| 1. |
- Idborg, Helena, et al.
(författare)
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Circulating Levels of Interferon Regulatory Factor-5 Associates With Subgroups of Systemic Lupus Erythematosus Patients
- 2019
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Ingår i: Frontiers in Immunology. - : FRONTIERS MEDIA SA. - 1664-3224. ; 10
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Tidskriftsartikel (refereegranskat)abstract
- Systemic Lupus Erythematosus (SLE) is a heterogeneous autoimmune disease, which currently lacks specific diagnostic biomarkers. The diversity within the patients obstructs clinical trials but may also reflect differences in underlying pathogenesis. Our objective was to obtain protein profiles to identify potential general biomarkers of SLE and to determine molecular subgroups within SLE for patient stratification. Plasma samples from a cross-sectional study of well-characterized SLE patients (n = 379) and matched population controls (n = 316) were analyzed by antibody suspension bead array targeting 281 proteins. To investigate the differences between SLE and controls, Mann-Whitney U-test with Bonferroni correction, generalized linear modeling and receiver operating characteristics (ROC) analysis were performed. K-means clustering was used to identify molecular SLE subgroups. We identified Interferon regulating factor 5 (IRF5), solute carrier family 22 member 2 (SLC22A2) and S100 calcium binding protein A12 (S100A12) as the three proteins with the largest fold change between SLE patients and controls (SLE/Control = 1.4, 1.4, and 1.2 respectively). The lowest p-values comparing SLE patients and controls were obtained for S100A12, Matrix metalloproteinase-1 (MMP1) and SLC22A2 (p(adjusted) = 3 x 10(-9), 3 x 10(-6), and 5 x 10(-6) respectively). In a set of 15 potential biomarkers differentiating SLE patients and controls, two of the proteins were transcription factors, i.e., IRF5 and SAM pointed domain containing ETS transcription factor (SPDEF). IRF5 was up-regulated while SPDEF was found to be down-regulated in SLE patients. Unsupervised clustering of all investigated proteins identified three molecular subgroups among SLE patients, characterized by (1) high levels of rheumatoid factor-IgM, (2) low IRF5, and (3) high IRF5. IRF5 expressing microparticles were analyzed by flow cytometry in a subset of patients to confirm the presence of IRF5 in plasma and detection of extracellular IRF5 was further confirmed by immunoprecipitation-mass spectrometry (IP-MS). Interestingly IRF5, a known genetic risk factor for SLE, was detected extracellularly and suggested by unsupervised clustering analysis to differentiate between SLE subgroups. Our results imply a set of circulating molecules as markers of possible pathogenic importance in SLE. We believe that these findings could be of relevance for understanding the pathogenesis and diversity of SLE, as well as for selection of patients in clinical trials.
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| 2. |
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| 3. |
- Notarnicola, Antonella, et al.
(författare)
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Longitudinal assessment of reactivity and affinity profile of anti-Jo1 autoantibodies to distinct HisRS domains and a splice variant in a cohort of patients with myositis and anti-synthetase syndrome
- 2022
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Ingår i: Arthritis Research & Therapy. - : Springer Nature. - 1478-6354 .- 1478-6362. ; 24:1
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Tidskriftsartikel (refereegranskat)abstract
- Background To address the reactivity and affinity against histidyl-transfer RNA synthetase (HisRS) autoantigen of anti-Jo1 autoantibodies from serum and bronchoalveolar lavage fluid (BALF) in patients with idiopathic inflammatory myopathies/anti-synthetase syndrome (IIM/ASSD). To investigate the associations between the reactivity profile and clinical data over time. Methods Samples and clinical data were obtained from (i) 25 anti-Jo1(+) patients (19 sera with 16 longitudinal samples and 6 BALF/matching sera at diagnosis), (ii) 29 anti-Jo1(-) patients (25 sera and 4 BALF/matching sera at diagnosis), and (iii) 27 age/gender-matched healthy controls (24 sera and 3 BALF/matching sera). Reactivity towards HisRS full-length (HisRS-FL), three HisRS domains (WHEP, antigen binding domain (ABD), and catalytic domain (CD)), and the HisRS splice variant (SV) was tested. Anti-Jo1 IgG reactivity was evaluated by ELISA and western blot using IgG purified from serum by affinity chromatography. In paired serum-BALF, anti-Jo1 IgG and IgA reactivity was analyzed by ELISA. Autoantibody affinity was measured by surface plasmon resonance using IgG purified from sera. Correlations between autoantibody reactivity and clinical data were evaluated at diagnosis and longitudinally. Results Anti-Jo1 IgG from serum and BALF bound HisRS-FL, WHEP, and SV with high reactivity at the time of diagnosis and recognized both conformation-dependent and conformation-independent HisRS epitopes. Anti-HisRS-FL IgG displayed high affinity early in the disease. At the time of IIM/ASSD diagnosis, the highest autoantibody levels against HisRS-FL were found in patients ever developing interstitial lung disease (ILD) and arthritis, but with less skin involvement. Moreover, the reactivity of anti-WHEP IgG in BALF correlated with poor pulmonary function. Levels of autoantibodies against HisRS-FL, HisRS domains, and HisRS splice variant generally decreased over time. With some exceptions, longitudinal anti-HisRS-FL antibody levels changed in line with ILD activity. Conclusion High levels and high-affinity anti-Jo1 autoantibodies towards HisRS-FL were found early in disease in sera and BALF. In combination with the correlation of anti-HisRS-FL antibody levels with ILD and ILD activity in longitudinal samples as well as of anti-WHEP IgG in BALF with poor pulmonary function, this supports the previously raised hypothesis that the lung might have a role in the immune reaction in anti-Jo1-positive patients.
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| 4. |
- Preger, Charlotta
(författare)
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Aminoacyl tRNA synthetases and their connection to autoimmune rheumatic disease
- 2022
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Idiopathic inflammatory myopathies (IIM, collectively called myositis) are rare autoimmune rheumatic diseases characterized by chronic inflammation and associated with high mortality and morbidity (1, 2). The disease nomenclature tells us that IIM has traditionally been described as a group of diseases mainly affecting the skeletal muscle, with muscle weakness and weakened muscle endurance as the dominating clinical symptoms (3). The incidence of IIM in Sweden has been reported to be 11 per 1 million persons per year, with the highest incidence rate between 50 and 79 years of age (4). Gender demographics of IIM are similar to many other autoimmune diseases, with about two-thirds of the patients being female (5). Because of their low incidence, the mechanisms behind these diseases are largely unknown. Autoantibodies have been identified in the majority of IIM patients (2). The autoantibodies present in IIM are divided into two groups; myositis-specific autoantibodies (MSAs) and myositis-associated autoantibodies (MAAs), with both groups of antibodies targeting both cytoplasmic and nuclear components (6). Autoantibodies targeting different aminoacyl transfer RNA synthetases (aaRS) are the hallmark of anti-synthetase syndrome (ASSD), one of the subgroups of IIM. There are seven anti-aaRS autoantibodies described in the literature associated with IIM and ASSD. Anti-Jo1 is the most common anti-aaRS antibody, targeting histidyl tRNA synthetase (HisRS), and is present in 20-30% of patients with IIM (7). In human cells, there are nineteen cytoplasmic aaRS, one for each amino acid. By only looking at the function and structure of the autoantigenic aaRS proteins, it is difficult to understand why these become autoantigens and not the other aaRS proteins. Research on aaRS has increased during the last decade due to their connection to disease and the novel findings regarding their noncanonical functions. This thesis describes translational research combining clinical knowledge and patient material with advanced technological methods. It aimed at providing more profound knowledge about the connection between aminoacyl tRNA synthetase family members and rheumatic disease. More specifically, to support the scientific community with validated research tools and to study aaRS, and autoantibodies targeting these, in autoimmune rheumatic diseases, particularly IIM. Paper I: Aminoacyl tRNA synthetases (aaRS) have been associated with non-canonical functions and several diseases. Understanding and determining their roles has been a challenge due to the lack of research tools to enable their study. In this study, well-validated research tools were produced and generated in the form of recombinant aaRS proteins and recombinant antibody fragments that target these. A pipeline was established to produce high-quality recombinant proteins and use them in phage display selections for scFv generation and validation. The recombinant proteins were produced in Escherichia coli (E. coli) with an Avi-tag to enable site-specific biotinylation and used as antigens in phage display selections to generate single-chain fragment variables (scFv). The scFv were validated in several immunoassays such as ELISA, multiplex bead array assay, and HTRF, as well as in cell-based assays such as immunoprecipitation followed by massspectrometry and immunofluorescence. The tools generated in this study are open-access and can be used to study human cytoplasmic aaRS and their connection to disease. Paper II: In this study, we investigated anti-Jo1 autoantibodies in more detail by addressing the reactivity and affinity of anti-Jo1 against its antigen, HisRS, in sera and bronchoalveolar lavage fluid (BALF) in patients with IIM/ASSD. The associations between the reactivity profile and clinical data over time were investigated. Anti-Jo1 IgG reactivity against full-length HisRS (HisRS-FL), three HisRS domains (WHEP, catalytic domain (CD), and anticodon binding domain (ABD)), as well as the HisRS splice variant (SV), was evaluated in ELISA and western blot. Additionally, anti-Jo1 IgG and IgA reactivity were assessed in matched serum and BALF samples in ELISA, and the affinity of anti-Jo1 IgG from sera against HisRS-FL was measured using surface plasmon resonance. Finally, correlations at diagnosis and longitudinally between autoantibody reactivity and clinical data were evaluated. Anti-Jo1 IgG from serum and BALF bound HisRS-FL, SV, and WHEP with high reactivity at diagnosis. In addition, anti-Jo1 IgG displays a high affinity against HisRS-FL close to the time of diagnosis. The autoantibody levels against HisRS-FL were highest at the time of diagnosis in patients ever-developing interstitial lung disease (ILD) and arthritis, and anti-WHEP IgG reactivity in BALF correlated with poor pulmonary function. Paper III: In this study, we hypothesized that there is a possibility of finding autoantibodies targeting other aaRS than the eight previously described. Samples and clinical data from 217 IIM patients and 156 age and gender-matched nonrheumatic population controls were included and tested against 118 antigens representing 33 proteins, including all nineteen cytoplasmic aaRS and other myositis-related proteins. In 72 IIM individuals (33%), we could identify reactivity against any of the included aaRS. In total, 16/19 aaRS were found with autoantigenic properties. Twelve IIM patients displayed reactivity against nine novel aaRS. Notably, some of these individuals were previously known as seronegative for MSAs. Besides the novel reactivities, we could identify anti-Zo, -KS, and - HA, positive individuals that were not previously tested in clinical settings, and we could confirm the reactivity to four of the most common aaRS (Jo1, PL12, PL7, and EJ). A low frequency of anti-aaRS autoantibodies was also detected in controls. Paper IV: Here, we started by investigating the presence of HisRS in BALF and examining potential interaction partners. We did not find any new possible interaction partners but instead revealed that anti-Jo1 autoantibodies were present in different isotypes. Therefore, we continued to investigate the presence of different autoantibody isotypes in IIM. Analysis of a small cohort (n=5) revealed that the isotype distribution differed between sera and BALF taken at the same time point. To further investigate, sera from a larger cohort of IIM individuals (n=366) were screened for the presence of autoantibodies of isotypes IgG, IgA, and IgM, against Jo1 (HisRS), PL7 (ThrRS), PL12 (AlaRS), EJ (GlyRS), OJ (IleRS), and Ro52 (TRIM21) using a multiplex bead array assay. We found that for individuals with anti-Jo1 autoantibodies targeting HisRS-FL, IgG and IgM were the most common, followed by only having IgG, and about 11% displayed reactivity with all three isotypes. Most individuals with anti-PL12, -PL7, -EJ, and -OJ autoantibodies had only one isotype of autoantibodies present against the respective aaRS. However, the specific isotype differed between individuals, and many positive individuals did not harbor anti-aaRS IgG autoantibodies. Most anti-Ro52 positive individuals only had IgG anti-Ro52, in contrast to what was found for anti-aaRS autoantibodies. To conclude, this thesis helped empower future research by generating new open-access research tools. Furthermore, we studied autoantibodies targeting aaRS and found that high levels and high-affinity anti-Jo1 autoantibodies towards HisRS can be found already early in the disease. In addition, we found that serum anti-Jo1 autoantibody levels correlated with ILD, and anti-Jo1 autoantibodies in BALF correlated with poor pulmonary function. These findings support the previously raised hypothesis that the lung might play a role in the pathogenic mechanism in anti-Jo1+ patients. We further suggest that most cytoplasmic aaRS may become autoantigenic. Autoantibodies against new aaRS may be found in the circulation of IIM individuals previously classified as seronegative. Adding these individuals to the seropositive group may have high clinical relevance. In addition, the frequency of the different autoantibody isotypes suggests that for anti-aaRS autoantibodies, it could be essential to investigate additional autoantibody isotypes, as some patients only harbor autoantibodies of IgM or IgA isotypes but not IgG. The clinical relevance of the different antibody isotypes still needs to be determined. The discoveries obtained in this thesis have helped improve the knowledge of aminoacyl tRNA synthetase autoantibodies and their connection to disease and open up for more studies in larger IIM cohorts and population controls.
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| 5. |
- Preger, Charlotta, et al.
(författare)
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Autoantigenic properties of the aminoacyl tRNA synthetase family in idiopathic inflammatory myopathies
- 2023
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Ingår i: Journal of Autoimmunity. - : Elsevier BV. - 0896-8411 .- 1095-9157. ; 134
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Tidskriftsartikel (refereegranskat)abstract
- Objectives: Autoantibodies are thought to play a key role in the pathogenesis of idiopathic inflammatory my-opathies (IIM). However, up to 40% of IIM patients, even those with clinical manifestations of anti-synthetase syndrome (ASSD), test seronegative to known myositis-specific autoantibodies. We hypothesized the existence of new potential autoantigens among human cytoplasmic aminoacyl tRNA synthetases (aaRS) in patients with IIM.Methods: Plasma samples from 217 patients with IIM according to 2017 EULAR/ACR criteria, including 50 pa-tients with ASSD, 165 without, and two with unknown ASSD status were identified retrospectively, as well as age and gender-matched sera from 156 population controls, and 219 disease controls. Patients with previously documented ASSD had to test positive for at least one of the five most common anti-aaRS autoantibodies (anti-Jo1,-PL7,-PL12,-EJ, and-OJ) and present with one or more of the following clinical manifestations: interstitial lung disease, myositis, arthritis, Raynaud's phenomenon, fever, or mechanic's hands. Demographics, laboratory, and clinical data of the IIM cohort (ASSD and non-ASSD) were compared. Samples were screened using a multiplex bead array assay for presence of autoantibodies against a panel of 117 recombinant protein variants, representing 33 myositis-related proteins, including all nineteen cytoplasmic aaRS. Prospectively collected clinical data for the IIM cohort were retrieved and compared between groups within the IIM cohort and correlated with the results of the autoantibody screening. Principal component analysis was used to analyze clinical manifestations between ASSD, non-ASSD groups, and individuals with novel anti-aaRS autoantibodies. Results: We identified reactivity towards 16 aaRS in 72 of the 217 IIM patients. Twelve patients displayed reactivity against nine novel aaRS. The novel autoantibody specificities were detected in four previously sero-negative patients for myositis-specific autoantibodies and eight with previously detected myositis-specific au-toantibodies. IIM individuals with novel anti-aaRS autoantibodies (n = 12) all had signs of myositis, and they had either muscle weakness and/or muscle enzyme elevation, 2/12 had mechanic's hands, 3/12 had interstitial lung disease, and 2/12 had arthritis. The individuals with novel anti-aaRS and a pathological muscle biopsy all presented widespread up-regulation of major histocompatibility complex class I. The reactivities against novel aaRS could be confirmed in ELISA and western blot. Using the multiplex bead array assay, we could confirm previously known reactivities to four of the most common aaRS (Jo1, PL12, PL7, and EJ (n = 45)) and identified patients positive for anti-Zo,-KS, and-HA (n = 10) that were not previously tested. A low frequency of anti-aaRS autoantibodies was also detected in controls.Conclusion: Our results suggest that most, if not all, cytoplasmic aaRS may become autoantigenic. Autoantibodies against new aaRS may be found in plasma of patients previously classified as seronegative with potential high clinical relevance.
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| 6. |
- Szykowska, Aleksandra, et al.
(författare)
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Selection and structural characterization of anti-TREM2 scFvs that reduce levels of shed ectodomain
- 2021
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Ingår i: Structure. - : Elsevier BV. - 0969-2126 .- 1878-4186. ; 29:11, s. 1241-
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Tidskriftsartikel (refereegranskat)abstract
- Mutations in TREM2, a receptor expressed by microglia in the brain, are associated with an increased risk of neurodegeneration, including Alzheimer's disease. Numerous studies support a role for TREM2 in sensing damaging stimuli and triggering signaling cascades necessary for neuroprotection. Despite its significant role, ligands and regulators of TREM2 activation, and the mechanisms governing TREM2-dependent responses and its cleavage from the membrane, remain poorly characterized. Here, we present phage display generated antibody single-chain variable fragments (scFvs) to human TREM2 immunoglobulin-like domain. Co-crystal structures revealed the binding of two scFvs to an epitope on the TREM2 domain distal to the putative ligand-binding site. Enhanced functional activity was observed for oligomeric scFv species, which inhibited the production of soluble TREM2 in a HEK293 cell model. We hope that detailed characterization of their epitopes and properties will facilitate the use of these renewable binders as structural and functional biology tools for TREM2 research.
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