David J. DiLillo scite author profile

Neutralizing antibodies against influenza viruses have traditionally been thought to provide protection exclusively through their variable region; the contributions of mechanisms conferred by the Fc domain remain controversial. We investigated the in vivo contributions of Fc interactions with their cognate receptors for a collection of neutralizing anti-influenza antibodies. Whereas five broadly neutralizing monoclonal antibodies (bNAbs) targeting the conserved stalk region of hemagglutinin (HA) required interactions between the antibody Fc and Fc receptors for IgG (FcγRs) to confer protection from lethal H1N1 challenge, three strain-specific monoclonal Abs (mAbs) against the variable head domain of HA were equally protective in the presence or absence of FcγR interactions. Although all antibodies blocked infection, only anti-stalk bNAbs were capable of mediating cytotoxicity of infected cells, which accounts for their FcγR dependence. Immune complexes generated with anti–HA stalk mAb efficiently interacted with FcγRs, but anti–HA head immune complexes did not. These results suggest that FcγR binding capacity by anti-HA antibodies was dependent on the interaction of the cognate Fab with antigen. We exploited these disparate mechanisms of mAb-mediated protection to reengineer an anti-stalk bNAb to selectively enhance FcγR engagement to augment its protective activity. These findings reveal a previously uncharacterized property of bNAbs and guide an approach toward enhancing mAb-mediated antiviral therapeutics.

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Regulatory B cells control T-cell autoimmunity through IL-21-dependent cognate interactions

Yoshizaki

Miyagaki

DiLillo

et al. 2012

Nature

574

586

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Summary B cells regulate immune responses by producing antigen-specific antibody1. However, specific B cell subsets can also negatively regulate immune responses, validating the existence of regulatory B cells2–4. Human and mouse regulatory B cells (B10 cells) with the ability to express the inhibitory cytokine IL-10 have been identified2–5. Although rare, B10 cells are potent negative regulators of antigen-specific inflammation and T cell-dependent autoimmune diseases in mice5–7. How B10 cell IL-10 production and regulation of antigen-specific immune responses are controlled in vivo without inducing systemic immunosuppression are unknown. Using a mouse model for multiple sclerosis, we show here that B10 cell maturation into functional IL-10-secreting effector cells that inhibit in vivo autoimmune disease requires IL-21 and CD40-dependent cognate interactions with T cells. Moreover, the ex vivo provision of CD40 and IL-21 receptor signals can drive B10 cell development and expansion by four-million-fold and generate B10 effector cells producing IL-10 that dramatically inhibit disease symptoms when transferred into mice with established autoimmune disease. Thereby, the ex vivo expansion and reinfusion of autologous B10 cells may provide a novel and effective in vivo treatment for severe autoimmune diseases that are resistant to current therapies.

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David J. DiLillo

Characterization of a rare IL-10–competent B-cell subset in humans that parallels mouse regulatory B10 cells

Broadly neutralizing hemagglutinin stalk–specific antibodies require FcγR interactions for protection against influenza virus in vivo

Regulatory B cells control T-cell autoimmunity through IL-21-dependent cognate interactions

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