Histidine-Rich Glycoprotein Protects from Systemic Candida Infection

Rydengård, Victoria; Shannon, Oonagh; Lundqvist, Katarina; Kacprzyk, Lukasz; Chalupka, Anna; Olsson, Anna-Karin; Mörgelin, Matthias; Jahnen-Dechent, Willi; Malmsten, Martin; Schmidtchen, Artur

doi:10.1371/journal.ppat.1000116

Cited by 64 publications

(93 citation statements)

References 58 publications

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“…The presently disclosed direct antibacterial action of C-terminal peptides of TFPI is in line with observations indicating that heparin-binding proteins, such as complement C3 (25), kininogen (36,37), heparin-binding protein (38), heparin-binding epidermal growth factor and other growth factors (39), heparin/heparan sulfate-interacting protein (40), ␤2-glycoprotein (41), histidine-rich glycoprotein (42), and human thrombin (43) may, either as holoproteins or after fragmentation, exert antimicrobial activities in vitro and, in several cases, in vivo (36,37,42). In addition, peptide-mediated C3a generation, along with enhanced MAC formation, represents a mechanism by which a host defense peptide may selectively enhance microbial killing by generation of additional complement-derived AMPs.…”

Section: Discussionsupporting

confidence: 81%

C-terminal Peptides of Tissue Factor Pathway Inhibitor Are Novel Host Defense Molecules

Papareddy

Kalle

Kasetty

et al. 2010

Journal of Biological Chemistry

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Tissue factor pathway inhibitor (TFPI) inhibits tissue factorinduced coagulation, but may, via its C terminus, also modulate cell surface, heparin, and lipopolysaccharide interactions as well as participate in growth inhibition. Here we show that C-terminal TFPI peptide sequences are antimicrobial against the Gram-negative bacteria Escherichia coli and Pseudomonas aeruginosa, Gram-positive Bacillus subtilis and Staphylococcus aureus, as well as the fungi Candida albicans and Candida parapsilosis. Fluorescence studies of peptide-treated bacteria, paired with analysis of peptide effects on liposomes, showed that the peptides exerted membrane-breaking effects similar to those seen for the "classic" human antimicrobial peptide LL-37. The killing of E. coli, but not P. aeruginosa, by the C-terminal peptide GGLIKTKRKRKKQRVKIAYEEIFVKNM (GGL27), was enhanced in human plasma and largely abolished in heatinactivated plasma, a phenomenon linked to generation of antimicrobial C3a and activation of the classic pathway of complement activation. Furthermore, GGL27 displayed antiendotoxic effects in vitro and in vivo in a mouse model of LPS shock. Importantly, TFPI was found to be expressed in the basal layers of normal epidermis, and was markedly up-regulated in acute skin wounds as well as wound edges of chronic leg ulcers. Furthermore, C-terminal fragments of TFPI were associated with bacteria present in human chronic leg ulcers. These findings suggest a new role for TFPI in cutaneous defense against infections.

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Section: Discussionsupporting

confidence: 81%

C-terminal Peptides of Tissue Factor Pathway Inhibitor Are Novel Host Defense Molecules

Papareddy

Kalle

Kasetty

et al. 2010

Journal of Biological Chemistry

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“…12 Furthermore, because the binding of ␤ 2 GPI to apoptotic cells via anionic phospholipids has been proposed to initiate the break of tolerance and induce the generation of anti-␤ 2 GPI or antiphospholipid-␤ 2 GPI complex autoantibodies, 46 the interaction between HRG and phospholipids in necrotic cells may provide a potential mechanism for generating anti-HRG autoantibodies, as suggested by Ball-Rosen et al 29 In addition to regulating coagulation and fibrinolysis, HRG has also been shown to bind to and facilitate the removal of bacteria 47,48 and fungi. 49 The specific binding of HRG to pathogens [47][48][49] and molecular structures exposed on necrotic cells, as shown in this study, clearly highlights its ability to function as a PRM like C1q, CRP, MBL, and ␤ 2 GPI. Interestingly, these PRMs, including HRG, are frequently targeted by autoantibodies.…”

Section: Discussionsupporting

confidence: 51%

Histidine-rich glycoprotein is a novel plasma pattern recognition molecule that recruits IgG to facilitate necrotic cell clearance via FcγRI on phagocytes

Poon

Hulett

Parish

2010

Blood

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Under normal physiologic conditions, necrotic cells resulting from tissue injury are rapidly removed from the circulation and tissues by phagocytes, thus preventing the exposure of intracellular antigenic and immunostimulatory molecules that can aid the development of autoimmune disease. Histidine-rich glycoprotein (HRG), a relatively abundant plasma glycoprotein, has a multidomain structure that can interact with many ligands including components of the fibrinolytic and immune systems. Recently, it has been reported that HRG can bind strongly to cytoplasmic ligand(s) exposed in necrotic cells to enhance clearance by phagocytes. Here we describe the molecular mechanisms underpinning this process. A complex consisting of both HRG and immunoglobulin G (IgG) was found as necessary to aid necrotic cell uptake by monocytes, predominantly via an Fc␥RI-dependent mechanism. The findings in this study also show that HRG can potentially interact with anionic phospholipids exposed in necrotic cells. Furthermore, the enhanced phagocytosis of necrotic cells induced by HRG-IgG complexes triggers phagocytes to release proinflammatory cytokines such as interleukin-8 and tumor necrosis factor. Thus, HRG has the unique property of complexing with IgG and facilitating a proinflammatory innate immune response to promote the clearance of necrotic cells.

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“…Further, in contrast to the helical and antimicrobial LL-37 (31) and C-terminal thrombin peptides (12), found to be released from their holoproteins hCAP18 and thrombin, respectively, the herein described HCIIa form per se mediates the bactericidal and LPS-binding effects. In this perspective, the molecule therefore belongs to the class of larger antimicrobial proteins such as antimicrobial RNases (32), eosinophil cationic protein (33), lactoferrin (34), PCI (29), and histidine-rich glycoprotein (35), which all exert bactericidal effects, albeit without the need for the critical and unique enzymatic activation, followed by the dramatic shift in net charge, and the shape transition observed for HCII in this work.…”

Section: Discussionmentioning

confidence: 92%

Proteolytic Activation Transforms Heparin Cofactor II into a Host Defense Molecule

Kalle

Papareddy

Kasetty

et al. 2013

The Journal of Immunology

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The abundant serine proteinase inhibitor heparin cofactor II (HCII) has been proposed to inhibit extravascular thrombin. However, the exact physiological role of this plasma protein remains enigmatic. In this study, we demonstrate a previously unknown role for HCII in host defense. Proteolytic cleavage of the molecule induced a conformational change, thereby inducing endotoxin-binding and antimicrobial properties. Analyses employing representative peptide epitopes mapped these effects to helices A and D. Mice deficient in HCII showed increased susceptibility to invasive infection by Pseudomonas aeruginosa, along with a significantly increased cytokine response. Correspondingly, decreased levels of HCII were observed in wild-type animals challenged with bacteria or endotoxin. In humans, proteolytically cleaved HCII forms were detected during wounding and in association with bacteria. Thus, the protease-induced uncovering of cryptic epitopes in HCII, which transforms the molecule into a host defense factor, represents a previously unknown regulatory mechanism in HCII biology and innate immunity.

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Histidine-Rich Glycoprotein Protects from Systemic Candida Infection

Cited by 64 publications

References 58 publications

C-terminal Peptides of Tissue Factor Pathway Inhibitor Are Novel Host Defense Molecules

C-terminal Peptides of Tissue Factor Pathway Inhibitor Are Novel Host Defense Molecules

Histidine-rich glycoprotein is a novel plasma pattern recognition molecule that recruits IgG to facilitate necrotic cell clearance via FcγRI on phagocytes

Proteolytic Activation Transforms Heparin Cofactor II into a Host Defense Molecule

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