Sofia E. Magnusson

Mast cell chymase contributes to the antibody response and the severity of autoimmune arthritis

Mast cells are implicated in rheumatoid arthritis, but the mechanism by which they contribute to disease progression is not clarified. Here we investigated whether mouse mast cell protease‐4 (mMCP‐4), a chymase present in the mast cell secretory granule, contributes to experimental arthritis. Two models of arthritis were investigated in mMCP‐4+/+ and mMCP‐4−/− DBA/1 mice: collagen‐induced arthritis (CIA) was induced by immunization with collagen II (CII) in Freunds complete adjuvant, and a passive model of arthritis was induced by administration of anti‐CII antibodies. The clinical scores were significantly reduced in the mMCP‐4−/− animals as compared to mMCP‐4+/+ controls in both arthritis models. In CIA, the number of affected paws was lower in the CII‐immunized mMCP‐4−/− mice, with less cartilage destruction, pannus formation, and mononuclear cell and mast cell influx in the mMCP‐4 −/− joints. Interestingly, the lower clinical scores in the CII‐immunized mMCP‐4−/− mice coincided with lower serum levels of immunoglobulin G anti‐CII antibodies. Our findings identify a pathogenic role of mMCP‐4 in autoimmune arthritis.— Magnusson, S. E., Pejler, G., Kleinau, S., Åbrink, M. Mast cell chymase contributes to the antibody response and the severity of autoimmune arthritis. FASEB J. 23, 875–882 (2009)

Immune enhancing properties of the novel Matrix-M™ adjuvant leads to potentiated immune responses to an influenza vaccine in mice.

The novel saponin based adjuvant Matrix-M™ was recently used in a Phase I study of seasonal influenza in elderly. The present study is a pre-clinical evaluation of the efficacy and mode-of-action of Matrix-M™ formulated influenza vaccine in mice. A manuscript on safety profile and immunogenicity in elderly humans is under preparation. We have previously shown that subcutaneous injections of Matrix-M™, without coformulated antigen, results in a dose-dependent recruitment of leukocytes to draining lymph nodes (dLNs). Herein we compared the mode of action of Matrix-M™ with Alum, FCA and AS03 alone or formulated with influenza split virion antigen injected intramuscularly. The elicited responses in dLNs and spleen were investigated 48h later. Matrix-M™ was particularly efficient in activation of central innate immune cells such as neutrophils, DCs and macrophages compared to the other adjuvants analyzed. Moreover, the adjuvant influence on the recall immune response to influenza antigen was studied by in vitro re-stimulation of splenocytes from mice immunized with influenza antigen adjuvanted with Matrix-M™, Alum or AS03. Splenocytes from mice immunized with influenza antigen and Matrix-M™ produced both Th1 and Th2 cytokines upon re-stimulation. This response was significantly stronger than that induced by the other adjuvants studied. Interestingly, increased levels of the neutrophil chemoattractant KC were produced by antigen stimulated splenocytes from mice immunized with Matrix-M™ adjuvanted vaccine, which is in agreement with the increase of neutrophils into dLNs and spleen after Matrix-M™ injection. Furthermore, influenza antigen adjuvanted with Matrix-M™ induced significantly higher antigen-specific IgG1 and IgG2a responses compared to antigen alone. In conclusion, adjuvant Matrix-M™ activates the innate immune system without antigen present. This activation may explain the enhanced immunity to influenza seen with Matrix-M™ adjuvant. Despite this potent immune activation mediated by Matrix-M™, GLP-toxicity studies and clinical data suggest that Matrix-M™ adjuvant has a mild to moderate safety profile.

High synovial expression of the inhibitory FcγRIIb in rheumatoid arthritis

Activating Fc gamma receptors (FcγRs) have been identified as having important roles in the inflammatory joint reaction in rheumatoid arthritis (RA) and murine models of arthritis. However, the role of the inhibitory FcγRIIb in the regulation of the synovial inflammation in RA is less known. Here we have investigated synovial tissue from RA patients using a novel monoclonal antibody (GB3) specific for the FcγRIIb isoform. FcγRIIb was abundantly expressed in synovia of RA patients, in sharp contrast to the absence or weak staining of FcγRIIb in synovial biopsies from healthy volunteers. In addition, the expression of FcγRI, FcγRII and FcγRIII was analyzed in synovia obtained from early and late stages of RA. Compared with healthy synovia, which expressed FcγRII, FcγRIII but not FcγRI, all activating FcγRs were expressed and significantly up-regulated in RA, regardless of disease duration. Macrophages were one of the major cell types in the RA synovium expressing FcγRIIb and the activating FcγRs. Anti-inflammatory treatment with glucocorticoids reduced FcγR expression in arthritic joints, particularly that of FcγRI. This study demonstrates for the first time that RA patients do not fail to up-regulate FcγRIIb upon synovial inflammation, but suggests that the balance between expression of the inhibitory FcγRIIb and activating FcγRs may be in favour of the latter throughout the disease course. Anti-inflammatory drugs that target activating FcγRs may represent valuable therapeutics in this disease.

Amelioration of collagen-induced arthritis by human recombinant soluble FcγRIIb

Immune complex (IC) binding to Fc gamma receptors (FcgammaRs) is central for inflammatory reactions seen in autoimmune diseases. Consequently, a therapeutic agent with a possibility to interfere with binding of pathogenic IC to FcgammaRs would be valuable in autoimmune disorders such as rheumatoid arthritis (RA). Here we have explored the therapeutic effect of a recombinant soluble human FcgammaRIIb (sFcgammaRIIb) protein in collagen-induced arthritis (CIA). In vitro studies of the sFcgammaRIIb demonstrated binding to mouse IgG, suggesting that sFcgammaRIIb can absorb pathogenic IgG anti-collagen type II (CII) IC in vivo. Hence, administration of sFcgammaRIIb significantly reduced CIA severity compared to control treated mice. The sFcgammaRIIb treated mice had significantly less IgG anti-CII antibodies in serum and lower mRNA levels of inflammatory cytokines compared to control mice. In conclusion, sFcgammaRIIb treatment ameliorates CIA by reducing IC-stimulated inflammation and joint swelling. This suggests that recombinant sFcgammaRIIb may be useful as therapeutic agent in RA.

Matrix-M™ adjuvanted envelope protein vaccine protects against lethal lineage 1 and 2 West Nile virus infection in mice

West Nile virus (WNV) is a mosquito-transmitted flavivirus and an emerging pathogen in many parts of the world. In the elderly and immunosuppressed, infection can progress rapidly to debilitating and sometimes fatal neuroinvasive disease. Currently, no WNV vaccine is approved for use in humans. As there have been several recent outbreaks in the United States and Europe, there is an increasing need for a human WNV vaccine. In this study, we formulated the ectodomain of a recombinant WNV envelope (E) protein with the particulate saponin-based adjuvant Matrix-M™ and studied the antigen-specific immune responses in mice. Animals immunized with Matrix-M™ formulated E protein developed higher serum IgG1 and IgG2a and neutralizing antibody titers at antigen doses ranging from 0.5 to 10 μg compared to those immunized with 3 or 10 μg of E alone, E adjuvanted with 1% Alum, or with the inactivated virion veterinary vaccine, Duvaxyn(®) WNV. This phenotype was accompanied by strong cellular recall responses as splenocytes from mice immunized with Matrix-M™ formulated vaccine produced high levels of Th1 and Th2 cytokines. Addition of Matrix-M™ prolonged the duration of the immune response, as elevated humoral and cellular responses were maintained for more than 200 days. Importantly, mice vaccinated with Matrix-M™ formulated E protein were protected from lethal challenge with both lineage 1 and 2 WNV strains. In summary, Matrix-M™ adjuvanted E protein elicited potent and durable immune responses that prevented lethal WNV infection, and thus is a promising vaccine candidate for humans.

Isolation of transcriptionally active umbilical cord blood-derived basophils expressing FcɛRI, HLA-DR and CD203c

Background:  Basophils are inflammatory cells associated with allergy and parasite infections. Investigation of their true biological function has long been hampered by the difficulty in obtaining sufficient amounts of pure basophils and by the lack of phenotypic markers. Moreover, it has been very difficult to clone and identify basophil‐specific granule proteins, partially because of an almost complete lack of mRNA in mature circulating basophils.

Matrix-M™ adjuvant: enhancing immune responses by ‘setting the stage’ for the antigen

Adjuvants belong to a diverse collection of substances or formulations that, in one way or another, increase or improve immune responses to antigen(s). Classical adjuvants target the physical presentation of antigens by adsorption or emulsification with a physical stabilization of the antigen and/or prolonged release of antigen from the site of the injection as a major adjuvant activity [1]. In recent years, the formulation of emulsion types of adjuvants has been improved, new types of adjuvants have been developed and the knowledge on adjuvant modes of action has increased.

Dysregulated Fc receptor function in active rheumatoid arthritis.

Given the critical role of Fc gamma receptors (FcγR) as primary targets for autoantibody-mediated effects an important issue is how the FcγR pathway is affected in autoimmune disorders. Here we investigated the FcγR function in monocytes from rheumatoid arthritis (RA) patients in relation to immunoglobulin levels and disease activity. Peripheral blood was obtained from 30 RA patients with clinical acute joint synovitis (active RA), 28 RA patients with no clinical signs of acute joint synovitis (non-active RA) and 34 healthy controls. Prior the functional studies the monocytes were characterized of their FcγRI (CD64), II (CD32), IIb (CD32b) and III (CD16) expression as well as their cell surface bound IgG. The monocytic FcγR function was assessed by binding of human IgG1 and IgG3 immune complexes (IC) and TNF secretion in vitro. IgG anti-citrullinated peptide antibodies (ACPA) were analyzed in the plasma. We found that monocytes from active RA patients had increased levels of FcγRI, II and cell surface IgG concurrently with impaired FcγR function. This was evident by reduced IgG1-IC binding and decreased TNF secretion in response to IgG3-IC. In contrast, monocytes from non-active RA patients displayed a normal FcγR function and had increased FcγRIIb expression together with elevated FcγRI, II and cell surface IgG. The ACPA levels did not differ in active and non-active RA patients but correlated with the monocytic FcγRIII expression in the patients. In conclusion, active RA patients display a dysregulated FcγR function that may represent a novel phenotypic and likely pathogenetic marker for active RA. A disease and FcγR function controlling effect is suggested by the increased inhibitory FcγRIIb in non-active RA.

Technologies for the development of West Nile virus vaccines.

West Nile virus (WNV), an emerging mosquito-borne and zoonotic flavivirus, continues to spread worldwide and represents a major problem for human and veterinary medicine. In recent years, severe outbreaks were observed in the USA and Europe with neighboring countries, and the virus is considered to be endemic in an increasing number of areas. Although most infections remain asymptomatic, WNV can cause severe, even fatal, neurological disease, which affects mostly the elderly and immunocompromised individuals. Several vaccines have been licensed in the veterinary sector, but no human vaccine is available today. This review summarizes recent strategies that are being followed to develop WNV vaccines with emphasis on technologies suitable for the use in humans.

Human Cord Blood Derived Immature Basophils Show Dual Characteristics, Expressing Both Basophil and Eosinophil Associated Proteins

Basophils are blood cells of low abundance associated with allergy, inflammation and parasite infections. To study the transcriptome of mature circulating basophils cells were purified from buffy coats by density gradient centrifugations and two-step magnetic cell sorting. However, after extensive analysis the cells were found to be transcriptionally inactive and almost completely lack functional mRNA. In order to obtain transcriptionally active immature basophils for analysis of their transcriptome, umbilical cord blood cells were therefore cultured in the presence of interleukin (IL)-3 for 9 days and basophils were enriched by removing non-basophils using magnetic cell sorting. The majority of purified cells demonstrated typical metachromatic staining with Alcian blue dye (95%) and expression of surface markers FcεRI and CD203c, indicating a pure population of cells with basophil-like phenotype. mRNA was extracted from these cells and used to construct a cDNA library with approximately 600 000 independent clones. This library served as tool to determine the mRNA frequencies for a number of hematopoietic marker proteins. It was shown that these cells express basophil/mast cell-specific transcripts, i.e. β-tryptase, serglycin and FcεRI α-chain, to a relatively low degree. In contrast, the library contained a high number of several eosinophil-associated transcripts such as: major basic protein (MBP), charcot leyden crystal (CLC), eosinophil cationic protein (ECP), eosinophil derived neurotoxin (EDN) and eosinophil peroxidase (EPO). Out of these transcripts, MBP and EPO were the most frequently observed, representing 8% and 3.2% of the total mRNA pool, respectively. Moreover, in a proteome analysis of cultured basophils we identified MBP and EPO as the two most prominent protein bands, suggesting a good correlation between protein and mRNA analyses of these cells. The mixed phenotype observed for these cells strengthens the conclusion that eosinophils and basophils are closely linked during human hematopoietic development. The dual phenotype also indicates that other cytokines than IL-3 or cell surface interactions are needed to obtain the full basophil specific phenotype in vivo.