Olivier Leger scite author profile

Pivotal Involvement of Fcγ Receptor IIA in the Neutralization of Lipopolysaccharide Signaling via a Potent Novel Anti-TLR4 Monoclonal Antibody 15C1

Dunn-Siegrist¹,

Leger

²

,

Daubeuf

³

et al. 2007

Journal of Biological Chemistry

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The mammalian Toll-like receptor (TLR) family has evolved to sense pathogens in the environment and protect the host against infection. TLR4 recognizes lipopolysaccharide (LPS) from Gram-negative bacteria and induces a signaling cascade that, when exaggerated, has been associated with severe sepsis. We have generated a TLR4-specific monoclonal antibody, 15C1, which neutralizes LPS-induced TLR4 activation in a dose-dependent manner. 15C1 potently blocks the effects of LPS on a panel of primary cells and cell lines in vitro. The binding of 15C1 was mapped to an epitope in the second portion of the extracellular region of TLR4, which has been shown previously to be functionally important in the recognition of LPS. Furthermore, we demonstrate a novel mechanism of inhibition, as the effects of 15C1 are partially Fc-dependent, involving the regulatory Fc␥ receptor IIA (CD32A). In addition to introducing 15C1 as a potent clinical candidate for use in the treatment of LPS-mediated indications, our work demonstrates a newly discovered pathway whose manipulation is pivotal in achieving optimal neutralizing benefit.

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Selective Antibody Intervention of Toll-like Receptor 4 Activation through Fc γ Receptor Tethering

Shang

¹

,

Daubeuf

²

,

Triantafilou

³

et al. 2014

Journal of Biological Chemistry

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Background: Dysregulated leukocyte activation via Toll-like receptor 4 (TLR4) is central to numerous inflammatory disorders. Results: A novel mechanism of action involving Fc ␥ receptor tethering allows anti-TLR4 blocking antibodies to achieve increased potency on inflammatory leukocytes. Conclusion: This novel mechanism of action allows selective targeting of TLR4 activation during inflammation. Significance: The data provide a novel mechanism to dampen TLR4-mediated inflammatory disorders.

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Endogenously generated activated killer cells circulate after autologous and allogeneic marrow transplantation but not after chemotherapy

Reittie

¹

,

Gottlieb

²

,

Heslop

³

et al. 1989

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After marrow transplantation, major histocompatibility complex (MHC)- unrestricted natural killer (NK) lymphocytes are among the first cells to appear in the circulation. After T-cell-depleted bone marrow transplantation (TD-BMT), these cells have an activated pattern of target cell killing; they also secrete lymphokines including gamma- interferon (gamma-IFN), interleukin-2 (IL-2), and tumor necrosis factor (TNF) and may have a significant role as a primary defense against viral reactivation and in the elimination of residual host malignancy. We studied 43 patients with hematologic malignancy, treated by allogeneic TD-BMT, autologous nondepleted BMT, or chemotherapy alone to investigate (a) the mechanisms underlying the generation of these activated killer cells, (b) the range of conditions under which they are produced, and (c) their surface phenotype. We showed that gamma-IFN- secreting activated killer cells with the capacity to kill MHC- nonidentical NK-resistant targets are generated 4 to 6 weeks after either allogeneic TD-BMT or autologous BMT but do not appear after treatment with chemotherapy. Production therefore is not owing to T- cell depletion per se or to host donor alloreactivity, nor is it caused by stimulation by alloantigens contained in blood product support since no significant difference exists between allograft and chemotherapy patients in the number of units of blood platelet support given in the posttreatment period. Because most patients had no evidence of stimulation from virus reactivation/infection, the phenomenon of activation therefore appears to represent posttransplant immune disregulation following repopulation of the host immune system with lymphoid subsets derived exclusively from blood and marrow. Activated killing is predominantly mediated by the CD16+ CD3- subset, but substantial activity remains in the CD16- CD3+ cell fraction. Monoclonal antibodies (MoAbs) that block interaction with class-I MHC molecules at the level of target cell (W6/32 anti-HLA class I) or effector cell (CD8) do not inhibit killing by CD16- CD3+ cells. Activated killer cells may contribute to the lower risk of relapse after marrow transplantation as compared with intensive chemotherapy.

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Interleukin 2 enhances cytotoxic cell function in vitro after T‐cell depleted marrow transplantation

Leger

¹

,

Drexler

²

,

Reittie

³

et al. 1987

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After T-cell depleted marrow transplantation, there is a rapid recovery of cytotoxic effector cells, with activity against targets not susceptible to killing by 'resting' natural killer cells. These targets include Epstein-Barr virus transformed B cells and leukaemic cell lines. Activated killer cell function declines by 3 months after transplantation. We find that when CD3 negative effector cells are obtained from these patients and cultured in vitro with interleukin 2 there is a further enhancement of cytotoxic activity against a range of target cells in the early post-transplant period, and a restoration of high level cytotoxic activity to effector cells obtained 3 months or more after the procedure. These results may have relevance to attempts to reduce the incidence of leukaemic relapse, and EBV + ve lymphoma outgrowth after T-cell depleted BMT.

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Endogenously generated activated killer cells circulate after autologous and allogeneic marrow transplantation but not after chemotherapy

Reittie

¹

,

Gottlieb

²

,

Heslop

³

et al. 1989

View full text Add to dashboard Cite

After marrow transplantation, major histocompatibility complex (MHC)- unrestricted natural killer (NK) lymphocytes are among the first cells to appear in the circulation. After T-cell-depleted bone marrow transplantation (TD-BMT), these cells have an activated pattern of target cell killing; they also secrete lymphokines including gamma- interferon (gamma-IFN), interleukin-2 (IL-2), and tumor necrosis factor (TNF) and may have a significant role as a primary defense against viral reactivation and in the elimination of residual host malignancy. We studied 43 patients with hematologic malignancy, treated by allogeneic TD-BMT, autologous nondepleted BMT, or chemotherapy alone to investigate (a) the mechanisms underlying the generation of these activated killer cells, (b) the range of conditions under which they are produced, and (c) their surface phenotype. We showed that gamma-IFN- secreting activated killer cells with the capacity to kill MHC- nonidentical NK-resistant targets are generated 4 to 6 weeks after either allogeneic TD-BMT or autologous BMT but do not appear after treatment with chemotherapy. Production therefore is not owing to T- cell depletion per se or to host donor alloreactivity, nor is it caused by stimulation by alloantigens contained in blood product support since no significant difference exists between allograft and chemotherapy patients in the number of units of blood platelet support given in the posttreatment period. Because most patients had no evidence of stimulation from virus reactivation/infection, the phenomenon of activation therefore appears to represent posttransplant immune disregulation following repopulation of the host immune system with lymphoid subsets derived exclusively from blood and marrow. Activated killing is predominantly mediated by the CD16+ CD3- subset, but substantial activity remains in the CD16- CD3+ cell fraction. Monoclonal antibodies (MoAbs) that block interaction with class-I MHC molecules at the level of target cell (W6/32 anti-HLA class I) or effector cell (CD8) do not inhibit killing by CD16- CD3+ cells. Activated killer cells may contribute to the lower risk of relapse after marrow transplantation as compared with intensive chemotherapy.

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Olivier Leger

Pivotal Involvement of Fcγ Receptor IIA in the Neutralization of Lipopolysaccharide Signaling via a Potent Novel Anti-TLR4 Monoclonal Antibody 15C1

Selective Antibody Intervention of Toll-like Receptor 4 Activation through Fc γ Receptor Tethering

Endogenously generated activated killer cells circulate after autologous and allogeneic marrow transplantation but not after chemotherapy

Interleukin 2 enhances cytotoxic cell function in vitro after T‐cell depleted marrow transplantation

Endogenously generated activated killer cells circulate after autologous and allogeneic marrow transplantation but not after chemotherapy

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