Cross-reactivity of human leucocyte differentiation antigen monoclonal antibodies on porcine cells

A humanized minipig model for the toxicological testing of therapeutic recombinant antibodies

The safety of most human recombinant proteins can be evaluated in transgenic mice tolerant to specific human proteins. However, owing to insufficient genetic diversity and to fundamental differences in immune mechanisms, small-animal models of human diseases are often unsuitable for immunogenicity testing and for predicting adverse outcomes in human patients. Most human therapeutic antibodies trigger xenogeneic responses in wild-type animals and thus rapid clearance of the drugs, which makes in vivo toxicological testing of human antibodies challenging. Here we report the generation of Göttingen minipigs carrying a mini-repertoire of human genes for the immunoglobulin heavy chains γ1 and γ4 and the immunoglobulin light chain κ. In line with observations in human patients, the genetically modified minipigs tolerated the clinically non-immunogenic IgG1κ-isotype monoclonal antibodies daratumumab and bevacizumab, and elicited antibodies against the checkpoint inhibitor atezolizumab and the engineered interleukin cergutuzumab amunaleukin. The humanized minipigs can facilitate the safety and efficacy testing of therapeutic antibodies.

Contribution of large pig for renal ischemia-reperfusion and transplantation studies: the preclinical model

Animal experimentation is necessary to characterize human diseases and design adequate therapeutic interventions. In renal transplantation research, the limited number of in vitro models involves a crucial role for in vivo models and particularly for the porcine model. Pig and human kidneys are anatomically similar (characterized by multilobular structure in contrast to rodent and dog kidneys unilobular). The human proximity of porcine physiology and immune systems provides a basic knowledge of graft recovery and inflammatory physiopathology through in vivo studies. In addition, pig large body size allows surgical procedures similar to humans, repeated collections of peripheral blood or renal biopsies making pigs ideal for medical training and for the assessment of preclinical technologies. However, its size is also its main drawback implying expensive housing. Nevertheless, pig models are relevant alternatives to primate models, offering promising perspectives with developments of transgenic modulation and marginal donor models facilitating data extrapolation to human conditions.

Membrane markers of the immune cells in swine: an update

Besides their breeding value, swine are increasingly used as biomedical models. As reported in three international swine clusters of differentiation (CD) workshops and in the animal homologue section of the last workshop for the determination of human leukocyte differentiation antigens (HLDA 8), characterisation of leukocyte surface antigens by monoclonal antibodies and other molecular studies have determined the cell lineages and blood leukocyte subsets implicated in the immune response, including cell adhesion molecules involved in cell trafficking. This review focusses on the current state of knowledge of porcine leukocyte differentiation and major histocompatibility complex (SLA) molecules. Examples of porcine particularities such as the double-positive T lymphocytes with the phenotype CD(4+)CD8(low) and CD(4-)CD8(low) alphabeta T cell subsets and the persistence of SLA class II after T-lymphocyte activation are illustrated, as well as the shared characteristics of the Artiodactyla group, such as the high proportion of gammadelta TcR (T cell receptor) T cells in blood and other lymphoid tissues. Furthermore, discrepancies between swine and humans, such as CD16 expression on dendritic cells and CD11b (wCD11R1) tissue distribution are outlined. The rapidly growing information should facilitate manipulation of the swine immune system towards improving disease control, and open new avenues for biomedical research using the pig as a model.

Use of flow cytometry to develop and characterize a set of monoclonal antibodies specific for rabbit leukocyte differentiation molecules

Flow cytometry was used to identify and characterize monoclonal antibodies (mAbs) that react with rabbit leukocyte differentiation molecules (LDM). Screening sets of mAbs, developed against LDM in other species, for reactivity with rabbit LDM yielded 11 mAbs that recognize conserved epitopes on rabbit LDM orthologues and multiple mAbs that recognize epitopes expressed on the major histocompatibility class I or class II molecules. Screening of mAbs submitted to the Animal Homologues Section of the Eighth Human Leukocyte Differentiation Workshop yielded 7 additional mAbs. Screening of mAbs generated from mice immunized with leukocytes from rabbit thymus or spleen or concanavalin A activated peripheral blood and/or spleen lymphocytes has yielded 42 mAbs that recognize species restricted epitopes expressed on one or more lineages of leukocytes. Screening of the anti-rabbit mAbs against leukocytes from other species yielded one additional mAb. The studies show that screening of existing sets of mAbs for reactivity with rabbit LDM will not be productive and that a direct approach will be needed to develop mAbs for research in rabbits. The flow cytometric approach we developed to screen for mAbs of interest offers a way for individual laboratories to identify and characterize mAbs to LDM in rabbits and other species. A web-based program we developed provides a source of information that will facilitate analysis. It contains a searchable data base on known CD molecules and a data base on mAbs, known to react with LDM in one or more species of artiodactyla, equidae, carnivora, and or lagomorpha.

Summary of the first round analyses of the Third International Workshop on Swine Leukocyte Differentiation Antigens

The reactivity of 155 monoclonal antibodies submitted to the Third International Workshop on Swine Leukocyte Differentiation Antigens, together with 41 internal standards, was analysed by flow cytometry on 29 different pig cell targets as well as two human cell targets as a means of establishing suitable panels of monoclonal antibodies for more detailed clustering analyses by the various subsections of the workshop. Results were collected either without further gating, with gating based on FS/SS characteristics or with gating based on the co-expression of a reference antibody in two-colour flow cytometry. The CD or SWC reactivity of the internal standards had been established in previous workshops. Data sets were subsequently analysed by statistical clustering using the Leucocyte Typing Database IV software. The resulting 18 cluster groups were allocated to the appropriate second round sections of the workshop, after reviewing the overall cellular reactivity of each cluster as well as the specificity of known standards which clustered in a group.

Overview of the Third International Workshop on Swine Leukocyte Differentiation Antigens

The aim of the Third International Workshop on Swine Leukocyte Differentiation Antigens (CD workshop), supported by the Veterinary Immunology Committee (VIC) of the International Union of Immunological Societies (IUIS), was to standardize the assignment of monoclonal antibodies (mAb) reactive with porcine leukocyte differentiation antigens and to define new antibody clusters, using nomenclature in accordance with human and ruminant CD nomenclature, as agreed at the summary meeting of the Second International Swine CD Workshop in Davis, 1995: only mAb with proven reactivity for the orthologous porcine gene product or cross-reactivity for the human gene products, were given the full CD nomenclature, all other allocations were prefixed with "w". As in previous workshops, the overall organization was entrusted to the chair and first author, with support by the chair of the previous workshop and second author. In addition to the existing 26 pig leukocyte CD/SWC determinants established in previous workshops, this workshop established/confirmed another 11 CDs for pig leukocytes, identified by a total of 21 mAb: CD11R1 (2 mAb), CD11R2 (1 mAb), CD11R3 (4 mAb), wCD40 (1 mAb), wCD46 (4 mAb), wCD47 (3 mAb), wCD49d (1 mAb), CD61 (1 mAb), wCD92 (1 mAb), wCD93 (1 mAb) and CD163 (2 mAb).

Cross-reactivity with bovine cells of monoclonal antibodies submitted to the 6th International Workshop on Human Leukocyte Differentiation Antigens

Twelve subpanels of monoclonal antibodies (MAb) included within the 6th International Workshop on Human Leukocyte Differentiation Antigens (6th HLDA) were assayed for reactivity with bovine peripheral blood leukocytes. Sixty-nine of the 807 MAb (8.6%) stained bovine cells. These MAb represented 30 different human CD groups. Nine of the MAb to different human CD antigens (CD19, CD23, CD39, CD47, CD86, CD117, CD120b, CDw149, CD165) potentially recognized antigens on cattle cells that had not previously been identified. These were investigated further by two-colour immunofluorescence to compare the cellular expression of the antigen on cattle cells with that reported for the different CD antigens in humans. Four of the MAb that belonged to CD23, CD39, CD47, and CDw149 stained bovine cells in a manner that indicated an almost identical cellular distribution of the antigen to that reported in humans. This implied that these MAb reacted with the homologous cattle molecules. Further work would be necessary to confirm specificity of CD19, CD86, CD117, CD120b and CD165 MAb. Other cross-reacting MAb either recognized antigens already defined in cattle or antigens not yet clustered in humans. The study has identified valuable new reagents for studies of cattle and confirmed that most common cross-reactive MAb are to epitopes on integrins.

Mutations abrogating the RNase activity in glycoprotein E(rns) of the pestivirus classical swine fever virus lead to virus attenuation

Classical swine fever (CSF) is a severe hemorrhagic disease of swine caused by the pestivirus CSF virus (CSFV). Amino acid exchanges or deletions introduced by site-directed mutagenesis into the putative active site of the RNase residing in the glycoprotein E(rns) of CSFV abolished the enzymatic activity of this protein, as demonstrated with an RNase test suitable for detection of the enzymatic activity in crude cell extracts. Incorporation of the altered sequences into an infectious CSFV clone resulted in recovery of viable viruses upon RNA transfection, except for a variant displaying a deletion of the histidine codon at position 297 of the long open reading frame. These RNase-negative virus mutants displayed growth characteristics in tissue culture that were undistinguishable from wild-type virus and were stable for at least seven passages. In contrast to animals inoculated with an RNase-positive control virus, infection of piglets with an RNase-negative mutant containing a deletion of the histidine codon 346 of the open reading frame did not lead to CSF. Neither fever nor extended viremia could be detected. Animals infected with this mutant did not show decrease of peripheral B cells, a characteristic feature of CSF in swine. Animal experiments with four other mutants with either exchanges of codons 297 or 346 or double exchanges of both codons 297 and 346 showed that all these RNase-negative mutants were attenuated. All viruses with mutations affecting codon 346 were completely apathogenic, whereas those containing only changes of codon 297 consistently induced clinical symptoms for several days, followed by sudden recovery. Analyses of reisolated viruses gave no indication for the presence of revertants in the infected animals.

Establishment of long-term CD154-dependent porcine B-cell cultures

Cells of the B-cell lineage play an essential part in the immune response, not only as the producers of antigen-specific antibodies, but also as antigen-presenting cells. Unlike T cells, however, the establishment of long-term normal B-cell lines has proved to be exceedingly difficult. In this paper we demonstrate that cell membrane-expressed CD154 (CD40 ligand) is able to support the continual growth of porcine mesenteric lymph node B-cell cultures for more than 4 months without the addition of exogenous cytokines, such as interleukin-4 (IL-4). Addition of IL-4, but not interferon-gamma (IFN-gamma) or IL-13, to these cultures enhanced proliferation, as, to a lesser extent, did addition of IL-2. Interestingly, however, whilst IFN-gamma-supplemented cultures largely consisted of immunoglobulin M (IgM)-positive cells, cultures with IL-13 or IL-4 contained a significantly increased proportion of IgG-positive cells.