Detection and Assay of Avian Tumor Virus Group-Specific Antigen and Antibody by the Paired Radioiodine-Labeled Antibody Technique

The paired radioiodine-labeled antibody technique (PRILAT) was applied to the detection and quantitation of avian tumor virus group-specific (gs) antigens and antibody. The technique proved to be specific, repeatable, and appreciably more sensitive than the microcomplement-fixation test for avian leukosis (COFAL). The PRILAT facilitated direct measurement of comparative antigen content of several types of transformed, neoplastic, or virus-infected cells and the magnitude of nonspecific antibody binding by appropriate control cells. The versatility of the technique was illustrated by application to the detection and quantitation of gs antibody content of chicken, turkey, pigeon, and hamster sera. Antibodies were detected in COFAL-negative sera from hamsters bearing tumors induced by the Schmidt-Ruppin strain of Rous sarcoma virus. Sera from chickens bearing similar tumors were not positive for gs antibodies, although sera from turkeys and chickens immunized with avian leukosis virus did contain gs antibodies.     

Multiple Group-specific Antigen Components of Avian Tumor Viruses Detected with Chicken and Hamster Sera

Multiple group-specific (gs) components of the avian leukosis-sarcoma viruses were detected by immunodiffusion (Ouchterlony) tests with sera from hamsters bearing tumors induced by sarcoma viruses and with sera from adult chickens immunized with avian sarcoma or leukosis viruses. Immune hamster sera detected up to four components, whereas chicken sera detected at least one. The hamster and chicken sera identified a similar antigen, as indicated by reactions of identity. Relatively few chicken sera containing neutralizing antibody to avian sarcoma or leukosis viruses reacted in immunodiffusion with the gs antigen. The gs components were released from the virion by various means of disruption, including freezing and thawing. Tests with tissues from normal chickens and from chickens with Marek's disease failed to demonstrate any reactions with hamster or chicken gs antiserum.     

Demonstration of a tumor-associated surface antigen in Marek's disease.

Surface antigenic markers were detected on three classes of Marek's disease (MD) tumor cells, i.e., MD lymphoma cells, cultured cells of the MSB-1 lymphoblastoid cell line, and JMV lymphoblastic leukemia cells, by indirect membrane immunofluorescent staining with serum from chickens immunized with JMV cells or from rabbits immunized with MSB-1 cells. This surface antigen was not detected on normal chicken lymphocytes, RPL-16 tumor cells (tranedormed by an avian RNA virus, or MD virus-infected fibroblasts that were positive for viral membrane antigen (MA). Furthermore, the surface antigen appeared unrelated to embryonic or histocompatibility antigens. This antigen is provisionally designated as a Marek's disease tumor-associated surface antigen (MATSA). The MATSA's on JMV, MSB-1 and MD lymphoma cells were related but not identical as demonstrated by antiserum titration, absorption and blocking tests with homologous and heterologous systems.     

Delayed maturation of the antibody response to type 2 thymus-independent antigens in a partially inbred strain of chicken

The ontogeny of antibody responses to trinitrophenylated (TNP) thymus-independent (TI) antigens was compared in two partially inbred strains of chicken: the SC strain (B2/B2 genotype) and the FP strain (B15/B22 genotype). In the SC chicken, maturation of both the splenic anti-TNP plaque-forming cell (PFC) response and the 19S hemagglutinating antibody response to TI type 2 (TI-2) antigens, TNP-Ficoll and TNP-dextran, were delayed to a significantly later time in ontogeny (20 wk of age) than in the FP chickens (9 wk of age). Four- to 6-wk-old SC chickens were virtually immunologically unresponsive to stimulation with TI-2 antigens. The TI-1 antigen TNP-Brucella abortus was equally immunogenic in both FP and SC chickens of different age groups tested. Kinetic studies of the primary PFC response to TNP-Ficoll in immunologically mature chickens of the SC and FP strains demonstrated a peak PFC response 4 days after antigen injection, followed by a rapid decline in numbers of splenic PFC/spleen on day 6. The results of these studies are discussed in relation to earlier observations that suggested there may be a delay or a defect in the ontogeny of the thymus in the SC chicken.     

Chicken developmental antigens: analysis of erythroid populations with monoclonal antibodies

Fusions were performed between the mouse PAI myeloma cell line and spleen cells from Balb/c mice immunized with intact erythrocytes from 1-day Cornell K-strain White Leghorn chickens. Following single cell cloning, four hybridoma clones were found to secrete erythroid specific monoclonal antibodies. Based on its pattern of reactivity, the antibody (IgG2a, kappa) secreted by clone 10C6 detects a specific avian oncodevelopmental antigen associated with the hematopoietic system: chicken fetal antigen (CFA). Two other clones, designated as 3F12 and 4C2, produced antibodies (IgM, kappa) that recognize another avian developmental antigen: chicken adult antigen (CAA). A fourth clone, 9F9, produced an antibody (IgM, kappa) that reacts with all peripheral erythrocytes from both Japanese quail and chicken regardless of age. Clone 10C6 antibody apparently detects an erythrocyte specific (ES) determinant of CFA associated with determinant #8 while antibodies of clones 3F12 and 4C2 recognize a chicken specific determinant of CAA. Analysis by complement mediated microcytotoxicity indicated that the epitopes detected by 10C6 vs 3F12 and 4C2 antibodies were expressed on erythrocytes in a reciprocal fashion during development. Furthermore, strain variations in the incidence of erythrocytes carrying these epitopes were observed. The usefulness of these monoclonal antibodies for the study of erythroid populations is discussed.     

Relationship between the expression of class I antigen and reactivity of chicken thymocytes

The expression of major histocompatibility complex (MHC) class I antigens in ontogenesis and the distribution of B-F⁺ cells, defined by means of a monoclonal antibody, were studied by indirect membrane immunofluorescence tests on suspensions of thymus, bursa, spleen, peripheral blood lymphocytes (PBL) and red blood cells (RBC) from 18-day-old chicken embryos and chickens from 1–90 days after hatching. At 18 days of incubation and at the first day after hatching, RBC, PBL, and the cells from bursa and thymus are negative. The percentage of positive PBL and bursal cells increases up to 9 days after hatching. By 2 weeks after hatching almost 100 % of the RBC, PBL, bursa, and spleen cells were positive whereas the thymus showed only 20% positive cells. Analysis on 4-m-thick, frozen acetone-fixed tissue sections of thymus showed that medullary cells are positive, while the cortical area is negative. The graft-versus-host (GvH) competence of these thymus subpopulations was compared after sorting by the fluorescence-activated cell sorter and injection into MHC incompatible embryos. GvH reactivity was associated primarily with the B-F⁺ population. Double staining studies with peanut agglutinin (PNA)-fluorescein isothiocyanate and a rabbit-anti-Ig tetramethyl isothiocyanate-conjugate proved that the PNA^– thymocytes are identical with B-F⁺ thymocytes.Abbreviations used in this paper: FACS fluorescence-activated cell sorter - FCS fetal calf serum - FITC-Ig fluorescein isothiocyanate-conjugated immunoglobulin - GvH graft-versus-host - HAT hypoxanthineaminopterin-thymidine - HBSS Hanks' balanced salt solution - IIF indirect immunofluorescence - MCA monoclonal antibody - MHC major histocompatibility complex - NWL normal white Leghorn - OS Obese strain - PBL peripheral blood lymphocytes - PBS phosphate-buffered saline - PNA peanut agglutinin - RBC red blood cells - TRITC-Ig tetramethyl isothiocyanate-conjugated immunoglobulin     

Evaluation of the ESPLINE INFLUENZA A&B-N Kit for the diagnosis of avian and swine influenza

The ESPLINE INFLUENZA A&B-N kit was evaluated for its applicability to the rapid diagnosis of influenza in chickens and pigs. The kit specifically detected viral antigens in tracheal swabs and tissue homogenates of the trachea, liver, spleen, and colon of chickens inoculated with a highly pathogenic avian influenza virus strain, A/chicken/Yamaguchi/7/04 (H5N1), at 48 hr post-inoculation (p.i.) as well as in the tracheal and cloacal swabs and tissue homogenates of dead chickens. For those infected with a low pathogenic strain, A/chicken/aq-Y-55/01 (H9N2), antigens were detected only in the samples from tracheal swabs and organs 1-4 days p.i. The kit also detected viral antigens in the nasal swabs of miniature pigs infected with swine and avian influenza viruses. The kit was found to be sensitive and specific enough for the rapid diagnosis of infections of influenza A virus in chickens and pigs.     

CS3菌毛抗原和霍乱毒素B亚基在人伤寒菌中的表达

通过体内外重组的方法,构建了人伤寒菌流行株Ｔｙ２的△ａｒｏＡ,△ａｒｏＣ和ａｓｄ＾－基因缺失突变体（ＲＳ４１７）作为抗原载体菌：同时,构建包含ａｓｄ基因的表达质粒ｐＹＸ１０２,与ＲＳ４１７一起,构成宿主－载全平衡致死系统,用于在没有抗生素条件选择的情况下,稳定表达克隆在表达质粒上的外源抗原基因,将肠毒素性大肠杆菌的菌毛抗原ＩＩＩ（ＣＳ３）基因和霍乱弧菌毒素Ｂ亚基（ＣＴＢ）基因分别克隆至ｐＹＸ１０２     

The expression of theta-like antigen by rat peripheral lymphocytes: serologic and functional studies.

AKR/Cum mice (Thy-1b = thetaC3H) immunized with nucleated cells from WF rat thymus, Peyer's patches, peritoneal exudate, mesenteric lymph nodes, blood, bone marrow, or spleen produced antibodies cytotoxic for ADR/J (Thy-1a = thetaAKR) but not for AKR/Cum thymocytes. The specificity of these antibodies for the Thy-1.1 (theta-AKR) antigen was confirmed by tests using thymocytes from backcross mice segregating at the Thy-1 locus. This result suggested that the rat lymphocyte antgen cross-reactive with Thy-1.1 was expressed by at least some members of each of the rat lymphoid cell populations tested. AKR/Cum mice immunized with killed rat cells also produced anti-Thy-1.1 antibodies; thus indicating that further differentiation of the injected cells was not a prerequisite for the anti-Thy-1.1 response. Unexpectedly, about 9% of unimmunized adult AKR/Cum males were found to be producing antibodies against Thy-1.1. To our knowledge, natural antibodies of this specificity have not been previously reported. Finally, it was found that peritoneal exudate cells taken from WF rats previously immunized with EL-4 mouse leukemia cells were neither killed nor functionally inactivated by treatment with anti-Thy-1.1 antibodies and complement.     

Isolation of monoclonal antibodies reactive with Marek's disease tumor-associated surface antigen (MATSA)

Two hybridoma clones producing monoclonal antibodies were obtained from mice immunized with the Marek's disease (MD)-lymphoblastoid cell line MSB1. These monoclonal antibodies reacted with the surface of MD-lymphoblastoid cell lines at higher titers than with avian lymphoid leukosis cell lines or with normal chicken thymus, bursa or peripheral blood lymphocytes. The serological specificity of these monoclonal antibodies seemed to correspond with that of rabbit antiserum reactive with MD tumor-associated surface antigen (MATSA).     

Materno-embryonally transferred antibodies precipitate autoimmune thyroiditis in obese strain (OS) chickens

In Obese strain (OS) chickens the role of maternal antibodies, passively transferred through the egg to the developing chick, was evaluated as a causative factor in the early development of spontaneous autoimmune thyroiditis (SAT). In the egg, passive antibody titers were highest in the yolk and lower in the allantoic fluid and sera of developing embryos. This passage of antibodies was documented by use of radiolabeled antibodies. In dams with high antibody titers, antibodies could be found in the sera of chicks at the time of hatch. Thyroglobulin was absent in the yolk of OS eggs during embryonal life, as compared with its detection in normal eggs. Immune complexes (thyroglobulin-autoantibody) detected in the thyroids of OS, but not CS, chicks at the time of hatch, or earlier, appear to reflect the presence of the maternally transferred antibodies. A pair of crosses between OS chickens, with thyroiditis, and the C strain (CS), without thyroiditis, was made to evaluate the role of transferred antibodies in the pathogenesis of autoimmune disease. When an OS chicken was the dam, maternal antibodies could be passively transferred; when a CS chicken was the dam, no maternal antibodies were present to be transferred. Nevertheless, both hybrids developed full-blown thyroiditis, demonstrating that binding of transferred maternal antibody to thyroglobulin is not a prerequisite for the induction of SAT. However, presence of maternal antibodies precipitated the onset of disease. Immune complexes formed in the embryonic thyroid are likely to participate in early autoimmune disease, although the development of full-blown thyroiditis may await the competency of the chick's immune system to provide the characteristic cellular infiltrate.     

Identification of B-L antigens on reticular epithelial cells of the bursa of Fabricius

We have established two monoclonal antibodies against B-L antigens (chicken Ia-like antigens). The specificity of the antibodies for B-L antigens was determined by two criteria, the cellular expression and the molecular structure of antigens with which they reacted. They reacted with antigens expressed on bursacytes, Con A-blast thymocytes, macrophages, and MDCC MSB1, but not with thymocytes and erythrocytes. In molecular basis, they recognized 64,000 dalton glycoprotein consisting of two polypeptides, 35,000 and 32,000 dalton, which bound non-covalently. To investigate the distribution of B-L antigens on non-lymphoid cells of the bursa of Fabricius, which were thought to play important roles in the differentiation of B cells, anti-B-L antigen and anti-chicken immunoglobulin (Ig) monoclonal antibodies were used. B-L antigen-positive cells were detected in both cortical and medullary areas, whereas Ig-positive lymphoid cells were confined to the medullary areas of normal chicken bursal follicles. In the bursal follicles of cyclophosphamide (CY)-treated chickens, lymphoid cells were depleted but epithelial cells remained intact. And B-L antigen-positive but Ig-negative cells were easily detected in the medullary areas of almost all follicles. These cells were identified to be reticular epithelial cells (REp cells) from the result of their keratin expression.     

Chemical and immunological characterization of developmentally expressed chicken erythroid surface membrane antigens

The expression of two hematopoietic-lymphoid membrane antigens, referred to as chicken fetal antigen (CFA) and chicken adult antigen (CAA) were investigated on primitive and definitive peripheral red blood cells (RBC) from different-aged chickens using chemical and immunological techniques. Differential adsorptions of antisera specific for adult RBC membrane antigens permitted the serological dissection of CAA into eight antigenic determinants. CFA and CAA were assayed by hemagglutination, hemolysis, and immune precipitation of radioiodinated surface antigens of RBC from different-aged chickens. Primitive RBC express CFA, while definitive RBC express three distinct phenotypes: CFA, both CFA and CAA, or CAA, depending on the developmental age of the chicken from which the RBC were obtained. When solubilized membrane extracts of radioiodinated peripheral RBC from chickens at 5 and 18 days embryonic development (E5 and E18, respectively), 13 days posthatch development (H13), and adult chickens were immunoprecipitated and analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), the major antigen detected by anti-CFA sera was associated with proteins having apparent molecular weights (M_r) of 50,000 daltons (50 kd). The antigens detected by anti-CAA sera were associated with proteins having apparent M_r of 102, 81, 48, and 43 kd.     

抗禽流感病毒多表位DNA疫苗的构建及其免疫效力研究

多表位DNA疫苗是建立在常规DNA疫苗基础上的一种新型疫苗。它是用表位作免疫原,这样就比较容易在一个表达载体上克隆病原体的多个抗原基因中具有免疫活性的部分。本试验以H5N1亚型禽流感病毒的HA和NP基因及其表位为基础构建了4个重组质粒：1 pIRES/HA（表达全长的HA基因）;2 pIRES/tHA（只表达HA基因的主要抗原表位区）;3 pIRES/tHANpep（融合表达HA基因的抗原表位区和NP基因的3个CTL表位）;4 pIRES/tHANpep-IFN-γ（用鸡的IFN-γ基因取代质粒pIRES/tHANpep中的neo基因）。分别用这4个重组质粒和空载体质粒pIRES1neo肌注免疫30日龄SPF鸡。免疫3次,间隔为2周,每次每只鸡的剂量为200μg。第3次免疫后两周以高致病性禽流感病毒H5N1强毒攻击,免疫及攻毒前后均采血检测HI抗体效价和外周血CD4⁺、CD8⁺T细胞的变化。结果发现,攻毒前各质粒免疫组均检测不到HI抗体,攻毒后1周存活鸡HI抗体效价迅速升高到64～256。流式细胞仪检测显示外周血CD4⁺、CD8⁺T细胞在疫苗免疫后都有不同程度的升高。空载体质粒对照组鸡（10只）在攻毒后3～8 d内全部死亡,其他各重组质粒免疫组鸡都获得了部分保护,保护率分别是：pIRES/HA组为545%（6/11）,pIRES/tHA组为30%（3/10）,pIRES/tHANPep组为36.3%（4/11）, pIRES/tHANPepIFNγ组为50%（5/10）。这些结果表明我们构建的多表位DNA疫苗能够诱导机体产生特异性免疫应答,并在同型禽流感强毒攻击时对鸡只提供了一定的保护。     

Intrathymic T cell repertoire after prenatal trinitrobenzene-sulfonic acid-treatment

It is still a matter of debate, whether tolerance toward self-non-MHC antigens is due to intrathymic deletion or to regulatory processes in the periphery. To further pursue this question, responsiveness toward TNP and an anti-TNP monoclonal antibody (Sp6) carrying a recurrent idiotype was evaluated in prenatally trinitrobenzenesulfonic acid (TNBS)-treated mice. In prenatally untreated as well as in TNBS-treated mice, thymocytes proliferating in the absence of nominal antigen were double negative (L3T4-/Lyt2-), but antigen-specific thymocytes were single positive (L3T4+/Lyt2- or L3T4-/Lyt2+). TNBS-treated mice differed from controls inasmuch as in their first week of life T cells proliferating in response to TNP were found in the thymus and detected at increased frequencies in the spleen. The frequency of TNP-specific thymocytes and spleen cells declined rapidly, finally reaching in the spleen a level of 20-30% of controls. Furthermore, after antigenic stimulation, the frequency of thymocytes and spleen cells proliferating in response to TNP was found to be increased in control mice, but TNP-specific T cell were no more recovered in the thymus or the spleen of tolerized mice. The same accounted for thymic and splenic T cells proliferating in response to Sp6. They were expanded in control mice after antigenic stimulation, but were undetectable in TNBS-treated mice. Thus, T cells with specificity for an internal (Sp6) and an external (TNP) antigen, provided the latter was present during ontogeny, were detected in the thymus of control and, transiently, in the thymus of tolerized mice. But, the fate of antigen-specific thymocytes was different in prenatally untreated and TNBS-treated mice. The data are interpreted in the sense that tolerance toward non-MHC antigens may be acquired subsequently to tolerance toward self-MHC antigens and possibly after imprinting of antigen specificity.     

The presence of immunoregulatory cells in chicken thymus: function in B and T cell responses.

The presence of immunoregulatory cells in chicken thymus was studied by using several different systems. Chickens injected with large numbers of syngeneic thymocytes were tested for their ability to produce antibody to heterologous red cells. Similar chickens were studied for their ability to reject allogeneic skin grafts. In separate studies, mixtures of thymocytes with spleen cells or with peripheral blood leukocytes were assayed for their ability to respond to PHA or to produce a graft-vs-host reaction in embryonic chicks. These studies indicated that immunoregulatory cells exist in chicken thymus, which displays both helper and suppressor activity. The suppressor cells were more prevalent or more easily detectable in young birds and in chickens with intact bursas. The helper function of thymocytes was seen to better advantage with cells derived from older animals and from bursectomized donors.     

Normal thymic cortical epithelial cells developmentally regulate the expression of a B-lineage transformation-associated antigen

Nonlymphoid, stromal cells in the mouse thymus are believed to be important in T cell maturation and have been proposed to play a central role in the acquisition of major histocompatibility complex (MHC) restriction and self-tolerance by maturing thymocytes. Both cortical and medullary epithelial cells in the thymus express high levels of class II (A) major histocompatibility antigens (MHC Ags). We show here that a specific subset of these A^– epithelial cells express a transformation-associated antigen (6C3Ag) found previously on the surfaces of Abelson murine leukemia virus-transformed pre-B cells and on those bone marrow-derived stromal cell clones which support normal and preneoplastic pre-B cell proliferation. Among solid lymphoid organs, only the thymus contains 6C3Ag¹ cells and within the thymus, this antigen is found exclusively on A^– epithelial cells in cortical regions. It is striking that the expression of the 6C3Ag on thymic epithelium is developmentally regulated, suggesting a role for this lymphostromal antigen in the maturation of the thymic microenvironment.     

Expression of differentiation and age-related antigens on chicken erythroleukemia cells transformed by avian erythroblastosis virus (AEV)

Immature circulating chicken red cells express on their surface two antigenic molecules referred to as Im 48 kD and Im 140 kD antigens. The Im 140 kD antigen is not present beyond the erythroblast stage while the expression of Im 48 kD antigenic molecule remains detectable on circulating erythrocytes of embryos and young chickens, but not on erythrocytes of adult animals. In addition to Im 48 kD and Im 140 kD antigens, the avian erythroblastosis virus (AEV)-transformed erythroid cells express two novel high molecular weight (MW) immature antigens referred to as Im 150 kD and Im 160 kD. Since the transformed erythroid cells are apparently blocked at a stage close to the colony-forming units erythrocytic (CFU-E), these molecules might be expressed on these progenitor cells. The age-related antigenic molecules referred to as E1 48 kD and A 40 kD/A 85 kD antigens are detected on erythrocytes of embryos (and young chickens) and adult animals respectively. The E1 48 kD antigen as well as an antigen related to the A 40 kD were also detected on AEV-transformed erythroid cells deriving from both young chicken bone marrow and yolk sac. The presence of an adult antigen on the embryonic cells might well be related to the transformation by AEV, since the yolk sac CFU-E progenitor cells do not bear the adult antigenicity.     

Thymic development in surgically bursectomized embryonic chicken: expression of PCNA, CD3, CD4 and CD8 markers

Little information is available on the functional relationship between bursa and thymus during chicken embryogenesis. We, therefore, investigated embryonic thymuses taken at 17 days in ovo from chickens bursectomized at 68-72 hours, with histological, histochemical (PAS, Alcian blue), and immunoreaction (anti-cytokeratin B, anti-PCNA/cyclin and anti-CD3, CD4 and CD8 antibodies) methods and compared these data with those from normal and sham-operated chickens of the same age. The bursectomized thymuses distinctly differed from normal and sham-operated thymuses: they were smaller, and the cortical zone was thinner and contained fewer epithelial cells and thymocytes. Only few cortical thymocytes were immunoreactive for PCNA, indicating low proliferative rate. More cortical thymocytes as compared with the normal, expressed CD3 on their cell membrane, whereas the thymocytes at the cortical-medullary border expressing anti- CD4 and anti-CD8 antidodies were less numerous than in normal thymus. The medullary zone contained few epithelial clusters made up of fewer cells than medullary clusters in normal chickens. Some cystic formations were enlarged and contained PAS- or Alcian-blue positive amorphous material. All these data suggest that early bursectomy affects both morphological and functional thymic development.     

Development of an immunochromatographic kit for rapid diagnosis of H5 avian influenza virus infection

Highly pathogenic avian influenza (HPAI) caused by the H5N1 subtype has given rise to serious damage in poultry industries in Asia. The virus has expanded its geographical range to Europe and Africa, posing a great risk to human health as well. For the control of avian influenza, a rapid diagnosis by detecting the causative virus and identifying its subtype is essential. In the present study, a rapid diagnosis kit combining immunochromatography with enzyme immunoassay which detects the H5 HA antigen of influenza A virus was developed using newly established anti-H5 HA monoclonal antibodies. The present kit specifically detected all of the H5 influenza viruses tested, and did not react with the other HA subtypes. H5 HA antigens were detected from swabs and tissue homogenates of chickens infected with HPAI virus strain A/chicken/Yamaguchi/7/04 (H5N1) from 2 days post inoculation. The kit showed enough sensitivity and specificity for the rapid diagnosis of HPAI.