Stefanie Sigel scite author profile

Streptococcus pyogenes is a Gram-positive human pathogen that is recognized by yet unknown pattern recognition receptors (PRRs). Engagement of these receptor molecules during infection with S. pyogenes, a largely extracellular bacterium with limited capacity for intracellular survival, causes innate immune cells to produce inflammatory mediators such as TNF, but also type I interferon (IFN). Here we show that signaling elicited by type I IFNs is required for successful defense of mice against lethal subcutaneous cellulitis caused by S. pyogenes. Type I IFN signaling was accompanied with reduced neutrophil recruitment to the site of infection. Mechanistic analysis revealed that macrophages and conventional dendritic cells (cDCs) employ different signaling pathways leading to IFN-beta production. Macrophages required IRF3, STING, TBK1 and partially MyD88, whereas in cDCs the IFN-beta production was fully dependent on IRF5 and MyD88. Furthermore, IFN-beta production by macrophages was dependent on the endosomal delivery of streptococcal DNA, while in cDCs streptococcal RNA was identified as the IFN-beta inducer. Despite a role of MyD88 in both cell types, the known IFN-inducing TLRs were individually not required for generation of the IFN-beta response. These results demonstrate that the innate immune system employs several strategies to efficiently recognize S. pyogenes, a pathogenic bacterium that succeeded in avoiding recognition by the standard arsenal of TLRs.

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Lipocalin 2 deactivates macrophages and worsens pneumococcal pneumonia outcomes

Warszawska¹,

Gawish²,

Sharif³

et al. 2013

J. Clin. Invest.

123

119

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Macrophages play a key role in responding to pathogens and initiate an inflammatory response to combat microbe multiplication. Deactivation of macrophages facilitates resolution of the inflammatory response. Deactivated macrophages are characterized by an immunosuppressive phenotype, but the lack of unique markers that can reliably identify these cells explains the poorly defined biological role of this macrophage subset. We identified lipocalin 2 (LCN2) as both a marker of deactivated macrophages and a macrophage deactivator. We show that LCN2 attenuated the early inflammatory response and impaired bacterial clearance, leading to impaired survival of mice suffering from pneumococcal pneumonia. LCN2 induced IL-10 formation by macrophages, skewing macrophage polarization in a STAT3-dependent manner. Pulmonary LCN2 levels were tremendously elevated during bacterial pneumonia in humans, and high LCN2 levels were indicative of a detrimental outcome from pneumonia with Gram-positive bacteria. Our data emphasize the importance of macrophage deactivation for the outcome of pneumococcal infections and highlight the role of LCN2 and IL-10 as determinants of macrophage performance in the respiratory tract.

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Impaired TLR‐2 expression and TLR‐2‐mediated cytokine secretion in macrophages from patients with atopic dermatitis

Niebuhr

Lutat

Sigel

et al. 2009

Allergy

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Cytokine induction by Gram-positive bacteria

et al. 2008

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Despite similar clinical relevance of Gram-positive and Gram-negative infections, immune activation by Gram-positive bacteria is by far less well understood than immune activation by Gram-negative bacteria. Our group has made available highly purified lipoteichoic acids (LTA) as a key Gram-positive immunostimulatory component. We have characterized the reasons for lower potency of LTA compared to Gram-negative lipopolysaccharide (LPS), identifying lack of IL-12/IFNgamma induction as a general characteristic of TLR2 agonists, and need for presentation of LTA on surfaces for enhanced immunostimulatory potency, as major aspects. Aspects of chemokine induction, where LTA is more potent than LPS, have been addressed. Furthermore, novel complement and plant defence activation, as well as CD36 as a new LTA receptor, were identified. The bacterial costimuli and modulators of LTA inducible responses are being investigated: LTA isolated from so far 16 bacterial species, although different in structure, behave remarkably similar while whole live and killed bacteria differ with regard to the pattern of induced responses. The purification and characterization of the respective components of the bacterial cell wall has begun.

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Internalization and Coreceptor Expression Are Critical for TLR2-Mediated Recognition of Lipoteichoic Acid in Human Peripheral Blood

Bunk

Sigel

Metzdorf

et al. 2010

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Use of Synthetic Derivatives To Determine the Minimal Active Structure of Cytokine-Inducing Lipoteichoic Acid

Deininger

Figueroa-Perez

Sigel

et al. 2007

Clin Vaccine Immunol

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Lipoteichoic acid (LTA) from gram-positive bacteria is the counterpart to lipopolysaccharide from gramnegative bacteria. LTA, which activates Toll-like receptor 2 (TLR2), induces a unique cytokine and chemokine pattern. The chemical synthesis of LTA proved its immunostimulatory properties. To determine the minimal active structure of LTA, we reduced synthetic LTA in a number of steps down to the synthetic anchor and employed these molecules to stimulate interleukin-8 (IL-8) release in human whole blood. Ten times more of the synthetic structures with four to six D-alanine-substituted polyglycerophosphate units (50 nM) than of the native LTA preparation was required to induce IL-8 release. A further reduction to three backbone units with two or no D-alanine residues resulted in cytokine induction only from 500 nM. The synthetic anchor was not able to induce IL-8 release even at 5 M. When the LTA derivatives were used at 500 nM, they induced increasing levels of IL-8 and tumor necrosis factor alpha with increasing elongation of the backbone. Peritoneal macrophages were less responsive than human blood to the synthetic structures. Therefore, TLR2 dependency could be shown only with cells from TLR2-deficient mice for the two largest synthetic structures. This was confirmed by using TLR2-transfected HEK 293 cells. Taken together, these data indicate that although the synthetic anchor (which, unlike the native anchor, contains only myristic acid) cannot induce cytokine release, the addition of three backbone units, even without D-alanine substituents, confers this ability. Lengthening of the chain with D-alanine-substituted backbone units results in increased cytokine-inducing potency and a more sensitive response.Recognition of conserved bacterial structures called pathogen-associated molecular patterns occurs via pattern recognition receptors on immune cells and leads to activation of the innate immune system and the induction of a variety of cytokines. Lipopolysaccharide (LPS) has been known as the most important pathogen-associated molecular pattern of gramnegative bacteria for more than 50 years (16) and has been well examined in detail over the decades. Immune recognition takes place by the binding of LPS to Toll-like receptor 4 (TLR4) and also involves the cofactors CD14 (17) and 14).The immunostimulatory component of gram-positive bacteria was not clear for a long time, although a structural counterpart to LPS, called lipoteichoic acid (LTA), was found in the bacterial membrane. Like LPS, LTA is an amphiphilic molecule with a lipid anchor and a negatively charged backbone. Inefficient preparation methods on the basis of hot phenol, which resulted in the decomposition and the subsequent loss of activity, or LPS contamination during preparation led to inconsistent findings (9). Meanwhile, an improved preparation method based on n-butanol extraction at an ambient temperature was developed to purify the biologically active LTA of Staphylococcus aureus (8) and other organisms (3, 4). Structural analysis by nuclear ...

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Dysregulation of CD36 upon TLR‐2 stimulation in monocytes from patients with atopic dermatitis and the TLR2 R753Q polymorphism

Niebuhr

Langnickel

Sigel

et al. 2010

Experimental Dermatology

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Apolipoprotein B100 is a suppressor of Staphylococcus aureus‐induced innate immune responses in humans and mice

et al. 2012

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Plasma lipoproteins such as LDL (low-density lipoprotein) are important therapeutic targets as they play a crucial role in macrophage biology and metabolic disorders. The impact of lipoprotein profiles on host defense pathways against Gram-positive bacteria is poorly understood. In this report, we discovered that human serum lipoproteins bind to lipoteichoic acid (LTA) from Staphylococcus aureus and thereby alter the immune response to these bacteria. Size-exclusion chromatography and solid-phase-binding analysis of serum revealed the direct interaction of LTA with apolipoproteins (Apo) B100, ApoA1, and ApoA2. Only ApoB100 and the corresponding LDL exerted biological effects as this binding significantly inhibited LTA-induced cytokine releases from human and murine immune cells. Serum from hypercholesterolemic mice or humans significantly diminished cytokine induction in response to S. aureus or its LTA. Sera taken from the patients with familial hypercholesterolemia before and after ApoB100-directed immuno-apheresis confirmed that ApoB100 inhibited LTA-induced inflammation in humans. In addition, mice in which LDL secretion was pharmacologically inhibited, displayed significantly increased serum cytokine levels upon infection with S. aureus in vivo. The present study identifies ApoB100 as an important suppressor of innate immune activation in response to S. aureus and its LTA.

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Stefanie Sigel

Type I Interferon Production Induced by Streptococcus pyogenes-Derived Nucleic Acids Is Required for Host Protection

Lipocalin 2 deactivates macrophages and worsens pneumococcal pneumonia outcomes

Impaired TLR‐2 expression and TLR‐2‐mediated cytokine secretion in macrophages from patients with atopic dermatitis

Cytokine induction by Gram-positive bacteria

Internalization and Coreceptor Expression Are Critical for TLR2-Mediated Recognition of Lipoteichoic Acid in Human Peripheral Blood

Use of Synthetic Derivatives To Determine the Minimal Active Structure of Cytokine-Inducing Lipoteichoic Acid

Dysregulation of CD36 upon TLR‐2 stimulation in monocytes from patients with atopic dermatitis and the TLR2 R753Q polymorphism

Apolipoprotein B100 is a suppressor of Staphylococcus aureus‐induced innate immune responses in humans and mice

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