Karl S. Lang scite author profile

This study demonstrates a unique and crucial role of plasmacytoid dendritic cells (pDCs) and pDC-derived type I interferons (IFNs) in the pathogenesis of mouse coronavirus infection. pDCs controlled the fast replicating mouse hepatitis virus (MHV) through the immediate production of type I IFNs. Recognition of MHV by pDCs was mediated via TLR7 ensuring a swift IFN-alpha production following encounter with this cytopathic RNA virus. Furthermore, the particular type I IFN response pattern was not restricted to the murine coronavirus, but was also found in infection with the highly cytopathic human severe acute respiratory syndrome (SARS) coronavirus. Taken together, our results suggest that rapid production of type I IFNs by pDCs is essential for the control of potentially lethal coronavirus infections.

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Cation channels trigger apoptotic death of erythrocytes

Lang

et al. 2003

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Erythrocytes are devoid of mitochondria and nuclei and were considered unable to undergo apoptosis. As shown recently, however, the Ca 2+ -ionophore ionomycin triggers breakdown of phosphatidylserine asymmetry (leading to annexin binding), membrane blebbing and shrinkage of erythrocytes, features typical for apoptosis in nucleated cells. In the present study, the effects of osmotic shrinkage and oxidative stress, well-known triggers of apoptosis in nucleated cells, were studied. Exposure to 850 mOsm for 24 h, to tert-butylhydroperoxide (1 mM) for 15 min, or to glucose-free medium for 48 h, all elicit erythrocyte shrinkage and annexin binding, both sequelae being blunted by removal of extracellular Ca 2+ and mimicked by ionomycin (1 lM). Osmotic shrinkage and oxidative stress activate Ca 2+ -permeable cation channels and increase cytosolic Ca 2+ concentration. The channels are inhibited by amiloride (1 mM), which further blunts annexin binding following osmotic shock, oxidative stress and glucose depletion. In conclusion, osmotic and oxidative stress open Ca 2+ -permeable cation channels in erythrocytes, thus increasing cytosolic Ca 2+ activity and triggering erythrocyte apoptosis.

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iRhom2 Regulation of TACE Controls TNF-Mediated Protection Against Listeria and Responses to LPS

McIlwain

Lang

Maretzky

et al. 2012

Science

302

417

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Innate immune responses are vital for pathogen defense but can result in septic shock when excessive. A key mediator of septic shock is tumor necrosis factor–α (TNFα), which is shed from the plasma membrane after cleavage by the TNFα convertase (TACE). We report that the rhomboid family member iRhom2 interacted with TACE and regulated TNFα shedding. iRhom2 was critical for TACE maturation and trafficking to the cell surface in hematopoietic cells. Gene-targeted iRhom2-deficient mice showed reduced serum TNFα in response to lipopolysaccharide (LPS) and could survive a lethal LPS dose. Furthermore, iRhom2-deficient mice failed to control the replication of Listeria monocytogenes. Our study has identified iRhom2 as a regulator of innate immunity that may be an important target for modulating sepsis and pathogen defense.

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Natural killer cell activation enhances immune pathology and promotes chronic infection by limiting CD8 ⁺ T-cell immunity

Lang

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

290

330

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Infections with HIV, hepatitis B virus, and hepatitis C virus can turn into chronic infections, which currently affect more than 500 million patients worldwide. It is generally thought that virus-mediated T-cell exhaustion limits T-cell function, thus promoting chronic disease. Here we demonstrate that natural killer (NK) cells have a negative impact on the development of T-cell immunity by using the murine lymphocytic choriomeningitis virus. NK cell-deficient (Nfil3 −/− , E4BP4 −/− ) mice exhibited a higher virus-specific T-cell response. In addition, NK cell depletion caused enhanced T-cell immunity in WT mice, which led to rapid virus control and prevented chronic infection in lymphocytic choriomeningitis virus clone 13- and reduced viral load in DOCILE-infected animals. Further experiments showed that NKG2D triggered regulatory NK cell functions, which were mediated by perforin, and limited T-cell responses. Therefore, we identified an important role of regulatory NK cells in limiting T-cell immunity during virus infection.

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Mechanisms of Suicidal Erythrocyte Death

Lang

Bauer

et al. 2005

Cell Physiol Biochem

342

308

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Erythrocyte injury such as osmotic shock, oxidative stress or energy depletion stimulates the formation of prostaglandin E₂ through activation of cyclooxygenase which in turn activates a Ca²⁺ permeable cation channel. Increasing cytosolic Ca²⁺ concentrations activate Ca²⁺ sensitive K⁺ channels leading to hyperpolarization, subsequent loss of KCl and (further) cell shrinkage. Ca²⁺ further stimulates a scramblase shifting phosphatidylserine from the inner to the outer cell membrane. The scramblase is sensitized for the effects of Ca²⁺ by ceramide which is formed by a sphingomyelinase following several stressors including osmotic shock. The sphingomyelinase is activated by platelet activating factor PAF which is released by activation of phospholipase A₂. Phosphatidylserine at the erythrocyte surface is recognised by macrophages which engulf and degrade the affected cells. Moreover, phosphatidylserine exposing erythrocytes may adhere to the vascular wall and thus interfere with microcirculation. Erythrocyte shrinkage and phosphatidylserine exposure (‘eryptosis’) mimic features of apoptosis in nucleated cells which however, involves several mechanisms lacking in erythrocytes. In kidney medulla, exposure time is usually too short to induce eryptosis despite high osmolarity. Beyond that high Cl^- concentrations inhibit the cation channel and high urea concentrations the sphingomyelinase. Eryptosis is inhibited by erythropoietin which thus extends the life span of circulating erythrocytes. Several conditions trigger premature eryptosis thus favouring the development of anemia. On the other hand, eryptosis may be a mechanism of defective erythrocytes to escape hemolysis. Beyond their significance for erythrocyte survival and death the mechanisms involved in ‘eryptosis’ may similarly contribute to apoptosis of nucleated cells.

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Karl S. Lang

Control of coronavirus infection through plasmacytoid dendritic-cell–derived type I interferon

Cation channels trigger apoptotic death of erythrocytes

iRhom2 Regulation of TACE Controls TNF-Mediated Protection Against Listeria and Responses to LPS

Natural killer cell activation enhances immune pathology and promotes chronic infection by limiting CD8 ⁺ T-cell immunity

Mechanisms of Suicidal Erythrocyte Death

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Resources

About

Karl S. Lang

Control of coronavirus infection through plasmacytoid dendritic-cell–derived type I interferon

Cation channels trigger apoptotic death of erythrocytes

iRhom2 Regulation of TACE Controls TNF-Mediated Protection Against Listeria and Responses to LPS

Natural killer cell activation enhances immune pathology and promotes chronic infection by limiting CD8 + T-cell immunity

Mechanisms of Suicidal Erythrocyte Death

Contact Info

Product

Resources

About

Natural killer cell activation enhances immune pathology and promotes chronic infection by limiting CD8 ⁺ T-cell immunity