Macrophage polarization to a unique phenotype driven by B cells

Wong, Sek-Man; Puaux, Anne-Laure; Chittezhath, Manesh; Shalova, Irina N.; Kajiji, Tasneem; Wang, Xiaojie; Abastado, Jean-Pierre; Lam, Kong-Peng; Biswas, Subhra K.

doi:10.1002/eji.200940288

Cited by 160 publications

(124 citation statements)

References 43 publications

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“…Binding of B1-cell-derived IgM to macrophages unexpectedly resulted in a marked reduction of prototypical M2 genes (e.g. Ym1, Fizz1 and Mgl2) [17]. Interestingly, inhibition of IL-10, which is constitutively express by B1 cells, prevented B1-cellinduced M2-polarization of macrophages [17], indicating the crucial role of this cytokine in tuning cancer-related inflammatory programs.…”

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confidence: 99%

“…In some cases, natural antibodies produced by B1b cells have been shown to have the potential to react with self-antigens leading to autoimmunity. On the other hand, CD5 1 B1a cells have also been shown to play an inhibitory role in the immune response, particularly during inflammation/infection and in cancer, mainly sustained by the production of .In this issue of the European Journal of Immunology, using an in vitro B-cell/macrophage co-culture system, together with experiments in transgenic mice models of B-cell deficiency or overexpression, Wong et al [17] suggest that B1 cells, but not B2 cells, polarize peritoneal macrophages to a phenotype characterized by impaired expression of LPS-induced pro-inflammatory genes (e.g. Tnfa, Ccl3 and Il1b), with upregulation of the anti-inflammatory gene Il10.…”

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Convergent pathways of macrophage polarization: The role of B cells

et al. 2010

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The construction of an inflammatory microenvironment provides the fuel for cancer development and progression. Hence, solid tumors promote infiltration of leukocyte populations, among which tumor-associated macrophages (TAM) represent a paradigm for cancer-promoting inflammation. TAM orchestrate various aspects of cancer, including diversion and skewing of adaptive responses, cell growth, angiogenesis, matrix deposition and remodelling, the construction of a metastatic niche and actual metastasis, response to hormones and chemotherapeutic agents. Several lines of evidence indicate that TAM show a remarkable degree of plasticity and functional heterogeneity, suggesting that during tumor progression macrophages undergo a phenotypic ''switch'', eventually exhibiting the alternatively activated, ''M2'', phenotype that is associated with immunosuppression, promotion of tumor angiogenesis and metastasis. Although recent studies have attempted to address the role of microenvironmental signals on TAM ''reprogramming'', the interplay between innate and adaptive immunity is emerging as a crucial step of this event. In this issue of the European Journal of Immunology, a study demonstrates that B1 lymphocytes expressing IL-10 play a key role in promoting a pro-tumoral M2-biased phenotype of macrophages. This article defines a new in vivo pathway of macrophage polarization and suggests that targeting B cells is a possible therapeutic intervention to reinstate anticancer functions by TAM. Clinical and experimental evidence has highlighted that a major leukocyte population present in tumors, the so-called tumorassociated macrophages (TAM), is the principal component of the leukocyte infiltrate supporting tumor growth [1]. As macrophages represent a primary line of the innate or front-line defense mechanisms, this evidence has also underlined the ''immune paradox'' represented by TAM [2]. Over the past years, the mechanisms supporting the pro-tumoral functions of TAM have been increasingly clarified and in several experimental tumor models, the activation of an inflammatory response (most frequently mediated by macrophages) has been shown to play an essential role for full neoplastic transformation and progression. Recent reports have established that the acquisition of protumoral M2 functions by TAM is driven by various cytokines and signals expressed within the tumor microenvironment [3]. Among these, IL-10, PGE2, TGF-b and CSF-1 were reported to induce the M2-polarization of macrophages [3][4][5]. Based on the In a model of mammary carcinoma, myeloid-derived suppressor cells were shown to contribute to tumor progression by suppressing T-cell activation and inducing an M2-like phenotype of TAM, (increased IL-10 and decreased IL-12 production) [10].The role of B cells in solid tumor development is well characterized, for example B-cell-deficient mice (mMT) exhibited resistance to several type of syngeneic tumors, including EL4 lymphoma, MC38 colon carcinoma and B16 or D5 melanoma [9]. A first original report on B cells and can...

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Convergent pathways of macrophage polarization: The role of B cells

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“…In a transplanted mammary carcinoma, complement was shown to be involved in myelomonocytic cell recruitment [34], although the mechanisms responsible for complement activation in tumors remain to be defined. It should be noted that B cells can use tools other than antibodies to skew macrophage function and promote tumor progression, including IL-10 and lymphotoxin (LT) [35][36][37][38], and B regulatory cells may be well suited for this [38]. Thus, the mechanisms of co-opting the function of myelomonocytic cells in tumors can differ considerably, although M2-like skewing is a recurrent common denominator.…”

Section: Tam Accumulationmentioning

confidence: 99%

“…Thus, the interaction of macrophages in different states of activation with antibodies and more generally with B cells is contextdependent and can result in promotion of carcinogenesis (e.g. [33,35,38,47]) or anti-tumor activity [3].…”

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confidence: 99%

Cancer‐promoting tumor‐associated macrophages: New vistas and open questions

et al. 2011

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Tumor‐associated macrophages (TAMs) are key components of the tumor macroenvironment. Cancer‐ and host cell‐derived signals generally drive the functions of TAMs towards an M2‐like polarized, tumor‐propelling mode; however, when appropriately re‐educated. TAMs also have the potential to elicit tumor destructive reactions. Here, we discuss recent advances regarding the immunobiology of TAMs and highlight open questions including the mechanisms of their accumulation (recruitment versus proliferation), their diversity and how to best therapeutically target these cells.

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“…Tissueresident macrophages play a crucial role in normal tissue homeostasis, helping to maintain the status quo and coordinate responses to homeostatic cues. In the peritoneal cavity, for example, tissueresident macrophages are major sources of CXCL13, a chemokine involved in the homing of peritoneal B-cell populations [8], but are, themselves, regulated by the peritoneal B cells [9].…”

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confidence: 99%

Macrophage heterogeneity and acute inflammation

et al. 2011

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In this Viewpoint, we concentrate on the aspects of macrophage biology that we believe are fundamental for an appropriate contextual understanding of macrophage function during acute inflammation. These are the different origins of macrophage populations (and the implications of this for the renewal of these populations in the adult); and the impact of specific homeostatic or disease‐associated microenvironments upon cellular heterogeneity, activation and effector functions.

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Macrophage polarization to a unique phenotype driven by B cells

Cited by 160 publications

References 43 publications

Convergent pathways of macrophage polarization: The role of B cells

Convergent pathways of macrophage polarization: The role of B cells

Cancer‐promoting tumor‐associated macrophages: New vistas and open questions

Macrophage heterogeneity and acute inflammation

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