Merav E. Shaul scite author profile

OBJECTIVETo identify, localize, and determine M1/M2 polarization of epidydimal adipose tissue (eAT) macrophages (Φs) during high-fat diet (HFD)-induced obesity.RESEARCH DESIGN AND METHODSMale C57BL/6 mice were fed an HFD (60% fat kcal) or low-fat diet (LFD) (10% fat kcal) for 8 or 12 weeks. eATMΦs (F4/80+ cells) were characterized by in vivo fluorescent labeling, immunohistochemistry, fluorescence-activated cell sorting, and quantitative PCR.RESULTSRecruited interstitial macrophage galactose-type C-type lectin (MGL)1+/CD11c− and crown-like structure–associated MGL1−/CD11c+ and MGL1med/CD11c+ eATMΦs were identified after 8 weeks of HFD. MGL1med/CD11c+ cells comprised ∼65% of CD11c+ eATMΦs. CD11c+ eATMΦs expressed a mixed M1/M2 profile, with some M1 transcripts upregulated (IL-12p40 and IL-1β), others downregulated (iNOS, caspase-1, MCP-1, and CD86), and multiple M2 and matrix remodeling transcripts upregulated (arginase-1, IL-1Ra, MMP-12, ADAM8, VEGF, and Clec-7a). At HFD week 12, each eATMΦ subtype displayed an enhanced M2 phenotype as compared with HFD week 8. CD11c+ subtypes downregulated IL-1β and genes mediating antigen presentation (I-a, CD80) and upregulated the M2 hallmark Ym-1 and genes promoting oxidative metabolism (PGC-1α) and adipogenesis (MMP-2). MGL1med/CD11c+ eATMΦs upregulated additional M2 genes (IL-13, SPHK1, CD163, LYVE-1, and PPAR-α). MGL1med/CD11c+ ATMΦs expressing elevated PGC-1α, PPAR-α, and Ym-1 transcripts were selectively enriched in eAT of obese mice fed pioglitazone for 6 days, confirming the M2 features of the MGL1med/CD11c+ eATMΦ transcriptional profile and implicating PPAR activation in its elicitation.CONCLUSIONSThese results 1) redefine the phenotypic potential of CD11c+ eATMΦs and 2) suggest previously unappreciated phenotypic and functional commonality between murine and human ATMΦs in the development of obesity and its complications.

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Tumor-associated neutrophils display a distinct N1 profile following TGFβ modulation: A transcriptomics analysis of pro- vs. antitumor TANs

Shaul

et al. 2016

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It is becoming increasingly clear that tumor-associated neutrophils (TANs) play an important role in cancer biology, through direct impact on tumor growth and by recruitment of other cells types into the tumor. The function of neutrophils in cancer has been the subject of seemingly contradicting reports, pointing toward a dual role played by TANs in tumor progression. The existence of multiple neutrophil subsets, as well as phenotypic modulation of the neutrophils by various factors in the tumor microenvironment, has been shown. TGFb plays a significant role in the determination of neutrophils' phenotype, by shifting the balance from an antitumor (N1) toward a more permissive (N2) phenotype. The full range of mechanisms responsible for the pro-vs. antitumor effects of TANs has not yet been elucidated. Therefore, the ability to identify the different neutrophil subpopulations in the tumor is critical in order to understand TANs evolution and contribution throughout tumor progression. Using a transcriptomic approach, we identified alternations in gene expression profile following TGFb inhibition. We show that N1 and N2 TANs represent distinct subpopulations with different transcriptional signatures and both differ from naive bone marrow neutrophils. The analysis highlights a clear difference in pathways involved in neutrophil function such as cytoskeletal organization and antigen presentation, as well as alterations in chemokine profile, eventually affecting their effect on tumor cells and tumor growth. These data highlights several potential new pathways and mechanisms by which neutrophils can influence both the tumor cells and the adaptive immune system.

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T‐Cell Recruitment and Th1 Polarization in Adipose Tissue During Diet‐Induced Obesity in C57BL/6 Mice

Strissel

DeFuria

Shaul

et al. 2010

Obesity

224

190

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The role of adaptive immunity in obesity-associated adipose tissue (AT) inflammation and insulin resistance (IR) is controversial. We employed flow cytometry and quantitative PCR to assess T-cell recruitment and activation in epididymal AT (eAT) of C57BL/6 mice during 4-22 weeks of a high (60% energy) fat diet (HFD). By week 6, eAT mass and stromal vascular cell (SVC) number increased 3-fold in mice fed HFD, coincident with onset of IR. We observed no increase in the proportion of CD3+ SVCs or in gene expression of CD3, IFNγ, or regulated upon activation, normal T-cell expressed and secreted (RANTES) during the first 16 weeks of HFD. In contrast, CD11c+ macrophages (Mφ) were enriched 6-fold by week 8 (p < 0.01). SVC enrichment for T cells (predominantly CD4+ and CD8+) and elevated IFNγ and RANTES gene expression were detected by 20-22 weeks of HFD (p < 0.01), coincident with the resolution of eAT remodeling. HFD-induced T cell priming earlier in the obesity time course is suggested by (1) elevated (5-fold) IL-12p40 gene expression in eAT by week 12 (p ≤ 0.01) and (2) greater IFNγ secretion from PMA/ionophorestimulated eAT explants at week 6 (1 fold, p = 0.08) and week 12 (5 fold, p < 0.001). In summary, T cell enrichment and IFNγ gene induction occur subsequent to ATMφ recruitment, onset of IR and resolution of eAT remodeling. However, enhanced priming for IFNγ production suggests the contribution of CD4+ and/or CD8+ effectors to cell-mediated immune responses promoting HFDinduced AT inflammation and IR.

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Cancer‐related circulating and tumor‐associated neutrophils – subtypes, sources and function

2018

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In recent years, the role of neutrophils in cancer biology has been a matter of increasing interest. Many patients with advanced cancer show high levels of neutrophilia, tumor neutrophils are connected to dismal prognosis, and the neutrophil-to-lymphocyte ratio has been introduced as a significant prognostic factor for survival in many types of cancer. Neutrophils constitute an important portion of the infiltrating immune cells in the tumor microenvironment, but controversy has long surrounded the function of these cells in the context of cancer. Multiple evidences have shown that neutrophils recruited to the tumor can acquire either protumor or antitumor function. These findings have led to the identification of multiple and heterogeneous neutrophil subsets in the tumor and circulation. In addition, tumor-associated neutrophils (TANs) were shown to demonstrate functional plasticity, driven by multiple factors present in the tumor microenvironment. In this review, we examine the current knowledge on cancer-related circulating neutrophils, their source and the function of the different subtypes, both mature and immature. We then discuss the pro vs antitumor nature of TANs in cancer, their functional plasticity and the mechanisms that regulate neutrophil recruitment and polarization. Although the vast majority of the knowledge on neutrophils in cancer comes from murine studies, recent work has been done on human cancer-related neutrophils. In the final paragraphs, we expand on the current knowledge regarding the role of neutrophils in human cancer and examine the question whether cancer-related neutrophils (circulating or intratumoral) could be a new possible target for cancer immunotherapy.

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TRPM2 Mediates Neutrophil Killing of Disseminated Tumor Cells

et al. 2018

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Neutrophils play a critical role in cancer, with both protumor and antitumor neutrophil subpopulations reported. The antitumor neutrophil subpopulation has the capacity to kill tumor cells and limit metastatic spread, yet not all tumor cells are equally susceptible to neutrophil cytotoxicity. Because cells that evade neutrophils have greater chances of forming metastases, we explored the mechanism neutrophils use to kill tumor cells. Neutrophil cytotoxicity was previously shown to be mediated by secretion of HO We report here that neutrophil cytotoxicity is Ca dependent and is mediated by TRPM2, a ubiquitously expressed HO-dependent Ca channel. Perturbing TRPM2 expression limited tumor cell proliferation, leading to attenuated tumor growth. Concomitantly, cells expressing reduced levels of TRPM2 were protected from neutrophil cytotoxicity and seeded more efficiently in the premetastatic lung. These findings identify the mechanism utilized by neutrophils to kill disseminated tumor cells and to limit metastatic spread. .

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Neutrophils as active regulators of the immune system in the tumor microenvironment

2017

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In recent years, the role of immune cells in tumor progression has been a matter of increasing interest. Neutrophils constitute an important portion of the immune cells infiltrating the tumor microenvironment. Traditionally viewed as the first line of defense against infections, it is now well accepted that neutrophils also have an important role in multiple aspects of cancer biology. Multiple and heterogeneous neutrophil subsets have been identified in tumors and in circulation. Evidence from many studies now supports the notion that tumor-associated neutrophils (TANs) show functional plasticity driven by multiple factors present in the tumor microenvironment. In this review, we first concisely discuss the pro-tumor vs. anti-tumor nature of neutrophils in cancer, their functional plasticity, and the mechanisms that regulate neutrophil polarization. We then expand on the various crosstalks and mutual effects between TANs and other tumor-infiltrating immune cell types, emphasizing the active role of neutrophils as regulators of the immune system, promoting or inhibiting the establishment of a permissive tumor microenvironment. Finally, the possible modulation of cancer-related neutrophils by therapies directed toward immune checkpoints is discussed briefly.

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Circulating neutrophil subsets in advanced lung cancer patients exhibit unique immune signature and relate to prognosis

Shaul¹,

Eyal²,

Guglietta

et al. 2020

FASEB j.

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The accumulation of circulating low‐density neutrophils (LDN) has been described in cancer patients and associated with tumor‐supportive properties, as opposed to the high‐density neutrophils (HDN). Here we aimed to evaluate the clinical significance of circulating LDN in lung cancer patients, and further assessed its diagnostic vs prognostic value. Using mass cytometry (CyTOF), we identified major subpopulations within the circulating LDN/HDN subsets and determined phenotypic modulations of these subsets along tumor progression. LDN were highly enriched in the low‐density (LD) fraction of advanced lung cancer patients (median 7.0%; range 0.2%‐80%, n = 64), but not in early stage patients (0.7%; 0.05%‐6%; n = 35), healthy individuals (0.8%; 0%‐3.5%; n = 15), or stable chronic obstructive pulmonary disease (COPD) patients (1.2%; 0.3%‐7.4%, n = 13). Elevated LDN (>10%) remarkably related with poorer prognosis in late stage patients. We identified three main neutrophil subsets which proportions are markedly modified in cancer patients, with CD66b+/CD10low/CXCR4+/PDL1inter subset almost exclusively found in advanced lung cancer patients. We found substantial variability in subsets between patients, and demonstrated that HDN and LDN retain a degree of inherent spontaneous plasticity. Deep phenotypic characterization of cancer‐related circulating neutrophils and their modulation along tumor progression is an important advancement in understanding the role of myeloid cells in lung cancer.

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Merav E. Shaul

Tumour-associated neutrophils in patients with cancer

Dynamic, M2-Like Remodeling Phenotypes of CD11c+ Adipose Tissue Macrophages During High-Fat Diet–Induced Obesity in Mice

Tumor-associated neutrophils display a distinct N1 profile following TGFβ modulation: A transcriptomics analysis of pro- vs. antitumor TANs

T‐Cell Recruitment and Th1 Polarization in Adipose Tissue During Diet‐Induced Obesity in C57BL/6 Mice

Cancer‐related circulating and tumor‐associated neutrophils – subtypes, sources and function

TRPM2 Mediates Neutrophil Killing of Disseminated Tumor Cells

Neutrophils as active regulators of the immune system in the tumor microenvironment

Circulating neutrophil subsets in advanced lung cancer patients exhibit unique immune signature and relate to prognosis

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