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1.
The reactivity of 176 monoclonal antibodies (mAb) submitted to the Second International Swine CD Workshop, together with 19 internal standards, was analyzed by flow cytometry on 16 different cell types as a means of establishing the proper cell subset for later detailed clustering analyses. The exact CD subset reactivity of the 19 internal standard mAb had been characterized in the First International Swine CD Workshop. The flow cytometric analyses resulted in 40 data sets which were then subjected to statistical clustering using the Leukocyte Typing Database IV (LTDB4) software. As result of this work, 22 clusters were defined. After review of these results, panels of mAb from the defined first round clusters were assigned to cell subsets. The respective mAb in those first round clusters were then distributed to subset group researchers for further examination during the second round of the workshop.  相似文献   

2.
Based on cluster groups from the first-round analyses of the Third International Swine CD Workshop, 38 monoclonal antibodies (MAbs) including eight internal controls were analysed by flow cytometry (FCM) and immunohistochemistry (IH) in the second-round analysis of the B-cell section of this workshop. Targets in this section included peripheral blood lymphocytes and cells isolated from ileal Peyer's patches (PP), mesenteric lymph nodes (MLN) of adult animals, bone marrow cells from newborn piglets and thymus cells isolated from foetuses at day 105 of gestation.Immunohistochemistry of these 38 MAbs identified four sets, whose ligands were co-expressed with CD21, which showed a tissue distribution compatible with specificity for cells including those of the B-cell lineage. Another group of miscellaneous antibodies appeared to identify other cells, several antibodies were negative. Two-colour flow cytometry (2C-FCM) was carried out by pairing each antibody of interest with antibodies to SWC7, CD21, sIgM and a polyclonal rabbit anti-swine immunoglobulin antiserum (RaSwIg).The anti-CD21 MAb BB6-11C9 (no. 20) and IAH-CC51 (no. 19), established in previous workshops, as well as the cross-reactive anti-human CD21 B-1y4 (no. 146), clustered together in FCM analyses of the first round and showed similar cellular distribution in IH. A further cluster was formed by the standard CC55 (no. 55) and 2A10/8 (no. 102) submitted as SWC7 specific. The second SWC7 standard 2F6/8 (no. 100) clustered separately, but IH showed an identical pattern of reactivity to the other SWC7 MAb.Unfortunately, this work could not identify any other novel clusters with specificity for B-cells, as the statistical clustering of other MAbs could not be substantiated by IH or subsequent two-colour-FCM work. However, we could identify MAb with similar cellular distribution. The ligands for the cross-reactive anti-human CD40 G28.5 (no. 25) and STH224 (no. 153) were expressed on very similar targets, similarly the ligands for the MAb pair JM1H1 (no. 139) with BB6-10A10 (no. 142) and the MAb pair 3F7/11 (no. 115) with 1C2F10 (no. 187).  相似文献   

3.
The workshop monoclonal antibodies were tested by flow cytometry for reactivity against: (1) ovine bone marrow cells, (2) cultured bone marrow-derived monocyte/macrophage cell lines and (3) cultured bone marrow-derived mast cell lines. Both single and two-colour immunofluorescence tests were performed. The results of these analyses are presented and discussed.  相似文献   

4.
In the activation/maturation section, 46 monoclonal antibodies (mAbs) were analysed using freshly isolated as well as mitogen activated and recall antigen re-stimulated cells. A total of 10 internal standards as well as 6 antibodies with established reactivity for human cells, reported to cross-react with porcine leukocytes, were included in the panel. The standard antibodies were anti-CD25, CD44, CD45, SLA II, SWC1, SWC2, SWC7 and SWC8 reagents. The test panel contained antibodies with putative reactivity to CD25, SLA II and other mAbs directed against ill-defined targets. Single and double colour surface staining was performed in the attempt to group the mAbs tested into clusters of differentiation. Five new anti-class II reagents, two directed to SLA-DQ and three to SLA-DR, could be added to the previously established ones. One new anti-CD25 as well as two new antibodies with SWC7 and SWC8 specificities, respectively, could also be added to the previously established ones. The identity of the two latter antibodies was also confirmed in other sections of this workshop (B-cell section for SWC7 antibodies and myeloid section for the SWC8 antibodies). The antibody JM2F12, in our hands, has shown strong similarities to the cross-reactive anti human-CD49f reagent. No other clusters were identified, as all remaining antibodies behaved in a different way on different target leukocyte populations. The second purpose of the section was fulfilled: interesting staining profiles of several antibodies on differentiating lymphocytes were recorded and are discussed here.  相似文献   

5.
A total of 27 monoclonal antibodies raised to human targets were included in the present Pig CD workshop. 14 of these had been tested in previous workshops and had been reported as cross-reactive, a further 13 had been reported as cross-reactive during the Human Leukocyte Differentiation Antigens Workshop VI (HLDA VI) and/or by the donor (a commercial company submitting these mAb for validation by the workshop community). Of the 27 antibodies, three antibodies with previously reported reactivity for pig cells were eliminated from the workshop following preliminary tests due to lack of reactivity. Nine antibodies, although initially positive, gave inconsistent results during the course of the workshop. We found consistent reactivity for 15 antibodies. However, the cellular distribution of the target molecules on pig and human cells was shown to be different for three of these antibodies. These findings have important implications for the usefulness of these antibodies as research tools in the pig.  相似文献   

6.
Fifty-seven monoclonal antibodies (mAb) selected after the first round analyses in the Third International Swine CD workshop for their possible reactivity with T-lymphocyte specific antigens were further analysed in a second round. As target cells for flow cytometric analyses served peripheral blood mononuclear cells, nylon-wool enriched T-lymphocytes, thymocytes, splenocytes, and lymphocytes derived from Peyer's patches. These second round analyses revealed 15 different data sets. Together with 22 pre-selected data sets from the first round analyses with the whole panel of monoclonal antibodies, 37 data sets were used for the clustering of the respective mAb. Using the LTDB4 program, 19 preliminary clusters could be defined. Two clusters (C3 and C7) with 4 mAb showed no labelling of resting T-lymphocytes. Seven clusters (C1, C2, C4, C5, C6, C11, and C12) contain mAb (in total: 16 mAb) directed against subsets of CD4(-)CD8(-) T-lymphocytes. These mAb seem to recognise antigens on porcine T-lymphocytes with T-cell receptor (TcR) gamma/delta chains. Three clusters (C8, C9, C10, C13) seem to be artificial. They contain either mAb staining CD4(-)CD8(-) T-lymphocytes and low CD8+ cells (C8, C9), mAb with various reactivity (C10) and mAb with known differences in their reactivity (C13). Cluster C14 contains 3 mAb against the CD4a-epitope, C15 describes mAb directed against porcine CD8c-epitope whereas mAb against CD8a and CD8b-epitopes grouped in C19. The mAb found in C16 seem to recognise CD45R. Cluster C17 is composed of different standards directed against CD2, CD3, CD5 and wCD6. Two additional mAb recognising the CD2a-epitope could be enclosed. C18 contains two mAb directed against SWC2.  相似文献   

7.
A panel of monoclonal antibodies (mAbs) with specificity for chicken lymphocyte surface antigens was established and characterized based on their reactivities against chicken lymphoid cells and tumor cell lines on flow cytometry. Three mAbs (7-3G-2, 7-2E-8, and JB-2) reacted preferentially with thymocytes, however, none of them reacted with Marek's disease derived T lymphoblastoid cell lines. Four mAbs (6-27A-1, 4-5C-5, Lc-4, and Lc-6) reacted with spleen cells and peripheral blood leukocytes as well as thymocytes. All seven mAbs reacted with chicken embryonic thymocytes from day 12 of embryonic life onward. All mAbs showed no reactivity against bursal lymphocytes.  相似文献   

8.
The eighteen monoclonal antibodies (mAbs) to B cells and the fourteen mAbs to accessory cells submitted to the workshop were analysed by FACS on three established, bovine leukemia virus (BLV)-infected bovine cell lines. Several mAbs of previously defined specificity were run in parallel. This analysis allowed us to gain further insight on the precise phenotype of those peculiar cells and to cluster the submitted mAbs according to their staining patterns. The BLV-infected cell lines seemed to belong to the B cell type though some of them lack detectable surface immunoglobulins. Moreover, all lines express the CD5 T cell marker and several myeloid markers.  相似文献   

9.
Forty five mAbs submitted to the Second International Swine CD workshop were analyzed by six different laboratories for their possible reactivity with porcine myelomonocytic cells using flow cytometry and immunohistochemistry. As a result of these analyses, a new swine workshop cluster, SWC9, composed of two mAbs that recognize an antigen selectively expressed on mature macrophages, was defined. In addition, several mAbs were identified, allowing the differentiation of granulocytes from monocytes/macrophages, or monocytes from macrophages. Further work is required to identify the antigen recognized by these mAbs. Nevertheless, they should already prove useful for the identification of different stages in the macrophage maturation/differentiation, and will certainly aid analyses on the complexity of the mononuclear phagocyte system in the pig. Finally, the cross-reactivity of three anti-human CD14 mAbs with porcine myelomonocytic cells was established in this workshop.  相似文献   

10.
The reactivity of 204 monoclonal antibodies (mAb) out of 377 commercially available antibodies collected by the animal homologue group of the HLAD8 was analyzed by single colour flow cytometry. Most of these mAb were originally developed against human cell surface molecules. Fifty-eight mAb (28%) showed reactivity with spleen cells of Aotus nancymaae, a non-human primate animal model in biomedical research. Out of these 58 mAb, 22 also showed reactivity with mononuclear cells derived from rhesus macaques and cynomolgus monkeys indicating that the epitopes recognized are evolutionary conserved between human, Old and New World monkeys. This novel panel of A. nancymaae reactive mAb will increase the potential to explore complex host-pathogen interactions in non-human primate animal models, particularly in malaria vaccine research.  相似文献   

11.
In order to measure different lymphocyte populations in buffalo (Syncerus caffer) and waterbuck (Kobus defassa), we analysed the monoclonal antibodies from the 1st International Workshop on Leukocyte Antigens in Cattle, Sheep and Goats for suitable cross-reactive reagents. Peripheral blood mononuclear cells from three buffalo and three waterbuck were tested with the whole panel of monoclonal antibodies (mAbs) together with some additional antibodies against MHC and Ig. In some clusters almost all antibodies cross-reacted (CD2, CD8), in others almost none cross-reacted (CD4, CD5) and in cluster CD6, mAbs only reacted with buffalo but not waterbuck. Double staining experiments were performed on buffalo PBM with the cross-reacting antibodies, to confirm that they detected similar cell populations as in bovine PBM. This was shown with reagents against CD2, CD4, CD6, CD8, CD11, WC1, WC3 and Ig. The molecular weights of the buffalo antigens correlated well with those of the homologous cattle antigens. In the CD5 cluster, only one mAb reacted with the two wild species, and defined an unusual CD2+ CD5- cell population in buffalo. Also mAbs cross-reacting with buffalo MHC class II detected unusual expression on resting T cells. From the results presented, it is clear that the workshop panel contains mAbs against the most important T and B cell antigens of buffalo and probably waterbuck, which will allow us to compare functional lymphocyte populations in cattle and wild ruminants.  相似文献   

12.
Flow cytometry is becoming a commonly used technique to characterize a variety of cells. It provides a powerful application to rapidly determine the relative percentages of T-lymphocyte subsets and B-lymphocytes. The effectiveness of its application, however, is dependent on standardization, especially in a clinical setting. Application of flow cytometry to veterinary diagnostics has been limited by the unavailability of reagents and by the unstandardized characterization of normal values using antibodies not commercially available, but typically provided through the generosity of other researchers. This paper presents a standardized gating protocol, and average values and ranges observed for normal canine and feline blood lymphocytes using commercially available antibodies to cell surface markers for CD5, CD3, CD4, CD8, MHC II, and B lymphocytes. The averages for these markers on gated lymphocytes were as follows: Canine CD5 83.3%, Canine CD4 45.0%, Canine CD8 28.8%, Canine MHC II 98.0%, Canine B Cell 12.9%, Canine CD4/CD8 ratio 1.87, Feline T lymphocytes 77.3%, Feline CD4 44.5%, Feline CD8 25.7%, Feline B Cell 24.1%, Feline CD4/CD8 Ratio 1.75. Normal values were also established for a mixed breed group of dogs, and old versus young dogs. This information will provide researchers and clinicians with a standardized protocol for gating, which establishes a basis for comparison between techniques, and a measure of phenotypic percentages for flow cytometry in normal dogs and cats based on this standardization and commercially available antibodies.  相似文献   

13.
Fifty-nine monoclonal antibodies (mAb) were assigned to the adhesion section of the Second International Swine CD Workshop. They were analysed for their reactivity to selected lymphoid cell populations, as well as to non-lymphoid cell lines. Cell lysate ELISAS and Western Blot analyses were also carried out. As a result, thirteen separate cluster groups emerged (p>0.95). Workshop assignments for adhesion molecules were made: wCD29/49 for mAbs UCP1D2 (#133) and FW4-101 (#165), and PNK-I (#194) and MUC76A (#025) could be assigned to wCD18. For one cluster (FQ1D7, #161 and 2F4, #069) the cellular distribution and MW were characteristic for MHC Class II, and another cluster comprising several antibodies which appeared to recognise MHC Class I. Other clusters could not be assigned to cell surface structures known to be linked to cellular adhesion, however, two further antibodies, 335-2 (#112) and FG1F6 (#156), could be added to SWC1, and the new SWC8 was defined by MIL3 (#077) and MUC20A (#029), binding a ligand of 29–32 kDa. Clustering for these two antibodies was confirmed by blocking studies. The cellular distribution is known for MIL3, recognising an epitope present on granulocytes, B cells, and a subset of T cells expressing CD8 at high intensity.  相似文献   

14.
Three hundred and seventy seven commercially available monoclonal antibodies (mAb) were tested for their cross-reactivity with rhesus macaque (Macaca mulatta) peripheral blood cells. These antibodies were collected by the animal homologue section of the HLDA8 Workshop in order to assign their potential applicability for in vitro assays. Reactivity of each mAb with lymphocyte, monocyte and granulocyte populations obtained from peripheral blood of adult rhesus macaques was evaluated. Single-colour flow cytometry and indirect labeling method was used in first-round screening. Based on their reactivity with rhesus macaque cells 57 positive mAb were selected for second-round testing. Multi-colour flow cytometry and combinations of direct and indirect labeling was used to compare the reactivity of the respective mAb. In addition, reference reagents known to react with rhesus macaque CD3, CD20 and CD56 were used to further characterization of the reactivity of the selected 57 mAb on peripheral blood cells.  相似文献   

15.
The myeloid panel of monoclonal antibodies (mAbs) submitted to the Third Swine CD Workshop were analysed for reactivity with bone marrow haematopoietic cells (BMHC). Using single and triple immunofluorescence labelling by flow cytometry (FCM), the mAbs were grouped according to their capacity to recognise myeloid cell populations and/or maturation stages. Group 1 consisted of mAbs labelling the majority of myeloid BMHC, including neutrophilic, eosinophilic and monocytic cells. The ligands for SWC3 and CD11b-like mAbs of group 1 showed a maturation-dependent intensity of expression. The other antibodies of group 1 reacted with BMHC to give a sharp, single peak. Group 2 mAbs reacted only with monocytic cells. The anti-human CD49e mAb Sam-1 was the only mAb detecting the majority of monocytic cells, but not other BMHC. The mAbs in group 3 recognised antigens expressed on granulocytes, but not monocytes. The previously identified SWC8 in this group proved to be useful in differentiating major population of BMHC when cells were double labelled with the pan-myeloid SWC3. Other mAbs within group 3, such as MIL4 and TMG6-5 (an anti-human CD11b), only recognised subsets of neutrophils and eosinophils. Group 4 mAbs reacted with the more mature subpopulations of neutrophils and monocytes. Some of these antibodies might prove useful for assessment of cell maturity, such as anti-CD14 and the anti-human CD50 mAb HP2/19.  相似文献   

16.
T-cell lymphocyte populations can be delineated into subsets based on expression of cell surface proteins that can be measured in peripheral blood by monoclonal antibodies and flow cytometry percentages of the lymphocyte subpopulations. In order to accurately assess immunocompetence in birds, natural variability in both avian immune function and the methodology must be understood. Our objectives were to (1) further develop flow cytometry for estimating subpopulations of lymphocytes in peripheral blood from poultry, (2) estimate repeatability and variability in the methodology with respect to poultry in a free-range and environmentally diverse situation, and (3) estimate the best antibody and cell marker combination for estimating lymphocyte subpopulations. This work demonstrated the repeatability of using flow cytometry for measurements of peripheral blood in chickens using anti-chicken antibodies for lymphocyte subpopulations. Immunofluorescence staining of cells isolated from peripheral blood revealed that the CD3(+) antibodies reacted with an average of approximately 12-24% of the lymphoid cells in the blood, depending on the fluorescence type. The CD4(+) and CD8(+) molecules were expressed in a range of 4-31% and 1-10% of the lymphoid cells in the blood, respectively. Both fluorescence label and antibody company contribute to the variability of results and should be considered in future flow cytometry studies in poultry.  相似文献   

17.
Establishment and characterization of a chicken mononuclear cell line   总被引:3,自引:0,他引:3  
A new chicken mononuclear cell line (MQ-NCSU) has been established. The starting material used to initiate this cell line was a transformed spleen from a female Dekalb XL chicken which had been experimentally challenged with the JM/102W strain of the Marek's disease virus. After homogenization, a single cell suspension of splenic cells was cultured using L.M. Hahn medium supplemented with 10 microM 2-mercaptoethanol. Under these culture conditions, a rapidly proliferating cell was observed and then expanded after performing limiting dilution cultures. These cells were moderately adherent and phagocytic for sheep red blood cells and Salmonella typhimurium. When tested against a panel of monoclonal antibodies (mAb) using the flow cytometry, MQ-NCSU cells stained readily with anti-chicken monocyte specific (K-1) mAb but did not stain with mAb detecting T-helper, T-cytotoxic/suppressor, and NK cells. MQ-NCSU cells expressed very high levels of Ia antigens and transferrin receptors. In addition, cell-free supernatant obtained from MQ-NCSU culture contained a factor which exhibited cytolytic activity against tumor cell targets. Based on their cultural, morphological, and functional characteristics and mAb reactivity profile, we conclude that MQ-NCSU cell line represents a malignantly-transformed cell which shares features characteristic of cells of the mononuclear phagocyte lineage.  相似文献   

18.
Three hundred and seventy-seven monoclonal antibodies (mabs) directed against human CD antigens and non-classified human leukocyte surface antigens were assayed for their reactivity with common carp (Cyprinus carpio L.) and rainbow trout (Oncorhynchus mykiss) peripheral blood leukocytes (PBL) and thymocytes within the animal homologue section of the 8th International Workshop on Human Leukocyte Differentiation Antigens (HLDA8). Four of the mabs clearly reacted with rainbow trout PBL and two with carp PBL. Positive mabs were investigated further by two-colour flow cytometry with established mabs directed against carp and rainbow trout leukocyte subpopulations. None of these mabs were suitable for Western blotting and immunoprecipitation. Three mabs were found to stain cells in fixed cryostate sections of the lymphatic organs thymus, pronephros and spleen. In this study, for the first time an anti-CD14 mab was found to cross-react with fish cells. This mab could be a valuable tool complementing the limited toolbox of population-specific mabs in fish. The low number of cross-reactive mabs analyzed in this workshop is another indication for the great phylogenetic difference between mammals and osteichthyes.  相似文献   

19.
The anti-CD1 monoclonal antibodies submitted to the 1st International Workshop on Leucocyte Differentiation Antigens of Cattle, Sheep and Goats were tested for their reactivity on sheep skin, thymus and lymph node and for their reactivity with sheep efferent and afferent lymph and peripheral blood. With the exception of 20-27 they all stained that same cell populations. The antibodies precipitated molecules with a heavy chain of 46,000 apparent molecular weight and a light chain of 14,000 apparent molecular weight. VPM5 and CC14 antigens were purified by affinity chromatography. All the antibodies cross-reacted with these molecules. The results show that 20-27 recognises the same molecules as the other antibodies and suggest that 20-27 is a pan CD1 monoclonal antibody and the other monoclonal antibodies are homologues of the human CD1b molecules.  相似文献   

20.
Several putative anti-human and swine CD11-specific monoclonal antibodies (mAbs) were included in the myeloid section of the Third International Swine CD Workshop. Failure of clustering analysis to group these mAbs together prompted additional analyses to define the specificities of these mAb. Combination of one and two-color flow cytometry (FCM) and immunoprecipitation (IP) allowed the definition of the mAb into three CD11 groups. Cellular distribution of the molecules recognized by anti-human CD11b and c mAbs on swine cells proved to be significantly different from that found in humans.  相似文献   

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