177) (Fig. ) …”

Section: Markers For Neutrophil Subsets In Cancermentioning

confidence: 99%

“…The tumor phenotype likely regulates the type of neutrophil brought within the tumor microenvironment . Cancer cells and cancer‐supporting fibroblasts can secrete mediators such as IL‐8 and CXCL1/2/5 that recruit mature CXCR2 + neutrophils; c‐kit‐ligand (SCF) that recruits immature c‐kit + neutrophils; or CCL5 that recruits immature CCR5 hi neutrophils . Tumors also release granulopoiesis‐inducing factors such as G‐CSF, SCF, GM‐CSF that support neutrophil production and survival (Fig.…”

Section: Recruitment Of Neutrophils To the Tumor Microenvironmentmentioning

confidence: 99%

The interplay between neutrophils and microbiota in cancer

Smith

Trinchieri

2018

Journal of Leukocyte Biology

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The role of the microbiota in many diseases including cancer has gained increasing attention. Paired with this is our expanding appreciation for the heterogeneity of the neutrophil compartment regarding surface marker expression and functionality. In this review, we will discuss the influence of the microbiota on granulopoiesis and consequent activity of neutrophils in cancer. As evidence for this microbiota-neutrophil-cancer axis builds, it exposes new therapeutic targets to improve a cancer patient's outcome.

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“…[16–21] The released therapeutics can affect not only cancer cells but also immune cells, consequently modifying the tumor microenvironment. [22] Nanotechnology-based cancer vaccines promote rapid expansion of tumor-specific T cells, and various forms of nanoparticles (NPs) have been utilized in the generation of therapeutic T cells for adoptive T cell therapies. Furthermore, multiple laboratories have applied nanotechnology-based approaches to unleash the activities of TILs by suppressing the activities of immune checkpoint inhibitor proteins, regulatory T (Treg) cells, and immunosuppressive myeloid cells (IMCs), by mimicking tumor-associated leukocytes, and by altering the tumor extracellular matrix (ECM).…”

Section: Introductionmentioning

confidence: 99%