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1.
Certain bovine peripheral blood lymphocytes (PBL) and foetal thymocytes were shown to bind autologous and allogeneic red blood cells (RBC). When autologous RBC were treated with dextran, approximately 10% of peripheral blood lymphocytes and about 30% of thymocytes were found to form rosettes. Cells forming autologous rosettes appear to be a population of T-lymphocytes because (1) more rosette formation occurred with thymocytes than with PBL, (2) autologous rosette formation was increased in PBL cultures enriched in T cells and was decreased in cultures depleted of T cells, (3) very few rosette forming cells had surface immunoglobulin and (4) peripheral blood mononuclear cell cultures depleted of monocytes did not show a decreased autologous rosette formation. It appears that the cells forming rosettes with autologous and allogeneic RBC belong to the same sub-population of T-cells. 相似文献
2.
Many species of erythrocytes were investigated for their ability to form spontaneous rosette with bovine peripheral blood leukocytes and fetal thymocytes. Only sheep and chicken red blood cells gave rosettes. Using conditions shown optimum for the demonstration of human rosette forming cells, only low numbers of bovine rosettes were demonstrable. By changing culture conditions to include 100% fetal calf serum, neuraminidase treated erythrocytes and/or lymphocytes and optimizing the incubation times and temperature, up to 38% of peripheral blood leukocytes and 52% of thymocytes formed rosettes. A thymic origin of rosetting cells was ascribed to T cells for the following reasons: 1) thymocytes gave higher numbers than did peripheral blood leukocytes, 2) rosette forming cell numbers were increased in peripheral blood leukocyte subpopulations enriched in T cells by nylon column separation and 3) only very few rosette forming cells had surface immunoglobulin, a marker of B lymphocytes. The reasons why all T cells were not detected by the technique were discussed. 相似文献
3.
H Buschmann S Pawlas 《Comparative immunology, microbiology and infectious diseases》1980,3(3):299-309
Bovine lymphocyte populations were characterized by surface markers, rosette-forming ability and behaviour towards mitogens. After pre-treatment with neuraminidase 16% of the bovine blood lymphocytes and 14% of the bovine spleen cells formed spontaneous (E) rosettes with sheep erythrocytes. About 20% EAC rosette-forming cells were detected among both cell populations. Protein A receptors were detectable among 8% of the blood lymphocytes and 26% of the spleen cells. Bovine lymphocytes responded to pokeweed mitogen (PWM), phytohemagglutinin (PHA) and concanavalin A (Con A). An enrichment of bovine B and T cells was obtained by E-rosette sedimentation (81–84% B cells) and by filtration through nylon fiber columns (51–65% T cells). The T cells obtained after nylon filtration still responded to the mitogens PHA, Con A and PWM. Enriched B-cell populations responded to bacterial lipopolysaccharide (LPS). After monocyte depletion the mitogenic response of blood lymphocytes was not influenced. 相似文献
4.
S Djilali A L Parodi 《Comparative immunology, microbiology and infectious diseases》1987,10(2):141-147
Surface immunoglobulins (SIg), Peanut Agglutinin (PNA), spontaneous erythrocyte rosette (E-rosette) and Helix pomatia (HP) marker were investigated in normal and Bovine leukemia virus (BLV)-infected sheep. In normal sheep, 19.3% +/- 4.9 of peripheral blood lymphocytes (PBL) were SIg+, whereas 58% +/- 5.69 were PNA+, and 19.6 +/- 5.2 were E-rosette forming cells (E-RFC). In BLV-induced lymphocytotic sheep, SIg+ cells in PBL reached 59.4% +/- 15.06. In the same animals, PNA bound to 20.6% +/- 9.69 and E-RFC were 8.7% +/- 4.5. A panning technique was applied with an anti sheep-immunoglobulins coated plates to separate SIg+ (adherent cells = A) and SIg- cells (non-adherent cells = NA). The (A) population was 94-95% SIg+ cells and 2-3% PNA+, while the (NA) population was 0-4% SIg+ and 79-85% PNA+ cells. Thus PNA is a T cell marker in sheep species. HP, a marker for bovine T lymphocytes was also studied. Sheep PBL do not bind to HP. However, after panning separation about 50% of NA cells became HP+. 相似文献
5.
The effect of serum from horn cancer affected bullocks and cows on E-rosetting capacity of peripheral blood lymphocytes (PBL) from unaffected control animals was examined. The E-rosette counts were made using 2-aminoethyl isothiouronium bromide (AET) treated sheep red blood cells. A significant decrease in the percentage of EAET rosette forming cells was noticed when PBL were incubated with 50 per cent serum from animals affected with horn cancer. However, no such effect was noticed when PBL were treated with 50 per cent serum from unaffected control animals. A linear relationship was observed between percentage of EAET rosette forming cells of animals affected with horn cancer and E-rosette inhibitory activity of the corresponding serum on PBL from control animals. 相似文献
6.
Linton D. Staples David Brown Richard M. Binns 《Veterinary immunology and immunopathology》1981,2(5):411-423
Peripheral blood lymphocytes (PBL) prepared by centrifugation of heparinized sheep or goat jugular venous blood on Ficoll-Triosil were shown to incorporate methyl-[H3]-thymidine ([H3]-Tdr) in vitro in response to lymphocyte mitogens.Optimal conditions for transformation included the culture of 2.5 × 105 viable cells per round bottomed culture well in 250μl medium RPMI-1640 supplemented with fetal calf serum (FCS) at 10% for goat or 15% for sheep lymphocytes. Optimum incorporation of [H3]-Tdr by sheep PBL was recorded after 3–5 days and was achieved in response to 100μg/ml phytohaemagglutinin (PHA), 20μl/ml pokeweed mitogen (PWM), 10μg/ml Concanavalin-A (Con-A) and 50μg/ml bacterial lipopolysaccharide (LPS). For goat PBL the optimum mitogen concentrations were 50μg/ml PHA, 20μl/ml PWM, 5μg/ml Con-A and 50μg/ml LPS. Optimum PHA concentrations were influenced by the level of FCS supplementation, higher concentrations of PHA being required for optimum response when the concentration of FCS was increased.While variability within preparations was small there was considerable variation in the magnitude of the response between preparations, which was sufficient to confound comparisons between different experiments and between animals. The variability between preparations could not be attributed to changes in sensitivity of PBL to mitogens or to the influence of erythrocyte contamination of the PBL preparations. While these results are in general agreement with previous reports of optimal conditions for the measurement of ruminant PBL to mitogens, there are some important differences which are discussed in the context of the available literature. 相似文献
7.
S Djilali B Dacosta J L Kessler A L Parodi 《Comparative immunology, microbiology and infectious diseases》1991,14(3):257-263
The M1 monoclonal antibody (mAb) was proved to recognize 51-70% of Bovine peripheral blood lymphocytes (PBL). The M1+ cells were SIg-. In spleen and lymph nodes, the M1 positive lymphocytes were located within the T cell areas. All the lymphoid follicles remained negative. In the thymus, 10% of thymocytes were M1+, most of them were located in the medulla. The M1 mAb did not inhibit spontaneous rosette formation by sheep erythrocytes and bovine lymphocytes. On the other hand, biochemical analysis of membrane antigen with bovine thymic tumor cell line LB203 gave a molecular weight of 75 kDa. Despite a slight difference in biochemical results (75 vs 67-69 kDa). Our data permit us to consider M1 mAb as a possible homologous of human anti-CD5 mAb. Finally, M1 cross-reacted with sheep peripheral blood T lymphocytes. 相似文献
8.
Characterization of feline T and B cells 总被引:1,自引:0,他引:1
T Kuramochi M Takeishi T Ishida K Kato M Ishida 《American journal of veterinary research》1987,48(2):183-185
Feline peripheral-blood lymphocyte populations (n = 22) were examined for the following markers: rosette formation with guinea pig erythrocytes (GPE-T cells), rosette formation with human RBC (HRBC-T cells), rosette formation with sheep RBC, mixed rosette formation with GPE-T cells and HRBC-T cells (total T cells), erythrocyte antibody-complement rosettes, and surface immunoglobulin. An average of 28% +/- 7% (range, 16% to 39%) of the feline lymphocytes formed rosettes with GPE-T cells, and 27% +/- 7% (range, 11% to 36%), with HRBC-T cells. An average of 57% +/- 9% (range, 33% to 75%) of the lymphocytes formed mixed rosettes. The erythrocyte antibody-complement rosette-forming cells and surface immunoglobulin-bearing cells were found in peripheral blood lymphocytes (10% +/- 6% and 24% +/- 8%, respectively). The murine monoclonal antibodies OKT 11 and HuLy-m1, specific for a framework determinant of human E-rosette receptor antigens, cross-reacted with feline cell membrane molecules recognizing a bimolecular complex (45,000 to 50,000 daltons) similar to that described in persons. We investigated the distribution of these E-rosette receptor-like antigens on feline lymphocytes. By complement-mediated lymphocytotoxicity, about 30% of the feline lymphocytes expressed the antigens. When lymphocytes were treated with HuLy-m1 antibody, spontaneous rosette formation with HRBC-T cells was significantly inhibited. 相似文献
9.
Sheep antibodies against a pig E-rosette-forming lymphoblastic T lymphoma raised by two intravenous injections of 10(10) cells showed little lymphocytotoxic activity which could be absorbed with red cells, alveolar macrophages or kidney or liver cell homogenates. Bone marrow absorption yielded subpopulation specific antibody which binds to E rosette-forming cells (E.RFC) using either complement-mediated cytotoxicity or indirect antiglobulin rosette formation. In 30 blood lymphocyte preparations from 20 pigs with a range of approximately 20-85% E rosettes the mean E% 43.5 +/- 2.7 agreed with the % antigen+ cells by cytotoxicity mean = 42.6 +/- 2.7 and in each individual sample these figures also agreed closely. In samples of blood lymphocytes enriched and depleted for E rosettes, results of %E+ also agreed closely with % antigen+ cells. This relationship also held for thymocytes and the specific antibodies could be completely absorbed with thymocytes. These data show that the antibody identified peripheral and thymic E.RFC. Bound to lymphocytes the antibody inhibited E rosette-formation with sheep red blood cells (SRBC) in saline (S) and dextran (DS) and with pig RBC in dextran and in Ficoll, but did not affect B cells shown by immunofluorescence, direct antiglobulin rosette formation or Fc rosette-formation, either in saline or dextran, (which include T gamma cells). E rosette inhibition was dependent on antibody concentration, showing single and double sigmoid curves for S and DS rosettes respectively, consistent with differing ease of inhibition of the strong and weak rosette formation. The same spectrum of inhibition of rosette formation by antibody binding followed subsequent incubation with C'6-deficient rabbit serum, but with C'-sufficient serum resulted in loss of cells which require dextran for Fc rosette-formation (T gamma). Thus the serum reveals E rosette-forming T cells and their subpopulations, perhaps by binding to the SRBC receptor. 相似文献
10.
Feline separated mononuclear cells (SMC) were obtained from peripheral blood by ficoll-diatrizoate gradient separation. SMC were further fractionated on nylon wool columns into nylon wool adherent cells (NWAC) and nylon wool effluent cells (NWEC). The three cell populations, SMC, NWAC and NWEC, were characterised using direct immunofluorescent staining for surface immunoglobulin (sIg) as a B cell marker and neuramidase treated guinea pig erythrocyte-rosette formation (E-rosettes) and mitogen-induced lymphocyte blastogenesis (LB) as possible T-cell markers. Feline SMC consisted of 30.1 +/- 4.0% sIg+ cells 36.6 + 5.4% E-rosette forming cells and 33.3% null cells i.e. cells which were sIg- and non E-rosette forming. Fractionation of SMC on nylon wool columns yielded NWEC which were significantly enriched for T cells in that they contained 68.6 +/- 2.9% E-rosette forming. Fractionation of SMC on nylon wool columns yielded NWEC which were significantly enriched for T cells in that they contained 68.6 +/- 2.9% E-rosette forming cells. NWAC were 51.0% +/- 10.8% sIg+, approximately 20% of cells were lost. The LB responsiveness of NWEC to concanavalin A (Con A) and phytonaemagglutinin-P (PHA-P) was enhanced compared to SMC. NWAC were non-responsive to Con A and PHA-P at all concentrations tested. It was concluded that nylon wool column fractionation of feline SMC was an efficient procedure for T cell enrichment and that the enriched cells retained the properties of E-rosette formation and blastogenesis by mitogens. 相似文献
11.
网状内皮组织增殖病病毒感染SPF雏鸡外周血液T,B淋巴细胞数量变化 总被引:4,自引:1,他引:3
应用SPA菌体花环法检测网状内皮组织增殖病病毒(REV)感染SPF雏鸡外周血液T、B淋巴细胞数量动态变化。结果发现,1日龄SPF雏鸡感染REV后7~49d外周血液T淋巴细胞数量,14~49dB淋巴细胞数量均明显低于对照组。表明感染REV的SPF雏鸡外周血液的细胞免疫和体液免疫水平均下降。 相似文献
12.
H Koyama M Kozakai S Kunita T Hohdatsu T Nasu H Saito 《Zentralblatt für Veterin?rmedizin. Reihe B. Journal of veterinary medicine. Series B》1990,37(1):9-18
From mice immunized with T lymphocyte-enriched bovine peripheral blood mononuclear cells (PBMC), a monoclonal antibody termed BLMo-12 was obtained. BLMo-12 reacted with the antigen of Mr 56,000 in lysate of T lymphocytes. This mAb was found to inhibit spontaneous rosette formation by T-bovine lymphocytes with sheep red blood cells but it did not react with B lymphocytes, monocytes, neutrophils or eosinophils. In frozen section of the thymus, BLMo-12 showed a positive staining both the cortex and the medulla. In lymph nodes, the mAb stained the T-dependent paracortex. BLMo-12 reacted with 49.9% of PBMC and 82.5% of thymocytes. Recognition of the bovine homologue of CD2 on the T lymphocyte surface by this mAb was discussed. 相似文献
13.
Sheep peripheral blood lymphocytes have been studied using a number of surface markers. Thus 16.6 ± 2.4% (mean ± S.E.) were surface immunoglobulin positive (sIg+) by direct immunofluorescence, 35.9 ± 2.1% formed Fc rosettes with bovine red blood cells (RBC) sensitized with rabbit antibody (Fc+) and 28.4 ± 2.0% formed rosettes with sheep red blood cells (RBC) in the presence of 4% dextran (DS+). The percentage of both Fc+ and DS+ lymphocytes tended to increase with age of the animals. Demonstration of these markers allowed computation of two further subpopulations: null cells lacking sIg and a receptor for sheep RBC, and Fc·null cells lacking a receptor for Fc and sheep RBC. The former population, which contained a proportion of Fc+ lymphocytes comprised 49.8 ± 3.8% of blood lymphocytes and the latter 38.4 ± 3.0%.Separation on nylon wool columns, selective rosette enrichment and depletion on density gradients and stimulation with phytomitogens have shown sIg+ and Fc+ lymphocytes to be nylon wool adherent and unresponsive to phytohaemagglutinin (PHA) and Concanavalin A (Con A) and DS+ lymphocytes to be nylon wool non-adherent and responsive to PHA and Con A. The data also indicates a major overlap of the lymphocyte subpopulations bearing sIg and Fc which are apparently B lymphocytes. Moreover these data support the contention that E-rosette formation with sheep RBC in the presence of dextran is a marker for sheep T cells. The data also indicates that Fc·null cells are T cells, eluting in the non-adherent fraction from nylon wool. It is probable that a proportion of these cells bear a SRBC receptor too weak for present detection methods. 相似文献
14.
Yotsushima K Sakaguchi M Shimizu M Okimura T Izaike Y 《The Journal of reproduction and development》2004,50(4):471-476
The objective of this study was to investigate the influence of fatty acid-free bovine serum albumin (BSA) or fetal calf serum (FCS) on the re-expansion of biopsied blastocysts and post-warm viability of subsequently vitrified embryos. Firstly, blastocysts produced in vitro were biopsied at Day 7 and cultured to allow repair in TCM199 with 0.3% BSA or 5% FCS for 24 h. The re-expansion rates and mean total numbers of cells of the re-expanded embryos after the repair culture with BSA were almost the same as that with FCS. Secondly, after biopsied embryos were similarly cultured for repair with BSA or FCS, re-expanded embryos were selected for vitrification. After warming and exposure to 0.5 M sucrose with 20% FCS in mPBS, the embryos were cultured in TCM199 with 5% FCS for 24 h. The re-expansion rate and mean total number of cells in re-expanded blastocysts in the BSA treatment group (97.4 +/- 2.9% and 106 +/- 42) was significantly higher than that in the FCS treatment group (51.6 +/- 9.1% and 61 +/- 38), respectively (P<0.05 and P<0.01). In conclusion, both FCS and BSA supplementation can be useful for repairing cultures of bovine biopsied blastocysts; but, compared with BSA supplementation, FCS supplementation during repair culture reduces the post-warm viability of biopsied and subsequently vitrified embryos. 相似文献
15.
研究不同培养体系对胎牛成纤维细胞体外培养的影响及用牛血清白蛋白代替血清培养胎牛成纤维细胞的可行性。利用M199、DMEM、α-MEM、DMEM/F124种培养体系通过组织块贴壁培养对成纤维细胞体外培养液进行筛选,以α-MEM组细胞生长状况较好。分别用含2、4、6、8、10mg/mL BSA的α-MEM培养液对胎牛成纤维细胞进行原代及传代培养,5种浓度的BSA对原代培养时细胞开始游离出组织块的时间影响不明显,均在培养后的48h有成纤维细胞和上皮细胞混合游离出,但在传代培养时,胎牛成纤维细胞在8mg/mL BSA浓度的α-MEM中贴壁率较高。结果表明:培养胎牛成纤维细胞时,可用BSA代替血清,较适宜的培养体系为含8mg/mL BSA的α-MEM培养液。 相似文献
16.
Kumar SP Johnson DW Okino FC Muscoplat CC 《Veterinary immunology and immunopathology》1980,1(2):145-152
Peripheral blood monocytes significantly potentiated the mitogenic response of bovine fetal thymocytes to Concanavalin A as measured by incorporation of [3H] thymidine into cellular DNA. Mononuclear cells obtained from either normal or Mycobacterium bovis sensitized cattle were cultured with or without purified protein derivative (PPD) for 24 hours at which time bovine fetal thymocytes and concanavalin A were added. After 3 days of culture, both activated or non-activated monocytes significantly potentiated Con A-induced blastogenic responses. of monocytes from thymocyte cultures completely abrogated thymocyte responses to Concanavalin A. 相似文献
17.
Peripheral blood lymphocytes from 37 healthy rhesus macaques (Macaca mulatta) and thymocytes from 10 fetal and neonatal rhesus macaques were studied for membrane characteristics. Spontaneous rosette formation with sheep erythrocytes, a characteristic of human T lymphocytes, was evaluated. The presence of membrane-bound immunoglobulin and surface receptors for fixed complement was measured, using fluorescent antibody techniques and erythrocyte-antibody-complement rosettes, respectively. The mean percentages +/- 1 standard error of the lymphocyte markers in the peripheral blood lymphocytes from the macaques were: spontaneous rosettes, 63 +/- 1.0; erythrocyte-antibody-complement rosettes, 14.9 +/- 1.2; and membrane immunoglobulin-positive cells, 21.9 +/- 2.2. These values are very similar to values reported for human beings. 相似文献
18.
I. Valpotić M. Kaštelan M. Rudolf M. Gerenčer B. Jukić I. Bašić 《Veterinary research communications》1989,13(1):57-65
The percentage of T and B lymphocytes in the peripheral blood of horses chronically infected with equine infectious anaemia (EIA) virus was determined and the results were compared with the percentage of these cells in healthy uninfected horses. Cells with membrane receptors for sheep erythrocytes (T and active T lymphocytes) were determined by E and A rosette techniques, while cells with receptors for the C3b component of complement and those with receptors for mouse erythrocytes (B lymphocytes), were determined by the EAC rosette method. The percentage of Fc positive cells was assayed by the EA rosette test.The majority of peripheral blood lymphocytes (PBL) from both uninfected and EIA-infected horses formed rosettes of each kind with only three erythrocytes indicating a low density of the corresponding receptors on the cell membrane under the condition of the assays used. The percentage of T lymphocytes in the peripheral blood of diseased horses (52.4±1.6%), as detected by E rosettes, was significantly (p<0.01) higher than in control animals (42.4±3.5%). In clinically healthy horses 8.9±1.1% of PBL were identified by A rosettes as active T cells, whereas animals with a chronic form of EIA had a much lower (p<0.001) percentage of these cells (4.7±0.7%). In the B lymphocyte subpopulations the percentages of cells bearing Fc and C3b receptors were markedly elevated (p<0.001) in EIA-infected horses (24.7±0.8% and 42.8±2.2% respectively) as compared to uninfected animals (15.1±1.4% and 29.6±1.2% respectively). Receptors for mouse erythrocytes, as yet undescribed on equine PBL, were demonstrated in approximately equal proportions on lymphocytes from EIA-infected (24.8±1.5%) and uninfected horses (24.3±2.1%). 相似文献
19.
本试验旨在为阐明水牛感染大片吸虫的免疫机理提供单核巨噬细胞材料。经过密度梯度离心分离,贴壁法培养水牛外周血单核巨噬细胞,以MTT法检测培养4、24、48、72、96、120、144、168、192 h时贴壁单核巨噬细胞的相对存活数量,结果显示贴壁细胞体外培养72、96、120 h时,细胞数量相对稳定,组间差异不显著(P<0.05)。贴壁72 h的细胞通过倒置显微镜、瑞氏染色观察,结果显示其具备单核巨噬细胞的典型形态特征;酸性磷酸酶、非特异性酯酶染色阳性率分别为(72.8±0.5)%和(84.6±0.4)%,显示其具备单核巨噬细胞酶化学特性;贴壁细胞表达单核巨噬细胞特异性表面抗原MHC Ⅱ;墨汁的吞噬率为(87.5±0.6)%,表明该细胞具有单核巨噬细胞的吞噬功能。结果表明贴壁法分离,5% BSA的DMEM培养水牛外周血单核巨噬细胞,培养72 h贴壁细胞具备单核巨噬细胞特征,在细胞数量相对稳定期(72、96、120 h)可以进行相应的试验研究。 相似文献
20.
The use of peanut agglutinin (PNA) as a reliable marker for bovine T lymphocytes as well as its in vitro lymphoblastogenic capacity were investigated and compared to those of concanavalin-A (ConA). The binding ability of fluorescein isothiocyanate conjugated PNA (FITC-PNA) and FITC-ConA to bovine leukocytes isolated from peripheral blood (PBL) as well as from the intraepithelium (IEL), lamina propria (LPL) and Peyer's patches (PPL) of the small intestinal mucosa of five normal adult cows (n = 5) was analyzed using laser flow cytometry (LFC) and fluorescence microscopy. Monoclonal antibodies (mAb) specific for bovine T cells (B26A), B cells (PIg45A), "null" cells (B7A1) and monocytes/granulocytes (DH59B) were employed to determine the phenotype of the cell lineage(s) expressing PNA surface receptor(s). There were no significant variations (P greater than 0.1) in the proportion of PNA-binding cells in PBL (76%), PPL (77%), IEL (79%) and LPL (81%) even though there were significant differences between the percentages of B26A+ T cells in IEL (26%) and LPL (38%) (P less than 0.001) and in PPL (44%) and PBL (57%) (P less than 0.01). These studies clearly indicate that cells other than T cells bind PNA. Although the proportions of PNA-binding cells in enriched PP-B cells (30%) and enriched PP-plastic adherent cells (44%) were significantly lower (P less than 0.001) than those in enriched PP-T cells (95%), the results indicated that a reasonable number of non-T cells can specifically bind FITC-PNA. Additional support was obtained by similar results observed with the equivalent cell subsets from PBL. Using in vitro lymphoblastogenesis, the PNA stimulating capacity significantly varied between the various cell populations (P less than 0.001 between IEL and PBL; and P less than 0.02 between PPL and PBL). In addition, marked differences were observed between the binding ability and stimulating capacity of PNA on each leukocyte population (P less than 0.01 in PBL to P less than 0.001 in IEL). Concanavalin A which bound to approximately 100% of each cell population, revealed significant variation in its mitogenic activity between IEL and PBL (P less than 0.001) but not between LPL and PPL (P greater than 0.1). The finding that PNA can bind to bovine T cells as well as to some B cells, monocytes/macrophages and possibly some granulocytes and "null" cells disputes its reliability as a specific bovine T cell marker. Furthermore, the binding abilities of PNA and ConA to bovine leukocytes are not necessarily correlated to their in vitro mitogenic capacities. 相似文献