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1.
Microorganisms ; 12(1)2024 Jan 18.
Article in English | MEDLINE | ID: mdl-38258026

ABSTRACT

Streptococcus pyogenes, or Group A Streptococcus, is an exclusively human pathogen that causes a wide variety of diseases ranging from mild throat and skin infections to severe invasive disease. The pathogenesis of S. pyogenes infection has been extensively studied, but the pathophysiology, especially of the more severe infections, is still somewhat elusive. One key feature of S. pyogenes is the expression of secreted, surface-associated, and intracellular enzymes that directly or indirectly affect both the innate and adaptive host immune systems. Undoubtedly, S. pyogenes is one of the major bacterial sources for immunomodulating enzymes. Major targets for these enzymes are immunoglobulins that are destroyed or modified through proteolysis or glycan hydrolysis. Furthermore, several enzymes degrade components of the complement system and a group of DNAses degrade host DNA in neutrophil extracellular traps. Additional types of enzymes interfere with cellular inflammatory and innate immunity responses. In this review, we attempt to give a broad overview of the functions of these enzymes and their roles in pathogenesis. For those enzymes where experimentally determined structures exist, the structural aspects of the enzymatic activity are further discussed. Lastly, we also discuss the emerging use of some of the enzymes as biotechnological tools as well as biological drugs and vaccines.

2.
J Orthop Res ; 42(1): 212-222, 2024 01.
Article in English | MEDLINE | ID: mdl-37334776

ABSTRACT

Treatment of chronic osteomyelitis by radical debridement and filling of the dead space with antibiotic containing calcium sulfate/hydroxyapatite (CaS/HA) bone substitute has shown excellent long-term outcomes. However, in extensive infections, sessile bacteria may remain in bone cells or soft tissues protected by biofilm leading to recurrences. The primary aim of this study was to evaluate if systemically administrated tetracycline (TET) could bind to pre-implanted HA particles and impart an antibacterial effect locally. In vitro studies indicated that the binding of TET to nano- and micro-sized HA particles was rapid and plateaued already at 1 h. Since protein passivation of HA after in-vivo implantation could affect HA-TET interaction, we investigated the effect of serum exposure on HA-TET binding in an antibacterial assay. Although, serum exposure reduced the zone of inhibition (ZOI) of Staphylococcus aureus, a significant ZOI could still be observed after pre-incubation of HA with serum. We could in addition show that zoledronic acid (ZA) competes for the same binding sites as TET and that exposure to high doses of ZA led to reduced TET-HA binding. In an in-vivo setting, we then confirmed that systemically administered TET seeks HA particles that were pre-implanted in muscle and subcutaneous pouches in rats and mice respectively, preventing HA particles from being colonized by S. aureus. Clinical Significance: This study describes a new drug delivery method that could prevent bacterial colonization of a HA biomaterial and reduce recurrences in bone infection.


Subject(s)
Anti-Bacterial Agents , Osteomyelitis , Rats , Mice , Animals , Anti-Bacterial Agents/therapeutic use , Anti-Bacterial Agents/pharmacology , Durapatite/pharmacology , Staphylococcus aureus , Tetracycline , Zoledronic Acid/therapeutic use , Osteomyelitis/drug therapy , Osteomyelitis/prevention & control
3.
Nat Commun ; 14(1): 6693, 2023 10 23.
Article in English | MEDLINE | ID: mdl-37872209

ABSTRACT

Group A streptococcus (GAS) is a major bacterial pathogen responsible for both local and systemic infections in humans. The molecular mechanisms that contribute to disease heterogeneity remain poorly understood. Here we show that the transition from a local to a systemic GAS infection is paralleled by pathogen-driven alterations in IgG homeostasis. Using animal models and a combination of sensitive proteomics and glycoproteomics readouts, we documented the progressive accumulation of IgG cleavage products in plasma, due to extensive enzymatic degradation triggered by GAS infection in vivo. The level of IgG degradation was modulated by the route of pathogen inoculation, and mechanistically linked to the combined activities of the bacterial protease IdeS and the endoglycosidase EndoS, upregulated during infection. Importantly, we show that these virulence factors can alter the structure and function of exogenous therapeutic IgG in vivo. These results shed light on the role of bacterial virulence factors in shaping GAS pathogenesis, and potentially blunting the efficacy of antimicrobial therapies.


Subject(s)
Bacterial Proteins , Streptococcal Infections , Humans , Animals , Bacterial Proteins/metabolism , Immunoglobulin G , Streptococcal Infections/microbiology , Streptococcus pyogenes , Virulence Factors/metabolism
4.
Methods Mol Biol ; 2674: 131-146, 2023.
Article in English | MEDLINE | ID: mdl-37258965

ABSTRACT

Bacterial proteases are important enzymes used in several technical applications where controlled cleavage of proteins is needed. They are challenging enzymes to express recombinantly as parts of the proteome can be hydrolyzed by their activity. The eukaryotic model organism Saccharomyces cerevisiae is potentially a good expression host as it tolerates several stress conditions and is known to better express insoluble proteins compared to bacterial systems. In this chapter we describe how the protease IdeS from Streptococcus pyogenes can be expressed in S. cerevisiae. The expression of IdeS was followed by constructing a fused protein with GFP and measuring the fluorescence with flow cytometry. The protease presence was confirmed with a Western blot assay and activity was measured with an in vitro assay. To reduce potentially toxic effect on the host cell, the growth and production phases were separated by using the inducible promoter GAL1p to control recombinant gene expression. The protocol provided may be adopted for other bacterial proteases through minor modifications of the fused protein.


Subject(s)
Bacterial Proteins , Saccharomyces cerevisiae , Saccharomyces cerevisiae/genetics , Saccharomyces cerevisiae/metabolism , Bacterial Proteins/metabolism , Recombinant Fusion Proteins/genetics , Recombinant Fusion Proteins/metabolism , Fluorescence , Peptide Hydrolases/metabolism
5.
J Bone Jt Infect ; 8(1): 19-28, 2023.
Article in English | MEDLINE | ID: mdl-36687463

ABSTRACT

Introduction: biomaterials combined with antibiotics are routinely used for the management of bone infections. After eluting high concentrations of antibiotics during the first week, sub-inhibitory concentrations of antibiotics may lead to late repopulation of recalcitrant bacteria. Recent studies have shown that systemically given antibiotics like tetracycline and rifampicin (RIF) could seek and bind to locally implanted hydroxyapatite (HA). The aim of this in vivo study was to test if systemically administered rifampicin could replenish HA-based biomaterials with or without prior antibiotic loading to protect the material from late bacterial repopulation. Methods: in vivo accretion of systemically administered RIF to three different types of HA-based materials was tested. In group 1, nano (n)- and micro (m)-sized HA particles were used, while group 2 consisted of a calcium sulfate / hydroxyapatite (CaS / HA) biomaterial without preloaded antibiotics gentamycin (GEN) or vancomycin (VAN), and in group 3, the CaS / HA material contained GEN (CaS / HA + GEN) or VAN (CaS / HA + VAN). The above materials were implanted in an abdominal muscle pouch model in rats, and at 7 d post-surgery, the animals were assigned to a control group (i.e., no systemic antibiotic) and a test group (i.e., animals receiving one single intraperitoneal injection of RIF each day (4 mg per rat) for 3 consecutive days). Twenty-four hours after the third injection, the animals were sacrificed and the implanted pellets were retrieved and tested against Staphylococcus aureus ATCC 25923 in an agar diffusion assay. After overnight incubation, the zone of inhibition (ZOI) around the pellets were measured. Results: in the control group, 2 / 6 CaS / HA + GEN pellets had a ZOI, while all other harvested pellets had no ZOI. No pellets from animals in test group 1 had a ZOI. In test group 2, 10 / 10 CaS / HA pellets showed a ZOI. In test group 3, 5 / 6 CaS / HA + GEN and 4 / 6 CaS / HA + VAN pellets showed a ZOI. Conclusions: in this proof-of-concept study, we have shown that a locally implanted biphasic CaS / HA carrier after 1 week can be loaded by systemic RIF administration and exert an antibacterial effect. Further in vivo infection models are necessary to validate our findings.

6.
Bone Joint Res ; 11(11): 787-802, 2022 Nov.
Article in English | MEDLINE | ID: mdl-36349950

ABSTRACT

AIMS: There is a lack of biomaterial-based carriers for the local delivery of rifampicin (RIF), one of the cornerstone second defence antibiotics for bone infections. RIF is also known for causing rapid development of antibiotic resistance when given as monotherapy. This in vitro study evaluated a clinically used biphasic calcium sulphate/hydroxyapatite (CaS/HA) biomaterial as a carrier for dual delivery of RIF with vancomycin (VAN) or gentamicin (GEN). METHODS: The CaS/HA composites containing RIF/GEN/VAN, either alone or in combination, were first prepared and their injectability, setting time, and antibiotic elution profiles were assessed. Using a continuous disk diffusion assay, the antibacterial behaviour of the material was tested on both planktonic and biofilm-embedded forms of standard and clinical strains of Staphylococcus aureus for 28 days. Development of bacterial resistance to RIF was determined by exposing the biofilm-embedded bacteria continuously to released fractions of antibiotics from CaS/HA-antibiotic composites. RESULTS: Following the addition of RIF to CaS/HA-VAN/GEN, adequate injectability and setting of the CaS/HA composites were noted. Sustained release of RIF above the minimum inhibitory concentrations of S. aureus was observed until study endpoint (day 35). Only combinations of CaS/HA-VAN/GEN + RIF exhibited antibacterial and antibiofilm effects yielding no viable bacteria at study endpoint. The S. aureus strains developed resistance to RIF when biofilms were subjected to CaS/HA-RIF alone but not with CaS/HA-VAN/GEN + RIF. CONCLUSION: Our in vitro results indicate that biphasic CaS/HA loaded with VAN or GEN could be used as a carrier for RIF for local delivery in clinically demanding bone infections.Cite this article: Bone Joint Res 2022;11(11):787-802.

7.
J Invest Dermatol ; 142(6): 1552-1564.e8, 2022 06.
Article in English | MEDLINE | ID: mdl-34793820

ABSTRACT

Substitution of IgG in antibody deficiency or application of high-dose intravenous IgG in patients with autoimmunity is a well-established treatment. However, data on the mode of action of intravenous IgG are controversial and may differ for distinct diseases. In this study, we investigated the impact and molecular mechanism of high-dose IgG (hd-IgG) treatment in murine autoantibody‒induced skin inflammation, namely, epidermolysis bullosa acquisita. Epidermolysis bullosa acquisita is caused by antibodies directed against type VII collagen and is mediated by complement activation, the release of ROS, and proteases by myeloid cells. In murine experimental epidermolysis bullosa acquisita, the disease can be induced by injection of anti‒type VII collagen IgG. In this study, we substantiate that treatment with hd-IgG improves clinical disease manifestation. Mechanistically, hd-IgG reduced the amount of anti‒type VII collagen in the skin and sera, which is indicative of an FcRn-dependent mode of action. Furthermore, in a nonreceptor-mediated fashion, hd-IgG showed antioxidative properties by scavenging extracellular ROS. Hd-IgG also impaired complement activation and served as a substrate for proteases, both key events during epidermolysis bullosa acquisita pathogenesis. Collectively, the nonreceptor-mediated anti-inflammatory properties of hd-IgG may explain the therapeutic benefit of intravenous IgG treatment in skin autoimmunity.


Subject(s)
Epidermolysis Bullosa Acquisita , Animals , Autoantibodies , Collagen Type VII , Humans , Immunoglobulin G , Mice , Peptide Hydrolases , Reactive Oxygen Species
9.
J Allergy Clin Immunol ; 146(3): 652-666.e11, 2020 09.
Article in English | MEDLINE | ID: mdl-32445838

ABSTRACT

BACKGROUND: Effector functions of IgG Abs are regulated by their Fc N-glycosylation pattern. IgG Fc glycans that lack galactose and terminal sialic acid residues correlate with the severity of inflammatory (auto)immune disorders and have also been linked to protection against viral infection and discussed in the context of vaccine-induced protection. In contrast, sialylated IgG Abs have shown immunosuppressive effects. OBJECTIVE: We sought to investigate IgG glycosylation programming during the germinal center (GC) reaction following immunization of mice with a foreign protein antigen and different adjuvants. METHODS: Mice were analyzed for GC T-cell, B-cell, and plasma cell responses, as well as for antigen-specific serum IgG subclass titers and Fc glycosylation patterns. RESULTS: Different adjuvants induce distinct IgG+ GC B-cell responses with specific transcriptomes and expression levels of the α2,6-sialyltransferase responsible for IgG sialylation that correspond to distinct serum IgG Fc glycosylation patterns. Low IgG Fc sialylation programming in GC B cells was overall highly dependent on the Foxp3- follicular helper T (TFH) cell-inducing cytokine IL-6, here in particular induced by water-in-oil adjuvants and Mycobacterium tuberculosis. Furthermore, low IgG Fc sialylation programming was dependent on adjuvants that induced IL-27 receptor-dependent IFN-γ+ TFH1 cells, IL-6/IL-23-dependent IL-17A+ TFH17 cells, and high ratios of TFH cells to Foxp3+ follicular regulatory T cells. Here, the 2 latter were dependent on M tuberculosis and its cord factor. CONCLUSION: This study's findings regarding adjuvant-dependent GC responses and IgG glycosylation programming may aid in the development of novel vaccination strategies to induce IgG Abs with both high affinity and defined Fc glycosylation patterns in the GC.


Subject(s)
Adjuvants, Immunologic/administration & dosage , Antigens/administration & dosage , Germinal Center/immunology , Immunoglobulin G/immunology , Alum Compounds/administration & dosage , Animals , B-Lymphocytes/drug effects , B-Lymphocytes/immunology , Cytokines/immunology , Female , Freund's Adjuvant/administration & dosage , Glycosylation , Lipopolysaccharides/administration & dosage , Mice, Inbred C57BL , Mice, Knockout , Mineral Oil/administration & dosage , Mycobacterium tuberculosis/immunology , Ovalbumin/administration & dosage , Polysorbates/administration & dosage , Squalene/administration & dosage , T-Lymphocytes/drug effects , T-Lymphocytes/immunology , Vaccination
11.
J Exp Med ; 216(8): 1904-1924, 2019 08 05.
Article in English | MEDLINE | ID: mdl-31196979

ABSTRACT

Rheumatoid arthritis-associated joint pain is frequently observed independent of disease activity, suggesting unidentified pain mechanisms. We demonstrate that antibodies binding to cartilage, specific for collagen type II (CII) or cartilage oligomeric matrix protein (COMP), elicit mechanical hypersensitivity in mice, uncoupled from visual, histological and molecular indications of inflammation. Cartilage antibody-induced pain-like behavior does not depend on complement activation or joint inflammation, but instead on tissue antigen recognition and local immune complex (IC) formation. smFISH and IHC suggest that neuronal Fcgr1 and Fcgr2b mRNA are transported to peripheral ends of primary afferents. CII-ICs directly activate cultured WT but not FcRγ chain-deficient DRG neurons. In line with this observation, CII-IC does not induce mechanical hypersensitivity in FcRγ chain-deficient mice. Furthermore, injection of CII antibodies does not generate pain-like behavior in FcRγ chain-deficient mice or mice lacking activating FcγRs in neurons. In summary, this study defines functional coupling between autoantibodies and pain transmission that may facilitate the development of new disease-relevant pain therapeutics.


Subject(s)
Antibodies, Monoclonal/immunology , Antigen-Antibody Complex/metabolism , Arthralgia/immunology , Arthritis, Rheumatoid/immunology , Autoantibodies/immunology , Cartilage/immunology , Neurons/metabolism , Animals , Antibodies, Monoclonal/therapeutic use , Arthralgia/drug therapy , Arthritis, Rheumatoid/drug therapy , Autoantibodies/therapeutic use , Behavior, Animal/drug effects , Cartilage Oligomeric Matrix Protein/immunology , Collagen Type II/immunology , Disease Models, Animal , Female , Male , Mice , Mice, Inbred BALB C , Mice, Inbred C57BL , Mice, Inbred CBA , Mice, Transgenic , Receptors, IgG/deficiency , Receptors, IgG/genetics
12.
J Exp Med ; 216(7): 1615-1629, 2019 07 01.
Article in English | MEDLINE | ID: mdl-31092533

ABSTRACT

Streptococcus pyogenes (Group A streptococcus; GAS) is a human pathogen causing diseases from uncomplicated tonsillitis to life-threatening invasive infections. GAS secretes EndoS, an endoglycosidase that specifically cleaves the conserved N-glycan on IgG antibodies. In vitro, removal of this glycan impairs IgG effector functions, but its relevance to GAS infection in vivo is unclear. Using targeted mass spectrometry, we characterized the effects of EndoS on host IgG glycosylation during the course of infections in humans. Substantial IgG glycan hydrolysis occurred at the site of infection and systemically in the severe cases. We demonstrated decreased resistance to phagocytic killing of GAS lacking EndoS in vitro and decreased virulence in a mouse model of invasive infection. This is the first described example of specific bacterial IgG glycan hydrolysis during infection and thereby verifies the hypothesis that EndoS modifies antibodies in vivo. This mechanisms of immune evasion could have implications for treatment of severe GAS infections and for future efforts at vaccine development.


Subject(s)
Adaptive Immunity/immunology , Bacterial Proteins/metabolism , Glycoside Hydrolases/metabolism , Immunoglobulin G/immunology , Streptococcal Infections/immunology , Streptococcus pyogenes/immunology , Animals , Disease Models, Animal , Electrophoresis, Polyacrylamide Gel , Female , Glycosylation , Humans , Hydrolysis , Immunoglobulin G/metabolism , Immunoglobulin G/pharmacology , Limit of Detection , Mass Spectrometry , Mice , Mice, Inbred C57BL , Streptococcal Infections/microbiology , Streptococcus pyogenes/enzymology , Tonsillitis/immunology , Tonsillitis/microbiology
13.
Front Immunol ; 9: 1623, 2018.
Article in English | MEDLINE | ID: mdl-30061892

ABSTRACT

Endo-ß-N-acetylglucosaminidase (EndoS) is a family 18 glycosyl hydrolase secreted by Streptococcus pyogenes. Recombinant EndoS hydrolyzes the ß-1,4-di-N-acetylchitobiose core of the N-linked complex type glycan on the asparagine 297 of the γ-chains of IgG. Here, we report that EndoS and IgG hydrolyzed by EndoS induced suppression of local immune complex (IC)-mediated arthritis. A small amount (1 µg given i.v. to a mouse) of EndoS was sufficient to inhibit IgG-mediated arthritis in mice. The presence of EndoS disturbed larger IC lattice formation both in vitro and in vivo, as visualized with anti-C3b staining. Neither complement binding in vitro nor antigen-antibody binding per se were affected. Thus, EndoS could potentially be used for treating patients with IC-mediated pathology.

14.
Arthritis Rheumatol ; 70(8): 1343-1353, 2018 08.
Article in English | MEDLINE | ID: mdl-29513929

ABSTRACT

OBJECTIVE: To develop a new chronic rheumatoid arthritis model that is driven by the innate immune system. METHODS: Injection of a cocktail of 4 monoclonal antibodies against type II collagen, followed on days 5 and 60 by intraperitoneal injections of mannan (from Saccharomyces cerevisiae), was used to induce development of chronic arthritis in B10.Q mice. The role of the innate immune system as compared to the adaptive immune system in this arthritis model was investigated using genetically modified mouse strains. RESULTS: A new model of chronic relapsing arthritis was characterized in B10.Q mice, in which a persistently active, chronic disease was found. This relapsing disease was driven by macrophages lacking the ability to mount a reactive oxygen species response against pathogens, and was associated with the classical/alternative pathway, but not the lectin pathway, of complement activation. The disease was independent of Fcγ receptor type III, and also independent of the activity of adaptive immune cells (B and T cells), indicating that the innate immune system, involving complement activation, could be the sole driver of chronicity. CONCLUSION: Chronic active arthritis can be driven innately by macrophages without the involvement of T and B cells in the adaptive immune system.


Subject(s)
Arthritis, Experimental/immunology , Arthritis, Rheumatoid/immunology , Immunity, Innate/immunology , Macrophages/immunology , T-Lymphocytes/immunology , Animals , Antibodies, Monoclonal/immunology , B-Lymphocytes/immunology , Collagen Type II/immunology , Disease Models, Animal , Mice
16.
Anaerobe ; 45: 129-132, 2017 Jun.
Article in English | MEDLINE | ID: mdl-28330774

ABSTRACT

Leukotoxin is a well-known virulence factor of animal isolates of Fusobacterium necrophorum subspecies necrophorum, and is also expressed by animal isolates of subspecies funduliforme, whereas its presence in isolates from humans has not been fully established. In this study we found that the leukotoxin gene was present in all tested F. necrophorum isolates from humans. Three sequence variants were found, two of which have not been described previously. The sequence types correlated to source of infection. Further studies are needed to examine the role of the leukotoxin in human infections.


Subject(s)
Exotoxins/genetics , Fusobacterium Infections/microbiology , Fusobacterium necrophorum/genetics , Immunosuppressive Agents , Virulence Factors/genetics , Fusobacterium necrophorum/isolation & purification , Genotype , Humans , Sequence Analysis, DNA
18.
Appl Environ Microbiol ; 83(4)2017 02 15.
Article in English | MEDLINE | ID: mdl-27940543

ABSTRACT

The development of therapeutic and diagnostic antibodies is a rapidly growing field of research, being the fastest expanding group of products on the pharmaceutical market, and appropriate quality controls are crucial for their application. We have identified and characterized the serine protease termed BspK (Bdellovibrio serine protease K) from Bdellovibrio bacteriovorus and here show its activity on antibodies. Mutation of the serine residue at position 230 rendered the protease inactive. Further investigations of BspK enzymatic characteristics revealed autoproteolytic activity, resulting in numerous cleavage products. Two of the autoproteolytic cleavage sites in the BspK fusion protein were investigated in more detail and corresponded to cleavage after K28 and K210 in the N- and C-terminal parts of BspK, respectively. Further, BspK displayed stable enzymatic activity on IgG within the pH range of 6.0 to 9.5 and was inhibited in the presence of ZnCl2 BspK demonstrated preferential hydrolysis of human IgG1 compared to other immunoglobulins and isotypes, with hydrolysis of the heavy chain at position K226 generating two separate Fab fragments and an intact IgG Fc domain. Finally, we show that BspK preferentially cleaves its substrates C-terminally to lysines similar to the protease LysC. However, BspK displays a unique cleavage profile compared to several currently used proteases on the market. IMPORTANCE: The rapid development of novel therapeutic antibodies is partly hindered by difficulties in assessing their quality and safety. The lack of tools and methods facilitating such quality controls obstructs and delays the process of product approval, eventually affecting the patients in need of treatment. These difficulties in product evaluations indicate a need for new and comprehensive tools for such analysis. Additionally, recent concerns raised regarding the limitations of established products on the market (e.g., trypsin) further highlight a general need for a larger array of proteases with novel cleavage profiles to meet current and future needs, within both the life science industry and the academic research community.


Subject(s)
Antibodies, Monoclonal/therapeutic use , Bdellovibrio bacteriovorus/genetics , Bdellovibrio bacteriovorus/metabolism , Immunoglobulin G/metabolism , Serine Proteases/metabolism , Amino Acid Sequence , Antibodies, Monoclonal/metabolism , Chlorides/pharmacology , Gene Expression Regulation, Bacterial , Humans , Hydrolysis , Proteolysis , Serine Proteases/genetics , Serine Proteases/immunology , Zinc Compounds/pharmacology
19.
Methods Mol Biol ; 1535: 339-351, 2017.
Article in English | MEDLINE | ID: mdl-27914091

ABSTRACT

The endoglycosidase EndoS and the protease IdeS from the human pathogen Streptococcus pyogenes are immunomodulating enzymes hydrolyzing human IgG. IdeS cleaves IgG in the lower hinge region, while EndoS hydrolyzes the conserved N-linked glycan in the Fc region. Both enzymes are remarkably specific for human IgG that after hydrolysis loses most of its effector functions, such as binding to leukocytes and complement activation, all contributing to bacterial evasion of adaptive immunity. However, taken out of their infectious context, we and others have shown that IdeS and EndoS can alleviate autoimmune disease in a number of animal models of antibody-mediated disorders. In this chapter, we will briefly describe the discovery and characterization of these unique enzymes, present the findings from a number of animal models of autoimmunity where the enzymes have been tested, and outline the ongoing clinical testing of IdeS. Furthermore, we will discuss the rationale for further development of IdeS and EndoS into novel pharmaceuticals against diseases where IgG antibodies contribute to the pathology, including, but not restricted to, chronic and acute autoimmunity, transplant rejection, and antidrug antibody reactions.


Subject(s)
Autoimmune Diseases/drug therapy , Autoimmune Diseases/immunology , Autoimmunity/drug effects , Bacterial Proteins/therapeutic use , Glycoside Hydrolases/therapeutic use , Immunoglobulin G/immunology , Immunoglobulin G/metabolism , Animals , Bacterial Proteins/pharmacology , Clinical Trials as Topic , Disease Models, Animal , Drug Evaluation, Preclinical , Glycoside Hydrolases/pharmacology , Graft Rejection/drug therapy , Graft Rejection/immunology , Humans , Hydrolysis , Proteolysis , Treatment Outcome
20.
Exp Dermatol ; 26(8): 691-696, 2017 08.
Article in English | MEDLINE | ID: mdl-27512946

ABSTRACT

IgG antibodies are potent inducers of proinflammatory responses by cross-linking Fc receptors on innate immune effector cells resulting in tissue injury. The recently discovered enzymes endoglycosidase S (EndoS) and IgG-degrading enzyme (IdeS) of Streptococcus pyogenes are able to modulate the interaction between IgG antibodies and the Fc receptors, by hydrolysis of the glycan associated with the heavy chain of the IgG molecule (EndoS), or cleavage in the hinge region of the heavy IgG chain (IdeS). In this work, we investigated their ability to inhibit damage mediated by skin-bound antibodies in vivo in two different experimental models, the Arthus reaction, and epidermolysis bullosa acquisita, an autoimmune blistering skin disease associated with autoantibodies against type VII collagen. We demonstrate that both enzymes efficiently interfere with IgG-mediated proinflammatory processes, offering a great asset to specifically target pathological IgG antibodies in the skin and holding great promise for future applications in human therapy.


Subject(s)
Arthus Reaction/prevention & control , Bacterial Proteins/therapeutic use , Epidermolysis Bullosa Acquisita/prevention & control , Glycoside Hydrolases/therapeutic use , Animals , Bacterial Proteins/metabolism , Bacterial Proteins/pharmacology , Collagen Type VII/immunology , Drug Evaluation, Preclinical , Female , Glycoside Hydrolases/metabolism , Glycoside Hydrolases/pharmacology , Immunoglobulin G/metabolism , Mice, Inbred C57BL
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