Anthony L. Steichen scite author profile

Sepsis is a complex immune disorder with a mortality rate of 20–50% and currently has no therapeutic interventions. It is thus critical to identify and characterize molecules/factors responsible for its development. We have recently shown that pulmonary infection with Francisella results in sepsis development. As extensive cell death is a prominent feature of sepsis, we hypothesized that host endogenous molecules called alarmins released from dead or dying host cells cause a hyperinflammatory response culminating in sepsis development. In the current study we investigated the role of galectin-3, a mammalian β-galactoside binding lectin, as an alarmin in sepsis development during F. novicida infection. We observed an upregulated expression and extracellular release of galectin-3 in the lungs of mice undergoing lethal pulmonary infection with virulent strain of F. novicida but not in those infected with a non-lethal, attenuated strain of the bacteria. In comparison with their wild-type C57Bl/6 counterparts, F. novicida infected galectin-3 deficient (galectin-3−/−) mice demonstrated significantly reduced leukocyte infiltration, particularly neutrophils in their lungs. They also exhibited a marked decrease in inflammatory cytokines, vascular injury markers, and neutrophil-associated inflammatory mediators. Concomitantly, in-vitro pre-treatment of primary neutrophils and macrophages with recombinant galectin-3 augmented F. novicida-induced activation of these cells. Correlating with the reduced inflammatory response, F. novicida infected galectin-3−/− mice exhibited improved lung architecture with reduced cell death and improved survival over wild-type mice, despite similar bacterial burden. Collectively, these findings suggest that galectin-3 functions as an alarmin by augmenting the inflammatory response in sepsis development during pulmonary F. novicida infection.

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C-type lectin receptor Clec4d plays a protective role in resolution of Gram-negative pneumonia

Steichen

Binstock

Mishra

et al. 2013

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Pneumonia is frequently associated with sepsis, characterized by a nonresolving hyperinflammation. However, specific host components of the pulmonary milieu that regulate the perpetuation of inflammation and tissue destruction observed in this immune disorder are not clearly understood. We examined the function of Clec4d, an orphan mammalian CLR, in Gram negative pneumonic sepsis caused by KPn. Whereas the WT mice infected with a sublethal dose of bacteria could resolve the infection, the Clec4d(-/-) mice were highly susceptible with a progressive increase in bacterial burden, hyperinflammatory response typical of sepsis, and severe lung pathology. This correlated with a massive accumulation of neutrophils in lungs of infected Clec4d(-/-) mice, which was in contrast with their WT counterparts, where neutrophils transiently infiltrated the lungs. Interestingly, the Clec4d(-/-) neutrophils did not exhibit any defect in bacterial clearance. These results suggest that Clec4d plays an important role in resolution of inflammation, possibly by facilitating neutrophil turnover in lungs. This is the first report depicting the physiological function of Clec4d in a pathological condition. The results can have implications not only in sepsis but also in other inflammatory diseases, where nonresolving inflammation is the root cause of disease development.

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Alarmin Function of Galectin-9 in Murine Respiratory Tularemia

et al. 2015

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Sepsis is a complex immune disorder that is characterized by systemic hyperinflammation. Alarmins, which are multifunctional endogenous factors, have been implicated in exacerbation of inflammation in many immune disorders including sepsis. Here we show that Galectin-9, a host endogenous β-galactoside binding lectin, functions as an alarmin capable of mediating inflammatory response during sepsis resulting from pulmonary infection with Francisella novicida, a Gram negative bacterial pathogen. Our results show that this galectin is upregulated and is likely released during tissue damage in the lungs of F. novicida infected septic mice. In vitro, purified recombinant galectin-9 exacerbated F. novicida-induced production of the inflammatory mediators by macrophages and neutrophils. Concomitantly, Galectin-9 deficient (Gal-9-/-) mice exhibited improved lung pathology, reduced cell death and reduced leukocyte infiltration, particularly neutrophils, in their lungs. This positively correlated with overall improved survival of F. novicida infected Gal-9-/- mice as compared to their wild-type counterparts. Collectively, these findings suggest that galectin-9 functions as a novel alarmin by augmenting the inflammatory response in sepsis development during pulmonary F. novicida infection.

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Alarmin function of galectin-9 in murine respiratory tularemia (INC4P.341)

Sharma

Steichen

Simonson

et al. 2015

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Sepsis is a complex immune disorder that is characterized by systemic hyperinflammation. Alarmins, which are multifunctional endogenous factors, have been implicated in exacerbation of inflammation in many immune disorders including sepsis. Here we show that that Galectin-9, a host endogenous β-galactoside binding lectin, functions as an alarmin capable of mediating inflammatory response during sepsis resulting from pulmonary infection with Francisella novicida, a Gram negative bacterial pathogen. Our results show that this galectin is upregulated and released during tissue damage in the lungs of F. novicida infected septic mice. In-vitro, purified recombinant Galectin-9 exacerbated F. novicida-induced production of inflammatory mediators by macrophages and neutrophils. Concomitantly, Galectin-9 deficient (Gal-9-/-) mice exhibited improved lung pathology, reduced cell death and reduced leukocyte infiltration, particularly neutrophils, in their lungs. This positively correlated with overall improved survival of F. novicida infected Gal-9-/- mice as compared to their wild-type counterparts. Collectively, these findings suggest that exatracellular galectin-9 functions as a novel alarmin by augmenting the inflammatory response in sepsis development during pulmonary F. novicida infection.

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