Ling–Ling An scite author profile

Mice expressing lymphocytic choriomeningitis virus nucleoprotein (LCMV-NP) as a transgene in their β cells develop insulin-dependent diabetes mellitus (IDDM) only after LCMV infection. Inoculation of plasmid DNA encoding the insulin B chain reduced the incidence of IDDM by 50% in this model. The insulin B-chain DNA vaccination was effective through induction of regulatory CD4 lymphocytes that react with the insulin B chain, secrete IL-4, and locally reduce activity of LCMV-NP-autoreactive cytotoxic T lymphocytes in the pancreatic draining lymph node. In contrast, similar vaccination with plasmids expressing the LCMV viral ("self") protein did not prevent IDDM, because no such regulatory cells were induced. Thus, DNA immunization with plasmids expressing self-antigens might constitute a novel and attractive therapeutic approach to prevent autoimmune diseases, if the antigens are carefully preelected for an ability to induce regulatory lymphocytes in vivo.

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Evidence for a direct link between PAD4-mediated citrullination and the oxidative burst in human neutrophils

Zhou¹,

An²,

Chaerkady³

et al. 2018

Sci Rep

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Neutrophils are critical for the defense against pathogens, in part through the extrusion of extracellular DNA traps, phagocytosis, and the production of reactive oxygen species. Neutrophils may also play an important role in the pathogenesis of rheumatoid arthritis (RA) through the activation of protein arginine deiminases (PADs) that citrullinate proteins that subsequently act as autoantigens. We report that PAD4 is physically associated with the cytosolic subunits of the oxidative burst machinery, p47phox (also known as neutrophil cytosol factor 1, NCF1) and p67phox (NCF2). Activation of PAD4 by membranolytic insults that result in high levels of intracellular calcium (higher than physiological neutrophil activation) leads to rapid citrullination of p47phox/NCF1 and p67phox/NCF2, as well as their dissociation from PAD4. This dissociation prevents the assembly of an active NADPH oxidase complex and an oxidative burst in neutrophils stimulated by phorbol-ester or immune complexes. In further support of a substrate-to-inactive enzyme interaction, small-molecule PAD inhibitors also disrupt the PAD4-NCF complex and reduce oxidase activation and phagocytic killing of Staphylococcus aureus. This novel role of PAD4 in the regulation of neutrophil physiology suggests that targeting PAD4 with active site inhibitors for the treatment of RA may have a broader impact on neutrophil biology than just inhibition of citrullination.

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Complement C5a potentiates uric acid crystal‐induced IL‐1β production

An¹,

Mehta²,

Xu³

et al. 2014

Eur J Immunol

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Anaphylatoxin C5a released upon complement activation is associated with both acute and chronic inflammations such as gout. The pathogenesis of gout was identified as uric acid crystal deposition in the joints that activates inflammasome, leading to IL-1β release. However, little is known about the interaction between complement activation and monosodium urate/uric acid (MSU) crystal-induced inflammasome activation or IL-1β production. Here, we report that MSU crystal-induced proinflammatory cytokines/chemokines in human whole blood is predominantly regulated by C5a through its interaction with C5a receptor. C5a induces pro-IL-1β and IL-1β production in human primary monocytes, and potentiates MSU or cholesterol crystals in IL-1β production. This potentiation is caspase-1 dependent and requires intracellular Ca 2+ mobilization, K + efflux, and cathepsin B activity. Our results provide insight into the role of C5a as an endogenous priming signal that is required for the initiation of uric acid crystalinduced IL-1β production. C5a could potentially be a therapeutic target together with IL-1β antagonists for the treatment of complement-dependent and inflammasome-associated diseases.Keywords: C5a r Gout r Inflammasome r IL-1β r monosodium urate/;uric acid (MSU) crystal r Priming Additional supporting information may be found in the online version of this article at the publisher's web-site

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Pharmacological Inhibition of Type I Interferon Signaling Protects Mice Against Lethal Sepsis

Dejager

Vandevyver

Ballegeer

et al. 2013

Journal of Infectious Diseases

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Current research on new therapeutic strategies for sepsis uses different animal models, such as the lipopolysaccharide-induced endotoxemia model and the cecal ligation and puncture (CLP) peritonitis model. By using genetic and pharmacologic inhibition of the type I interferon (IFN) receptor (IFNAR1), we show that type I IFN signaling plays a detrimental role in these sepsis models. Mortality after CLP was reduced even when type I IFN responses were blocked after the onset of sepsis. Our findings reveal that type I IFNs play an important detrimental role during sepsis by negatively regulating neutrophil recruitment. Reduced neutrophil influx likely occurs via the induction of the CXC motif chemokine 1. Moreover, human white blood cells exposed to heat-killed Pseudomonas aeruginosa secrete IFN-β and stimulate type I IFN signaling. We provide data that support pharmacologic inhibition of type I IFN signaling as a novel therapeutic treatment in severe sepsis.

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Ling–Ling An

Ultra-potent Antibodies Against Respiratory Syncytial Virus: Effects of Binding Kinetics and Binding Valence on Viral Neutralization

DNA immunization to prevent autoimmune diabetes

Evidence for a direct link between PAD4-mediated citrullination and the oxidative burst in human neutrophils

Complement C5a potentiates uric acid crystal‐induced IL‐1β production

Pharmacological Inhibition of Type I Interferon Signaling Protects Mice Against Lethal Sepsis

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