Ole Østergaard

Increased IgG on cell-derived plasma microparticles in systemic lupus erythematosus is associated with autoantibodies and complement activation.

OBJECTIVE To quantify immunoglobulin and C1q on circulating cell-derived microparticles (MPs) in patients with systemic lupus erythematosus (SLE) and to determine whether immunoglobulin and C1q levels are correlated with clinical and serologic parameters. METHODS Sixty-eight clinically well-characterized SLE patients, 38 healthy controls, 6 patients with systemic sclerosis (SSc), and 6 patients with rheumatoid arthritis (RA) were included. The numbers of annexin V-binding MPs displaying IgG, IgM, or C1q were enumerated by flow cytometry. MP protein levels were determined by mass spectrometry in clinically defined subsets of SLE patients and controls. The MP IgG load was determined by flow cytometric analysis of all samples from SLE patients and healthy controls. RESULTS SLE patients had significantly increased total and relative numbers of IgG-positive MPs (P = 0.0004), with a much higher average IgG load per MP (P < 0.0001) than healthy controls. Quantitative mass spectrometry of purified MPs verified significantly increased IgG, IgM, and C1q levels in SLE patients. In RA and SSc patients, the average IgG load per MP was significantly lower than in SLE patients (P = 0.006 and P = 0.05, respectively). Also, the IgM load and C1q load per MP were significantly higher in SLE patients than in the control groups (P < 0.05), except for IgM in the RA group. IgG-positive MPs were significantly associated with the presence of anti-double-stranded DNA, anti-extractable nuclear antigen, and antihistone antibodies, with total IgG, and with decreased leukocyte counts. Average IgG load per MP was associated with lower concentrations of MPs, the presence of anti-C1q antibodies, and complement consumption. CONCLUSION Our findings indicate that circulating cell-derived MPs in SLE patients carry increased loads of IgG, IgM, and C1q and that IgG MPs are associated with autoantibodies and complement activation. The findings link immunologic reactions on MPs with the etiology of SLE.

Proteome profiling of human neutrophil granule subsets, secretory vesicles, and cell membrane: correlation with transcriptome profiling of neutrophil precursors

Neutrophils are indispensable in the innate immune defense against invading microorganisms. Neutrophils contain SVs and several subsets of granules that are essential for their function. Proteins present in neutrophil SVs and granules are synthesized during terminal granulopoiesis in the bone marrow. The heterogeneity of granules, as determined by marker proteins characteristic of each granule subset, is thought to result from differences in the biosynthetic windows of major classes of granule proteins, a process referred to as targeting by timing. Qualitative proteomic analysis of neutrophil granules, SVs, and plasma membrane has been performed before. Here, we performed subcellular fractionation on freshly isolated human neutrophils by nitrogen cavitation and density centrifugation on a four‐layer Percoll gradient. Granule subsets were pooled and subjected to SDS‐PAGE, and gel pieces were in‐gel‐digested with trypsin. The resulting peptides were analyzed using LTQ Orbitrap XL tandem MS. A total of 1292 unique proteins were identified and grouped, according to the neutrophil fraction, in which they displayed maximal expression. In addition to various known neutrophil proteins, several uncharacterized proteins were found, as well as proteins not described previously in neutrophils. To study the correlation between mRNA expression in neutrophil precursors and the localization of their cognate proteins, the distribution of 126 identified proteins was compared with their mRNA expression profiles. The neutrophil subcellular proteome profiles presented here may be used as a database in combination with the mRNA array database to predict and test the presence and localization of proteins in neutrophil granules and membranes.

Distinct features of circulating microparticles and their relationship to clinical manifestations in systemic lupus erythematosus.

OBJECTIVE Characterization of the abundance, origin, and annexin V (AnxV)-binding capabilities of circulating microparticles (MPs) in SLE patients and healthy controls and to determine any associations with clinical parameters. METHODS Seventy unselected SLE patients and 29 sex- and age-matched healthy control subjects were included in the study. MPs were isolated from citrate-treated plasma and characterized by flow cytometry using AnxV or antibodies to platelet, leukocyte, or endothelial cell surface markers. RESULTS SLE patients had significantly increased concentrations of AnxV-nonbinding (AnxV-) MPs (P<0.0001), while the concentrations of total MPs (P=0.011) and AnxV-binding (AnxV+) MPs (P<0.0001) were decreased, as compared with controls. Based on flow cytometric characteristics, 2 subgroups of AnxV- MPs could be discerned: AnxV- cell-derived MPs (CDMPs) and AnxV- MPs of unknown nature (UNMPs). Both fractions were significantly increased in SLE patients (P=0.007 and P=0.0018, respectively). Platelet- and leukocyte-derived MPs were decreased in the SLE patients (P<0.0001), whereas no difference was observed for endothelial cell-derived MPs (P=0.14). The concentrations of AnxV- CDMPs correlated with the concentrations of endothelial cell-derived MPs, the disease activity score, active nephritis, hypertension, history of arterial thrombosis, and triglyceride levels (P<0.05 for all comparisons). CONCLUSION The concentrations and composition of MPs in SLE patients differ markedly from those in healthy subjects. Overall MP numbers were significantly decreased, but two distinct subpopulations of AnxV- MPs were significantly increased. These findings call for further characterization of MPs in SLE patients to elucidate their role in disease pathogenesis.

Unique protein signature of circulating microparticles in systemic lupus erythematosus.

OBJECTIVE To characterize the unique qualities of proteins associated with circulating subcellular material in systemic lupus erythematosus (SLE) patients compared with healthy controls and patients with other chronic autoimmune diseases. METHODS Using differential centrifugation and high-sensitivity nano-liquid chromatography tandem mass spectrometry, we systematically profiled proteins of microparticles (MPs) from SLE patients (n=12), systemic sclerosis (SSc) patients (n=6), and rheumatoid arthritis (RA) patients (n=6), as well as healthy controls (n=12). RESULTS We identified 531 unique proteins and showed that the differences between healthy controls and patients with SLE with regard to the abundance of 248 proteins were highly statistically significant. Almost half of the proteins that were increased by >2-fold were complement proteins and Ig (increased by 100-4,000 times). MP Ig and complement loads also distinguished SLE from RA and SSc and correlated strongly with clinical SLE severity. Subsets of microtubule proteins, fibronectin, 14-3-3η, and desmosomal proteins as well as ficolin 2 and galectin 3 binding protein were also highly increased. In SLE MPs, levels of cytoskeletal, mitochondrial, and organelle proteins, including lysosome-associated membrane protein 1 and transforming growth factor β1, were decreased. CONCLUSION The data show that SLE patients have increased numbers of MPs that are heavily tagged for removal and fewer MPs with normal protein composition. SLE MPs are unique and specific proteins that represent novel leads for our understanding of SLE and for the development of new treatments of the disease.

Alpha-1-antitrypsin is produced by human neutrophil granulocytes and their precursors and liberated during granule exocytosis.

Alpha‐1‐antitrypsin (A1AT) is an important inhibitor of neutrophil proteases including elastase, cathepsin G, and proteinase 3. Transcription profiling data suggest that A1AT is expressed by human neutrophil granulocytes during all developmental stages. A1AT has hitherto only been found associated with azurophile granules in neutrophils indicative of A1AT expression being restricted to the promyelocyte stage. We examined the localization and production of A1AT in healthy donor neutrophils and found A1AT to be a constituent of all granule subtypes and to be released from neutrophils following stimulation. A1AT is produced at all stages of myeloid maturation in the bone marrow. The production increases as neutrophils enter circulation and increases further upon migration to tissues as observed in skin windows and when blood neutrophils are incubated with granulocyte colony‐stimulating factor. Neutrophils from patients with A1AT‐deficiency carrying the (PI)ZZ mutation in the A1AT gene appeared structurally and functionally normal, but A1AT produced in leukocytes of these patients lacked the ability to bind proteases efficiently. We conclude that A1AT generation and release from neutrophils add significantly to the antiprotease levels in tissues during inflammation. Impaired binding of neutrophil A1AT to serine proteases in patients with (PI)ZZ mutations may enhance their susceptibility to the development of emphysema.

Quantitative proteome profiling of normal human circulating microparticles.

Circulating microparticles (MPs) are produced as part of normal physiology. Their numbers, origin, and composition change in pathology. Despite this, the normal MP proteome has not yet been characterized with standardized high-resolution methods. We here quantitatively profile the normal MP proteome using nano-LC-MS/MS on an LTQ-Orbitrap with optimized sample collection, preparation, and analysis of 12 different normal samples. Analytical and procedural variation were estimated in triply processed samples analyzed in triplicate from two different donors. Label-free quantitation was validated by the correlation of cytoskeletal protein intensities with MP numbers obtained by flow cytometry. Finally, the validity of using pooled samples was evaluated using overlap protein identification numbers and multivariate data analysis. Using conservative parameters, 536 different unique proteins were quantitated. Of these, 334 (63%) were present in all samples and represent an MP core proteome. Technical triplicates showed <10% variation in intensity within a dynamic range of almost 5 decades. Differences due to variable MP numbers and losses during preparative steps could be normalized using cytoskeletal MP protein intensities. Our results establish a reproducible LC-MS/MS procedure, provide a simple and robust MP preparation method, and yield a baseline MP proteome for future studies of MPs in health and disease.

Filaggrin Is a Predominant Member of the Denaturation-Resistant Nickel-Binding Proteome of Human Epidermis

Sung-Jun Park, Dong-Seok Kim, Chang-Hun Huh, Woong-Yang Park and Kyoung-Chan Park Department of Dermatology, Seoul National University College of Medicine, Seoul National University Bundang Hospital, Gyeonggi, Korea; Department of Biochemistry, Chung-Ang University College of Medicine, Seoul, Korea and Department of Biochemistry, Sungkyunkwan University, College of Medicine, Seoul, Korea E-mail: gcpark@snu.ac.kr These authors contributed equally to this work. SUPPLEMENTARY MATERIAL

Lysine 58-cleaved β2-microglobulin is not detectable by 2D electrophoresis in ex vivo amyloid fibrils of two patients affected by dialysis-related amyloidosis

The lysine 58 cleaved and truncated variant of β2‐microglobulin (ΔK58‐β2m) is conformationally unstable and present in the circulation of a large percentage of patients on chronic hemodialysis, suggesting that it could play a role in the β2‐microglobulin (β2m) amyloid fibrillogenesis associated with dialysis‐related amyloidosis (DRA). However, it has yet to be detected in the amyloid deposits of such patients. Here, we extracted amyloid fibrils, without denaturation or additional purification, from different amyloidotic tissues of two unrelated individuals suffering from DRA, and characterized them by high‐sensitivity bidimensional gel electrophoresis (2D‐PAGE), immunoblotting, MALDI time‐of‐flight mass spectrometry, and protein sequencing. To confirm whether or not this species could be identified by our proteomic approaches, we mapped its location in 2D‐PAGE, in mixtures of pure ΔK58‐β2m, and extracts of amyloid fibrils from patients, to a discrete region of the gel distinct from other isoforms of β2m. Using this approach, the two known principal isoforms found in β2m amyloid were identified, namely, the full‐length protein and the truncated species lacking six N‐terminal amino acid residues (ΔN6‐β2m). In contrast, we found no evidence for the presence of ΔK58‐β2m.

Plasma levels of galectin-3-binding protein reflect type I interferon activity and are increased in patients with systemic lupus erythematosus

Objective Simple measures of type I interferon (IFN) activity constitute highly attractive biomarkers in systemic lupus erythematosus (SLE). We explore galectin-3-binding protein (G3BP) as a novel measure of type I IFN activity and serum/plasma biomarker in large independent cohorts of patients with SLE and controls. Methods Serum and plasma G3BP concentrations were quantified using ELISA. Type I IFN activity was assessed by Mx1 reporter gene expression assays and correlated to serum G3BP concentrations (SLE-IFN-α, n=26 and healthy controls (HCs), n=10). Plasma G3BP concentrations in the SLE-Denmark (DK) (n=70) and SLE-Sweden (SE) (n=68) cohorts were compared with the HC-DK (n=47) and HC-SE (n=50) cohorts and patients with systemic sclerosis (n=111). In 15 patients with SLE, serum G3BP in consecutive samples was correlated to disease activity. Correlation analysis between G3BP, clinical parameters including disease activity in the four SLE cohorts was performed. Results G3BP concentrations correlated significantly with the IFN-α reporter gene assay (r=0.56, p=0.0005) and with IFN-α gene expression scores (r=0.54, p=0.0002). Plasma concentrations were significantly increased in the SLE-DK and SLE-SE cohorts compared with HCs and patients with systemic sclerosis (p<0.0001 and p=0.0009). G3BP concentrations correlated with disease activity measures in the SLE-DK- and SLE-IFN-α cohorts (p=0.0004 and p=0.05) but not in the SLE-SE cohort (p=0.98). Markedly temporal variation was observed in G3BP levels in the consecutive SLE-samples and was significantly associated with changes in disease activity (r=0.44, p=0.014). Conclusions G3BP plasma levels reflect type I IFN activity and are increased in SLE. Associations with disease activity or clinical manifestations are uncertain. This study highlights G3BP as a convenient measure of type I IFN-dependent gene activation.

A heparin-based method for flow cytometric analysis of microparticles directly from platelet-poor plasma in calcium containing buffer

BACKGROUND Characterization of circulating microparticles (MPs) is usually performed by flow cytometry. Annexin V, a protein that Ca(2+)-dependently binds to phosphatidylserine, has been used to define entire microparticle (MP) populations, but not all MPs bind AnxV. Recent reports have correlated AnxV negative MPs to clinical parameters in systemic diseases, which emphasize the importance of including characterization of AnxV-binding. An obstacle in flow cytometric analysis of AnxV-binding to MPs is that plasma may clot when adding the Ca(2+)-containing buffers. We here devise a simple method for comprehensive assessment of circulating MPs directly from platelet-poor plasma with characterization of AnxV-binding and of cellular origin of MPs. MATERIALS AND METHODS With 49 samples (20 healthy controls and 29 SLE patients) a flow cytometric method analyzing MPs directly from platelet-poor plasma was developed and compared with an established, more laborious method. The method relies on using heparin to inhibit plasma coagulation induced by Ca(2+) and subsequent incubation with labeling reagents directly in platelet-poor plasma. RESULTS In comparison with standard methods the new direct method showed low variability (1-12% in total MP measurement), had higher MP counts (i.e. prevents loss of MPs), was less time consuming (saved 2/3 of sample processing time) and results correlated well with an established method of analysis of washed MPs by flow cytometry (r>0.7; p<0.0001). Additionally heparin was shown not to impact MP counts, longtime storage did not alter MP concentrations, and distinct effects of freezing on MP characteristics were confirmed. CONCLUSIONS The direct method reduces variability due its simplicity and faster handling, and it saves sample material. It is a convenient, fast, and reproducible method for assessing the population of circulating MPs and correlates well with more cumbersome approaches. These benefits make the method well suited for large studies.