Georgia Perona-Wright scite author profile

Soluble egg antigens of the parasitic helminth Schistosoma mansoni (S. mansoni egg antigen [SEA]) induce strong Th2 responses both in vitro and in vivo. However, the specific molecules that prime the development of Th2 responses have not been identified. We report that omega-1, a glycoprotein which is secreted from S. mansoni eggs and present in SEA, is capable of conditioning human monocyte-derived dendritic cells in vitro to drive T helper 2 (Th2) polarization with similar characteristics as whole SEA. Furthermore, using IL-4 dual reporter mice, we show that both natural and recombinant omega-1 alone are sufficient to generate Th2 responses in vivo, even in the absence of IL-4R signaling. Finally, omega-1–depleted SEA displays an impaired capacity for Th2 priming in vitro, but not in vivo, suggesting the existence of additional factors within SEA that can compensate for the omega-1–mediated effects. Collectively, we identify omega-1, a single component of SEA, as a potent inducer of Th2 responses.

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Systemic but Not Local Infections Elicit Immunosuppressive IL-10 Production by Natural Killer Cells

Perona-Wright

Mohrs

Szaba

et al. 2009

Cell Host & Microbe

176

186

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Summary IL-10 is an anti-inflammatory mediator, important in limiting immunopathology. Its impact is influenced both by the timing and localization of its release. Here we show that NK cells rapidly express IL-10 during acute infection with the rapidly disseminating pathogens Toxoplasma gondii, Listeria monocytogenes or Yersinia pestis. Direct IL-12 signals proved necessary and sufficient for NK induction of IL-10. NK cells from T. gondii-infected mice inhibited dendritic cell release of IL-12 in an IL-10-dependent manner and NK cell depletion resulted in elevated serum IL-12. Together these data suggest an innate, negative feedback loop, in which IL-12 limits its own production by eliciting IL-10 from NK cells. In contrast to the systemic pathogens, NK cell IL-10 was not elicited by locally restricted infection with influenza virus or with a Y. pestis strain attenuated to prevent dissemination. Thus, systemic infections uniquely engage NK cells in an IL-10-mediated immunoregulatory circuit that functions to alleviate inflammation during sepsis.

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Inflammatory chemokine receptors regulate CD8+ T cell contraction and memory generation following infection

et al. 2011

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Recruited macrophages that colonize the post-inflammatory peritoneal niche convert into functionally divergent resident cells

et al. 2021

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Inflammation generally leads to recruitment of monocyte-derived macrophages. What regulates the fate of these cells and to what extent they can assume the identity and function of resident macrophages is unclear. Here, we show that macrophages elicited into the peritoneal cavity during mild inflammation persist long-term but are retained in an immature transitory state of differentiation due to the presence of enduring resident macrophages. By contrast, severe inflammation results in ablation of resident macrophages and a protracted phase wherein the cavity is incapable of sustaining a resident phenotype, yet ultimately elicited cells acquire a mature resident identity. These macrophages also have transcriptionally and functionally divergent features that result from inflammation-driven alterations to the peritoneal cavity micro-environment and, to a lesser extent, effects of origin and time-of-residency. Hence, rather than being predetermined, the fate of inflammation-elicited peritoneal macrophages seems to be regulated by the environment.

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Dendritic Cell Expression of OX40 Ligand Acts as a Costimulatory, Not Polarizing, Signal for Optimal Th2 Priming and Memory Induction In Vivo

et al. 2007

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Costimulatory cross-talk can occur at multiple cellular levels to potentiate expansion and polarization of Th responses. Although OX40L ligand (OX40L) is thought to play a key role in Th2 development, the critical cellular source of this molecule has yet to be identified. In this study, we demonstrate that OX40L expression by the initiating dendritic cell (DC) is a fundamental requirement for optimal induction of primary and memory Th2 responses in vivo. Analysis of the kinetics of the residual Th2 response primed by OX40L-deficient DC suggested a failure to stimulate appropriate expansion and/or survival of T cells, rather than an inability to polarize per se. The dependence upon OX40L was predominantly due to the provision of signaling through OX40 rather than retrograde signaling to the DC. Mechanistically, impaired Th2 priming in the absence of OX40L was not due to exaggerated regulation because there was no evidence of increased expansion or function of regulatory cell populations, suppression through IL-10 production, or hyporesponsiveness to secondary challenge. These data define a critical role for DC-derived OX40L in the induction and development of Th2 responses in vivo.

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