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Functional and structural characterization of four mouse monoclonal antibodies to complement C3 with potential therapeutic and diagnostic applications
41 p.-11 fig. ; C3 is the central component of the complement system. Upon activation, C3 sequentially generates various proteolytic fragments, C3a, C3b, iC3b, C3dg, each of them exposing novel surfaces, which are sites of interaction with other proteins. C3 and its fragments are therapeutic targets and markers of complement activation. We report the structural and functional characterization of four monoclonal antibodies (mAbs) generated by immunizing C3-deficient mice with a mixture of human C3b, iC3b and C3dg fragments, and discuss their potential applications. This collection includes three mAbs interacting with native C3 and inhibiting AP complement activation; two of them by blocking the cleavage of C3 by the AP C3-converase and one by impeding formation of the AP C3-convertase. The interaction sites of these mAbs in the target molecules were determined by resolving the structures of Fab fragments bound to C3b and/or iC3b using electron microscopy. A fourth mAb specifically recognizes the iC3b, C3dg, and C3d fragments. It binds to an evolutionary-conserved neoepitope generated after C3b cleavage by FI, detecting iC3b/C3dg deposition over opsonized surfaces by flow cytometry and immunohistochemistry in human and other species. Because well-characterized anti-complement mAbs are uncommon, the mAbs reported here may offer interesting therapeutic and diagnostic opportunities. ; Work in this report has been funded by the Spanish "Ministerio de Economía y Competitividad" (SAF2011-26583 and SAF2015-66287-R to SRdC and SAF2014- 52301-R to OL) and the Seventh Framework Programme European Union Project EURenOmics (305608) to SRdC. In addition, this work has been supported by a grant from the Autonomous Region of Madrid (S2010/BMD-2316) to SRdeC and OL. ; Peer reviewed
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New serological platform for detecting antibodies against Mycobacterium tuberculosis complex in European badgers
European badgers (Meles meles ) have been identified as wildlife reservoirs for Mycobacterium bovis in the UK and Ireland, and may also have a role in the epidemiology of animal tuberculosis in other European regions. Thus, detection of M. bovis‐infected badgers may be required for the purposes of surveillance and monitoring of disease levels in infected populations. Current serological assays to detect M. bovis infection in live badgers, while rapid and inexpensive, show limited diagnostic sensitivity. Here we describe and evaluate new ELISA platforms for the recognition of the P22 multiprotein complex derived from the purified protein derivative (PPD ) of M. bovis . The recognition of IgG against P22 multiprotein complex derived from PPD ‐B was tested by ELISA in the serum of badgers from the UK , Ireland and Spain. TB infection in the badgers was indicated by the presence of M. bovis in tissues by culture and histology at post‐mortem examination and TB ‐free status was established by repeated negativity in the interferon γ release assay (IGRA ). In experimentally infected badgers, humoral antibody responses against P22 developed within 45 days post‐infection. The ELISA tests showed estimated sensitivity levels of 74–82% in experimentally and naturally infected badgers with specificities ranging from 75% to 100% depending on the badger population tested. The P22 multi‐antigen based ELISA s provide a sensitive and specific test platform for improved tuberculosis surveillance in badgers. ; This work was supported by the Instituto Nacional de Investigacion y Tecnologia Agraria y Alimentaria of Spain (INIA; RTA2015-00043-C02-02) and the TAVS-CM Programme of the Comunidad de Madrid (S2013/ABI-2747), cofinanced by the FEDER fund 'A way to build Europe'. This work was partially supported by a FEDER co-funded grant from INIA (RTA2014-00002-C02-01). Jose Antonio Infantes Lorenzo was supported by an FPU contract-fellowship (Formacion de Profesorado Universitario) from the Ministerio de Educacion, Cultura y Deporte of the Spanish Government (FPU2013/6000). ; Peer reviewed
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Proteomic characterisation of bovine and avian purified protein derivatives and identification of specific antigens for serodiagnosis of bovine tuberculosis
[Background]: Bovine purified protein derivative (bPPD) and avian purified protein derivative (aPPD) are widely used for bovine tuberculosis diagnosis. However, little is known about their qualitative and quantitative characteristics, which makes their standardisation difficult. In addition, bPPD can give false-positive tuberculosis results because of sequence homology between Mycobacterium bovis (M. bovis) and M. avium proteins. Thus, the objective of this study was to carry out a proteomic characterisation of bPPD, aPPD and an immunopurified subcomplex from bPPD called P22 in order to identify proteins contributing to cross-reactivity among these three products in tuberculosis diagnosis. [Methods]: Trypsin digests of bPPD, aPPD and P22 were analysed by nanoscale liquid chromatography-electrospray ionization tandem mass spectrometry. Mice were immunised with bPPD or aPPD, and their serum was tested by indirect ELISA for reactivity against these preparations as well as against P22. [Results]: A total of 456 proteins were identified in bPPD, 1019 in aPPD and 118 in P22; 146 of these proteins were shared by bPPD and aPPD, and 43 were present in all three preparations. Candidate proteins that may cause cross-reactivity between bPPD and aPPD were identified based on protein abundance and antigenic propensity. Serum reactivity experiments indicated that P22 may provide greater specificity than bPPD with similar sensitivity for ELISA-type detection of antibodies against M. tuberculosis complex. [Conclusion]: The subpreparation from bPPD called P22 may be an alternative to bPPD for serodiagnosis of bovine tuberculosis, since it shares fewer proteins with aPPD than bPPD does, reducing risk of cross-reactivity with anti-M. avium antibodies. ; This work was supported by the Ministerio de Economía, Industria y Competitividad of Spain (RTC-2016-4746-2), the Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria of Spain (RTA2015-00043-C02-02) and the TAVS-CM Programme of the Comunidad de Madrid (S2013/ABI-2747), cofinanced by the FEDER fund "A way to build Europe". Jose Antonio Infantes-Lorenzo was supported by an FPU contract-fellowship (Formación de Profesorado Universitario) from the Ministerio de Educación, Cultura y Deporte of the Spanish Government (FPU2013/6000). Alvaro Roy is the recipient of an Industrial Doctorate contract (DI-15-08110) funded by the Spanish Ministerio de Economía, Industria y Competitividad and the European Social Fund. ; Peer Reviewed
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