Reprogramming Nurse-like Cells with Interferon γ to Interrupt Chronic Lymphocytic Leukemia Cell Survival

Gautam, Shalini; Fatehchand, Kavin; Elavazhagan, Saranya; Reader, Brenda F.; Ren, Li; Mo, Xiaokui; Byrd, John C.; Tridandapani, Susheela; Butchar, Jonathan P.

doi:10.1074/jbc.m116.723551

Cited by 20 publications

(18 citation statements)

References 25 publications

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“…Interestingly, the tumor supportive phenotype in MDC is reversible, as IFN-γ stimulation results in transdifferentiation of pro-tumorigenic (M2) CLL-associated monocytes towards M1 macrophages. 71 Similarly, inhibiting PD1 signals could restore macrophage function, 69 suggesting there is potential for therapeutic intervention in these pathways.…”

Section: Introductionmentioning

confidence: 99%

Chronic lymphocytic leukemia cells are active participants in microenvironmental cross-talk

2017

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The importance of the tumor microenvironment in chronic lymphocytic leukemia is widely accepted. Nevertheless, the understanding of the complex interplay between the various types of bystander cells and chronic lymphocytic leukemia cells is incomplete. Numerous studies have indicated that bystander cells provide chronic lymphocytic leukemia-supportive functions, but it has also become clear that chronic lymphocytic leukemia cells actively engage in the formation of a supportive tumor microenvironment through several cross-talk mechanisms. In this review, we describe how chronic lymphocytic leukemia cells participate in this interplay by inducing migration and tumor-supportive differentiation of bystander cells. Furthermore, chronic lymphocytic leukemia-mediated alterations in the interactions between bystander cells are discussed. Upon bystander cell interaction, chronic lymphocytic leukemia cells secrete cytokines and chemokines such as migratory factors [chemokine (C-C motif) ligand 22 and chemokine (CC motif) ligand 2], which result in further recruitment of T cells but also of monocyte-derived cells. Within the tumor microenvironment, chronic lymphocytic leukemia cells induce differentiation towards a tumor-supportive M2 phenotype of monocyte-derived cells and suppress phagocytosis, but also induce increased numbers of supportive regulatory T cells. Like other tumor types, the differentiation of stromal cells towards supportive cancer-associated fibroblasts is critically dependent on chronic lymphocytic leukemia-derived factors such as exosomes and platelet-derived growth factor. Lastly, both chronic lymphocytic leukemia and bystander cells induce a tolerogenic tumor microenvironment; chronic lymphocytic leukemia-secreted cytokines, such as interleukin-10, suppress cytotoxic T-cell functions, while chronic lymphocytic leukemia-associated monocyte-derived cells contribute to suppression of T-cell function by producing the immune checkpoint factor, programmed cell death-ligand 1. Deeper understanding of the active involvement and cross-talk of chronic lymphocytic leukemia cells in shaping the tumor microenvironment may offer novel clues for designing therapeutic strategies.

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Section: Introductionmentioning

confidence: 99%

Chronic lymphocytic leukemia cells are active participants in microenvironmental cross-talk

2017

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“…Downregulation of CD31 expression by FcgR signaling initiated by therapeutic Abs may increase FcgR-mediated effector functions against cancer cells while simultaneously impairing cell-survival signals because of reduced interactions with CD38. Indeed, in a recent study, we demonstrated that downregulation of CD31 expression by IFN-g correlated with decreased chronic lymphocytic leukemia cell survival (39).…”

Section: Discussionmentioning

confidence: 76%

CD31 Acts as a Checkpoint Molecule and Is Modulated by FcγR-Mediated Signaling in Monocytes

Merchand-Reyes

Robledo‐Avila

Buteyn

et al. 2019

The Journal of Immunology

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Monocytes and macrophages express FcgR that engage IgG immune complexes such as Ab-opsonized pathogens or cancer cells to destroy them by various mechanisms, including phagocytosis. FcgR-mediated phagocytosis is regulated by the concerted actions of activating FcgR and inhibitory receptors, such as FcgRIIb and SIRPa. In this study, we report that another ITIM-containing receptor, PECAM1/CD31, regulates FcgR function and is itself regulated by FcgR activation. First, quantitative RT-PCR and flow cytometry analyses revealed that human monocyte FcgR activation leads to a significant downregulation of CD31 expression, both at the message level and at surface expression, mainly mediated through FcgRIIa. Interestingly, the kinetics of downregulation between the two varied, with surface expression reducing earlier than the message. Experiments to analyze the mechanism behind this discrepancy revealed that the loss of surface expression was because of internalization, which depended predominantly on the PI3 kinase pathway and was independent of FcgR internalization. Finally, functional analyses showed that the downregulation of CD31 expression in monocytes by small interfering RNA enhanced FcgR-mediated phagocytic ability but have little effect on cytokine production. Together, these results suggest that CD31 acts as a checkpoint receptor that could be targeted to enhance FcgR functions in Ab-mediated therapies.

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“…Another implication of targeting TAMs/NLCs is the potential to remove a major immunosuppressive stimulus from the tumour microenvironment. In particular, it has been noted that TAMs possess a PI3Kγ-dependent immune suppressor phenotype which is independent of an additional role in permitting immune checkpoint activity within the tumour microenvironment [19,68]. Recognition of these new roles of M2-like TAMs supports studies focusing on "driving" the macrophage phenotype towards a more "M1" phenotype [69,70] rather than ablating all macrophages [20,30,68].…”

Section: Tams/nlcs As a Therapeutic Targetmentioning

confidence: 97%

“…In particular, it has been noted that TAMs possess a PI3Kγ-dependent immune suppressor phenotype which is independent of an additional role in permitting immune checkpoint activity within the tumour microenvironment [19,68]. Recognition of these new roles of M2-like TAMs supports studies focusing on "driving" the macrophage phenotype towards a more "M1" phenotype [69,70] rather than ablating all macrophages [20,30,68]. For example, recent studies in models of pancreatic cancer and melanoma have shown that targeted inhibition of PI3Kγ by pharmacological inhibitors or genetic depletion of macrophage PI3Kγ promoted the conversion of M2-like TAMs to an M1-like phenotype [29,52,63].…”

Section: Tams/nlcs As a Therapeutic Targetmentioning

confidence: 99%

The duality of macrophage function in chronic lymphocytic leukaemia

Chen

Mapp

Blumenthal

et al. 2017

Biochimica et Biophysica Acta (BBA) - Reviews on Cancer

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Chronic lymphocytic leukaemia (CLL) is the most common adult leukaemia and, in some patients, is accompanied by resistance to both chemotherapeutics and immunotherapeutics. In this review we will discuss the role of tumour associated macrophages (TAMs) in promoting CLL cell survival and resistance to immunotherapeutics. In addition, we will discuss mechanisms by which TAMs suppress T-cell mediated antitumour responses. Thus, targeting macrophages could be used to i) reduce the leukaemic burden via the induction of T-cell-mediated antitumour responses, ii) to reduce pro-survival signalling and enhance response to conventional chemotherapeutics or iii) enhance the response to therapeutic antibodies in current clinical use.

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Reprogramming Nurse-like Cells with Interferon γ to Interrupt Chronic Lymphocytic Leukemia Cell Survival

Cited by 20 publications

References 25 publications

Chronic lymphocytic leukemia cells are active participants in microenvironmental cross-talk

Chronic lymphocytic leukemia cells are active participants in microenvironmental cross-talk

CD31 Acts as a Checkpoint Molecule and Is Modulated by FcγR-Mediated Signaling in Monocytes

The duality of macrophage function in chronic lymphocytic leukaemia

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