Concordance with established tests and reproducibility of results obtained with a new single antigen chip array for HLA antibody detection (HISTO SPOT® HLA AB).

The purpose of this study was to analyze performance of a new single antigen chip array system (HISTO SPOT® HLA AB) developed for HLA antibody detection and compare with results obtained using single antigen Luminex-based systems and serum samples from the Eurotransplant external proficiency testing scheme. Results were analysed from 11 independent Eurotransplant laboratories using HISTO SPOT® HLA AB utilising the Eurotransplant external proficiency testing (EPT) sera and these were compared to published results from 67 labs using the Luminex-based technologies. In addition, QC results from different batches of the test were analysed. Generally, concordance of results with the results from the Luminex technique was good. With the Luminex tests more consensus results and more questionable results were found than with the HISTO SPOT® HLA AB test. Within the HISTO SPOT® HLA AB testing group we found a discrepancy rate from the consensus of 2.9% for the EPT sera which is far below the 25% allowed to pass the quality test and only slightly higher than for the Luminex single antigen tests with 1.2%. The average global coefficient of variation (CV) of the mean signal (raw data) for the HISTO SPOT® HLA AB test was 13% which is lower than the values reported for Luminex tests in the literature. The average global CV for the signal/background ratio was higher with 28%. In the present study, the mean signal is the best parameter to compare results between labs and the new HISTO SPOT® HLA AB test is at least as good in terms of signal reproducibility as the Luminex tests. In conclusion, the HISTO SPOT® HLA AB test is a good alternative to be used in addition or instead of the Luminex tests in clinical labs.

An Optimized Fluorescence-Based Bidimensional Immunoproteomic Approach for Accurate Screening of Autoantibodies.

Serological proteome analysis (SERPA) combines classical proteomic technology with effective separation of cellular protein extracts on two-dimensional gel electrophoresis, western blotting, and identification of the antigenic spot of interest by mass spectrometry. A critical point is related to the antigenic target characterization by mass spectrometry, which depends on the accuracy of the matching of antigenic reactivities on the protein spots during the 2D immunoproteomic procedures. The superimposition, based essentially on visual criteria of antigenic and protein spots, remains the major limitation of SERPA. The introduction of fluorescent dyes in proteomic strategies, commonly known as 2D-DIGE (differential in-gel electrophoresis), has boosted the qualitative capabilities of 2D electrophoresis. Based on this 2D-DIGE strategy, we have improved the conventional SERPA by developing a new and entirely fluorescence-based bi-dimensional immunoproteomic (FBIP) analysis, performed with three fluorescent dyes. To optimize the alignment of the different antigenic maps, we introduced a landmark map composed of a combination of specific antibodies. This methodological development allows simultaneous revelation of the antigenic, landmark and proteomic maps on each immunoblot. A computer-assisted process using commercially available software automatically leads to the superimposition of the different maps, ensuring accurate localization of antigenic spots of interest.

Consensus brain-derived protein, extraction protocol for the study of human and murine brain proteome using both 2D-DIGE and mini 2DE immunoblotting.

Two-dimensional gel electrophoresis (2DE) is a powerful tool to uncover proteome modifications potentially related to different physiological or pathological conditions. Basically, this technique is based on the separation of proteins according to their isoelectric point in a first step, and secondly according to their molecular weights by SDS polyacrylamide gel electrophoresis (SDS-PAGE). In this report an optimized sample preparation protocol for little amount of human post-mortem and mouse brain tissue is described. This method enables to perform both two-dimensional fluorescence difference gel electrophoresis (2D-DIGE) and mini 2DE immunoblotting. The combination of these approaches allows one to not only find new proteins and/or protein modifications in their expression thanks to its compatibility with mass spectrometry detection, but also a new insight into markers validation. Thus, mini-2DE coupled to western blotting permits to identify and validate post-translational modifications, proteins catabolism and provides a qualitative comparison among different conditions and/or treatments. Herein, we provide a method to study components of protein aggregates found in AD and Lewy body dementia such as the amyloid-beta peptide and the alpha-synuclein. Our method can thus be adapted for the analysis of the proteome and insoluble proteins extract from human brain tissue and mice models too. In parallel, it may provide useful information for the study of molecular and cellular pathways involved in neurodegenerative diseases as well as potential novel biomarkers and therapeutic targets.

Effect of in vitro and in vivo anakinra on cytokines production in Schnitzler syndrome.

IL-1 receptor antagonist anakinra is usually highly efficient in Schnitzler syndrome (SS), a rare inflammatory condition associating urticaria, fever, and IgM monoclonal gammopathy. In this study, we aimed to assess lipopolysaccharide (LPS)-induced production of inflammatory cytokines by peripheral blood mononuclear cells (PBMCs) before and after 1 month of anakinra in patients with SS. LPS-induced production of IL-1ß, IL-6 and TNFα was assessed by enzyme-linked immunosorbent assay with and without anakinra in vitro, and before and after 1 month (in vivo condition) of treatment in 2 patients with SS. Spontaneous production of IL-1ß, IL-6 and TNF-α by PBMCs was similar in the patients and the healthy controls and was almost undetectable. Stimulation with LPS caused a higher release of cytokines from the patients than from the healthy controls. Before in vivo anakinra start, in vitro adjunction of anakinra reduced the high LPS-induced production of IL-1ß and TNFα in both patients and of IL-6 in one patient. After 1 month of treatment with anakinra, while the patients had dramatically improved, there was also a marked reduction in LPS-induced cytokines production, which was almost normalized in one patient. This study shows an abnormal LPS-induced inflammatory cytokines production in SS, which can be decreased or even normalized by in vitro and in vivo anakinra.

Comparative proteomic analysis of blood eosinophils reveals redox signaling modifications in patients with FIP1L1-PDGFRA-associated chronic eosinophilic leukemia.

The FIP1L1-PDGFRA (F/P) fusion gene, which was identified as a recurrent molecular finding in hypereosinophilic syndrome (HES), lead to a constitutively increased tyrosine kinase activity of the fusion protein. Despite data obtained in animals or cell lines models, the mechanisms underlying the predominant eosinophil lineage targeting and the cytotoxicity of eosinophils in this leukemia remain unclear. To define more precisely intrinsic molecular events associated with F/P gene, we performed a proteomic analysis comparing F/P+ eosinophils (F/P-Eos) and eosinophils from healthy donors (C-Eos). Using 2D-DIGE and mass spectrometry techniques, we identified 41 proteins significantly overexpressed between F/P-Eos and C-Eos. Among them, 17.8% belonged to the oxidoreductase family. We further observed a down-expression of peroxiredoxin-2 (PRX-2) and an overexpression of src-homology-2 domain containing tyrosine phosphatase (SHP-1), enzymes regulating PDGFR downstream pathways, and especially intracellular reactive oxygen species (ROS) production. This profile, confirmed in immunoblot analysis, appears specific to F/P-Eos compared to controls and patients with idiopathic HES. In this clonal disorder possibly involving a pluripotent hematopoietic stem cell, we postulate that the well documented relationships between PDGFRA downstream signals and intracellular ROS levels might influence the phenotype of this leukemia.

Changes Related to Age in Natural and Acquired Systemic Self-IgG Responses in Malaria.

Background. Absence of acquired protective immunity in endemic areas children leads to higher susceptibility to severe malaria. To investigate the involvement of regulatory process related to self-reactivity, we evaluated potent changes in auto-antibody reactivity profiles in children and older subjects living in malaria-endemic zones comparatively to none-exposed healthy controls. Methods. Analysis of IgG self-reactive footprints was performed using Western blotting against healthy brain antigens. Plasmas of 102 malaria exposed individuals (MEIs) from endemic zone, with or without cerebral malaria (CM) were compared to plasmas from non-endemic controls (NECs). Using linear discriminant and principal component analysis, immune footprints were compared by counting the number, the presence or absence of reactive bands. We identified the most discriminant bands with respect to age and clinical status. Results. A higher number of bands were recognized by IgG auto-antibodies in MEI than in NEC. Characteristic changes in systemic self-IgG-reactive repertoire were found with antigenic bands that discriminate Plasmodium falciparum infections with or without CM according to age. 8 antigenic bands distributed in MEI compared with NEC were identified while 6 other antigenic bands were distributed within MEI according to the age and clinical status. Such distortion might be due to evolutionary processes leading to pathogenic/protective events.