Autoantibodies recognizing proteins copurified with PCNA in patients with connective tissue diseases

Objective. Proliferating cell nuclear antigen (PCNA), one of the target antigen recognized by lupus sera, has been reported to be present as a subnuclear multi-peptide complex. But autoantibodies reacting with components of PCNA complex are poorly understood. To study the specificity of those autoantibodies, immunoreactivities of autoimmune sera against purified PCNA antigen were studied. Methods. PCNA antigens were purified from rabbit thymus extract by affinity column using murine monoclonal antibodies (mAbs) to PCNA, TOB7, TO17 and TO30. Immunoreactivities of autoimmune sera against purified PCNA were analyzed by WB. Results. PCNA antigen purified by serum AK predominantly showed a 34 kD band specific for PCNA in SDS-PAGE. When antigens were purified by anti-PCNA mAb TOB7 and TO30 which are known to be targeting different epitopes on PCNA antigen, SDS-PAGE analysis showed various mol. wt of proteins in addition to the 34 kD PCNA while both AK and mAbs reacted only with 34 kD PCNA in WB. In WB using PCNA purified by TOB7, various immunoreactivities were observed at 150, 66, 58, 48, 45, 37, 32 and 16 kDa in sera from patients with connective tissue diseases. Conclusions. These results suggested that many of the proteins copurified with PCNA were also targets of autoimmune responses and these autoantibody experssion may be induced through antigen-driven mechanisms.Abbreviations mAb monoclonal antibody - PCNA proliferating cell nuclear antigen - PCNA/AK PCNA affinity purified by antibodies from patient serum AK - PCNA/TO30 PCNA purfied by mAb TO30 - PCNA/TOB7 PCNA purified by mAb TOB7 - SLE systemic lupus erythematosus     

Monoclonal antibodies to a nuclear protein (PCNA/cyclin) associated with DNA replication

Two hybridomas producing monoclonal antibodies to proliferating cell nuclear antigen. (PNCA)/cyclin were generated from spleen cells of BALB/c mice immunized with purified PCNA from rabbit thymus. The specificity of the monoclonal antibodies (19A2 and 19F4) was established by showing that they reacted in enzyme-linked immunosorbent assay (ELISA) with purified PCNA. Furthermore, they reacted in one-dimensional (ID) gel immunoblots with a 36 kD polypeptide which also reacted with human autoantibodies from lupus patients. Both monoclonals also recognized the nuclear polypeptide cyclin in two-dimensional (2D) gel immunoblots of HeLa cell proteins. Epitopes recognized by 19A2 and 19F4 were analysed by competitive inhibition test using a modified ELISA. The data suggested that the epitopes were closely related, but not identical. The data with human auto-antibodies were more difficult to interpret, although it suggested that some human anti-PCNA may share epitopes with 19A2 and 19F4, but in addition recognize different epitopes on the PCNA molecule.     

Identification of an autoantibody against the proliferating cell nuclear antigen from a patient with systemic lupus erythematosus

Antibodies against the proliferating cell nuclear antigen (PCNA) was first discovered in the sera of systemic lupus erythematosus (SLE) patients. However, the reactivity and specificity of anti-PCNA autoantibodies are still unclear. To investigate the property of anti-PCNA autoantibodies, we conducted an ELISA screening of the anti-PCNA autoantibodies in sera of SLE patients. Eighteen out of 191 SLE sera were found to be positive for anti-PCNA antibodies giving a frequency of nearly 10%. Among the positive sera, a sample with the highest titer of anti-PCNA autoantibody preferentially recognizes the wild-type PCNA as compared to the Y114A mutation which contains a single amino acid substitution at 114 and fails to form the toroidal structure. Moreover, the autoantibody purified from this serum identifies only the free PCNA in crude mammalian cell extracts but not other associated cellular components. This finding raises a possibility that immunostaining with the human anti-PCNA autoantibodies in previous studies might have only partially PCNAs in tissues.     

Reactivity of anti-proliferating cell nuclear antigen (PCNA) murine monoclonal antibodies and human autoantibodies to the PCNA multiprotein complexes involved in cell proliferation

Proliferating cell nuclear Ag (PCNA) occurs as a component of multiprotein complexes during cell proliferation. We found the complexes to react with murine anti-PCNA mAbs, but not with anti-PCNA Abs in lupus sera. The complexes were purified from rabbit thymus extract by affinity chromatography using anti-PCNA mAbs (TOB7, TO17, and TO30) and analyzed by ELISA, immunoprecipitation, immunoblotting, and HPLC gel filtration. That PCNA was complexed with other proteins was demonstrated by its copurification with a group of proteins excluded by an HPLC G3000 SW column. Although immunoblot analysis showed the mAbs to react exclusively with the 34-kDa PCNA polypeptide, they nonetheless immunoprecipitated the same group of proteins, confirming the interaction of the isolated PCNA with other proteins. Anti-PCNA sera, including AK, which reacts with biologically functional sites on PCNA, did not react with complexed PCNA, but did react with it once it was dissociated from the complexes. PCNA complexes in turn reacted with murine anti-DNA mAbs, as well as with Abs against p21, replication protein A, DNA helicase II, cyclin-dependent kinases 4 and 5, and topoisomerase I. These findings suggest that the PCNA complexes purified using anti-PCNA mAbs comprise the "protein machinery" for DNA replication and cell cycle regulation. They also suggest that anti-PCNA mAbs are useful tools with which to characterize the protein-protein interactions within PCNA complexes, as well as the autoimmune responses to proteins interacting with PCNA, which may shed light on the mechanisms of autoantibody production in lupus patients.     

Immunochemical and biochemical analysis of the proliferating cell nuclear antigen (PCNA) in HeLa cells

PCNA, also known a cyclin, a protein of molecular weight (MW) 35 000, accumulates in the nuclei of dividing and transformed cells and reacts with autoantibodies from certain lupus patients. Using an indirect immunofluorescence technique, we show that lupus sera containing anti-PCNA antibodies reveal a heterogeneous nuclear fluorescence pattern upon reaction with asynchronous HeLa cells, whereas with synchronized cells a sequence of distinct patterns is disclosed on progression through the cell cycle. Cell-free translation of HeLa cell mRNA followed by immunoprecipitation with anti-PCNA sera shows a single protein with the same apparent MW as PCNA labelled in vivo, suggesting that PCNA is not derived from a larger precursor protein and not grossly modified by post-translational events. However, a group of at least nine nuclear polypeptides ranging in MW from about 12 000 to 110 000 are recognized by immunoblotting with anti-PCNA sera, indicating either that additional antigenic sites are produced on denaturation of native proteins or that additional autoantibodies are present in these sera. We also show that PCNA and several of these polypeptides are associated with nuclear structures containing chromatin.     

Autoantibody to the proliferating cell nuclear antigen neutralizes the activity of the auxiliary protein for DNA polymerase delta.

Two murine monoclonal antibodies to the proliferating cell nuclear antigen (PCNA), a rabbit anti-N-terminal peptide antibody and human auto-antibody to PCNA reacted with the auxiliary protein for DNA polymerase delta from fetal calf thymus following SDS-polyacrylamide gel electrophoresis, confirming the identity of PCNA and the auxiliary protein. Undenatured auxiliary protein was immunoprecipitated by the human autoantibody, but not by the monoclonal antibodies, which were raised to SDS-denatured PCNA, nor by the anti-N-terminal peptide antibody, suggesting that the epitopes recognized by both the monoclonal antibodies and the anti-peptide antibody are not exposed in the native protein. The human anti-PCNA autoantibody neutralized the activity of the auxiliary protein for DNA polymerase delta, but did not inhibit the activity of pol delta itself. The ability of pol delta to utilize template/primers containing long stretches of single-stranded template was inhibited by the anti-PCNA autoantibody, whereas the activity of pol alpha on such templates was not affected, confirming the specificity of the auxiliary protein for pol delta. The ability of PCNA, a cell cycle-regulated protein, to regulate the activity of pol delta suggests a central role for pol delta in cellular DNA replication.     

Analysis of proliferative activity in colorectal mucosa by immunohistochemical detection of proliferating cell nuclear antigen (PCNA)

Immunohistochemical detection of proliferating cell nuclear antigen (PCNA) has been suggested as a new approach for determinating proliferative activity in paraffin-embedded tissue. In a prospective study PCNA immunostaining was performed in 284 colorectal biopsies using monoclonal antibodies 19F4 (Ogata et al. 1987) and PC10 (Waseem and Lane 1990) and compared with the Ki67 method. From each site three biopsies were taken and a variety of fixation regimens for frozen and paraffin-embedded samples tested. For frozen biopsies methanol fixation at −20° C proved best. In paraffin sections PCNA could be detected after methacarn fixation as well as after controled fixation at 4° C in 4% paraformaldehyde for 1 h and in most biopsies routinely fixed with 10% formalin. However, the latter fixation regimens revealed additional PCNA-positive cells in the normal superficial colonic mucosal epithelium. Although the percentage of cells positive for PCNA was generally lower than for Ki67, the rates correlated in a highly significant fashion, both in frozen methanolfixed biopsies, and in paraformaldehyde-fixed paraffinembedded samples. PCNA immunohistochemistry revealed a similar proliferative activity in different parts of the large bowel. A higher proliferative activity was found in inflamed mucosa, adenomas, carcinomas and even in normal mucosa from patients with colorectal neoplasms. In routinely fixed biopies, the monoclonal antibody PC10 was superior to 19F4 because of considerably less background staining. However, in the routine material only a rough estimate of the proliferative activity was possible by PCNA immunohistochemistry using these antibodies, because unpredictable numbers of non-S-phase cells were also stained. Thus, it was concluded that reliable results are only obtainable after careful control of the fixation conditions. Taking this reservation into account, PCNA immunohistochemistry still represents a convenient method for measurements of proliferative activity in paraffin-embedded colorectal mucosa and can be applied using methanol-containing fixatives as well as after 4% paraformaldehyde fixation. Supported by a grant of the Werner and Klara Kreitz-Stiftung, Kiel to J.D.     

Immunohistochemical localization of proliferating cell nuclear antigen (PCNA) in the pig ovary

The aim of the study was to determine the expression of proliferating cell nuclear antigen protein (PCNA) in the pig ovary. The localization of PCNA was demonstrated in paraffin sections of pig ovarian tissue using primary mouse monoclonal anti-PCNA antibody. In primordial follicles, no remarkable staining for PCNA either in granulosa cells or in the oocytes was observed. In primary to secondary follicles, positive staining in oocytes and in some granulosa cells was detected. The advanced preantral and particularly actively growing small to large antral follicles showed extensive PCNA labeling in the layers of granulosa and theca cells and in the cumulus cells encircling the oocyte. PCNA labeling was expressed in nuclei of oocytes in preantral and small antral follicles. In atretic follicles, the level of PCNA protein expression was dependent on the stage of atresia. Follicles demonstrating advanced atresia showed only limited or no PCNA labeled granulosa and theca cells. The results of the study demonstrate that follicular growth and development in pig ovary may be effectively monitored by determining the granulosa cell expression of PCNA.     

Epitopes on proliferating cell nuclear antigen recognized by human lupus autoantibody and murine monoclonal antibody

The immune epitopes of proliferating cell nuclear antigen (PCNA), also called cyclin, were analyzed by determining the reactivity between PCNA peptide fragments and anti-PCNA antibodies from lupus patients, murine monoclonal antibody (19A2), and rabbit anti-NH2-terminal peptide antibody. Limited digestion of PCNA/cyclin with Staphylococcus aureus V8 protease resulted in several peptide fragments. Five fragments of 30, 20, 15, 14, and 13 kDa were reactive with rabbit anti-NH2-terminal peptide antibody denoting that they contained the NH2-terminal peptide. The 30- and 20-kDa fragments reacted with 19A2 but the others did not. Lupus sera reacted with 17- and 15-kDa peptide fragments allowing their classification into three groups. Two of eight sera (type A) reacted only with the 17-kDa fragment. Two others (type B) reacted with both the 17- and 15-kDa fragments and the remaining four sera (type C) reacted only with the 15-kDa fragment. The sera reacting with the 15-kDa fragment also reacted with the 20-kDa fragment, but the sera reactive only with the 17-kDa fragment did not, indicating that the 17-kDa fragment was not a degradation product of 20-kDa fragments. The 19A2 epitope resided in the region between 15 and 20 kDa from the NH2 terminus, whereas there was at least one distinct epitope on each 15- and 17-kDa peptide, which were recognized by lupus autoantibodies.     

Immunoelectron microscopy of PCNA as an efficient marker for studying replication times and sites during pollen development

Here we report for the first time the ultrastructural localization of DNA replication sites in the nucleus of plant cells and the timing of replication through the pollen developmental programme by proliferating cell nuclear antigen (PCNA) immunogold labelling. Replication sites were identified by labelling with anti-PCNA antibodies in fibrils of the interchromatin region close to the condensed chromatin, defining a perichromatin subdomain in the interchromatin space where DNA replication takes place. The same nuclear structures are decorated by anti-BrdU (5-bromo-2'-deoxyuridine) immunogold after short pulses of BrdU labelling. Double immunogold labelling for PCNA and DNA show colocalization on these perichromatin structures. PCNA immunoelectron microscopy also allows correlation of replicative activity with the dynamics of chromatin condensation. DNA replication was also monitored at different phases during pollen development by PCNA immunoelectron microscopy, revealing two peaks of DNA synthesis, at the beginning (early tetrad), and the end (late vacuolate), of microspore interphase. High-resolution autoradiography after [3H]thymidine incorporation also showed high replicative activity at the same two periods of microspore interphase. In the bicellular pollen grain, PCNA immunogold labelling revealed that DNA replication in the generative cell starts at an intermediate stage of pollen maturation, whereas the vegetative nucleus does not replicate and is arrested in G1. The use of anti-PCNA antibodies at the ultrastructural level is an easier, faster and more feasible method than the detection of in vivo-incorporated nucleotides, especially in plant systems with long cell cycles. PCNA immunogold labelling is, therefore, proposed as an efficient marker for mapping the sites and timing of replication at the electron microscopy level.     

Purification and N-terminal amino acid sequence of proliferating cell nuclear antigen (PCNA)/cyclin and development of ELISA for anti-PCNA antibodies

Proliferating cell nuclear antigen (PCNA), also called cyclin, was purified from PBS extract of rabbit thymus by using a combination of ammonium sulfate fractionation, DEAE-Sephacel, HPLC ion exchange, and HPLC gel filtration column chromatography. PCNA was purified more than 600 times and was analyzed by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) and immunoblotting. SDS-PAGE showed that a 36 kD protein was selectively isolated in this purification process, and this protein was identified as PCNA by immunoblotting. Other previously identified nuclear antigens, Sm, nRNP, SS-A/Ro, SS-B/La, histone, and DNA, were not detected in this preparation by counterimmunoelectrophoresis and enzyme-linked immunosorbent assay (ELISA). Purified PCNA was used as an antigen to develop ELISA for rapid and specific detection of anti-PCNA in human sera. For further purification, the 36 kD band was electrophoretically eluted from SDS gel slices. The amino acid composition and the first 25 residues from the N-terminus of the protein were determined by using electroeluted PCNA. This amino acid sequence was found to be unique and showed little sequence homology with existent proteins in the protein identification resources databank.     

Analysis of proliferative activity in colorectal mucosa by immunohistochemical detection of proliferating cell nuclear antigen (PCNA). Methodological aspects and application to routine diagnostic material.

Immunohistochemical detection of proliferating cell nuclear antigen (PCNA) has been suggested as a new approach for determining proliferative activity in paraffin-embedded tissue. In a prospective study PCNA immunostaining was performed in 284 colorectal biopsies using monoclonal antibodies 19F4 (Ogata et al. 1987) and PC10 (Waseem and Lane 1990) and compared with the Ki67 method. From each site three biopsies were taken and a variety of fixation regimens for frozen and paraffin-embedded samples tested. For frozen biopsies methanol fixation at -20 degrees C proved best. In paraffin sections PCNA could be detected after methacarn fixation as well as after controled fixation at 4 degrees C in 4% paraformaldehyde for 1 h and in most biopsies routinely fixed with 10% formalin. However, the latter fixation regimens revealed additional PCNA-positive cells in the normal superficial colonic mucosal epithelium. Although the percentage of cells positive for PCNA was generally lower than for Ki67, the rates correlated in a highly significant fashion, both in frozen methanol-fixed biopsies, and in paraformaldehyde-fixed paraffin-embedded samples. PCNA immunohistochemistry revealed a similar proliferative activity in different parts of the large bowel. A higher proliferative activity was found in inflamed mucosa, adenomas, carcinomas and even in normal mucosa from patients with colorectal neoplasms. In routinely fixed biopsies, the monoclonal antibody PC10 was superior to 19F4 because of considerably less background staining. However, in the routine material only a rough estimate of the proliferative activity was possible by PCNA immunohistochemistry using these antibodies, because unpredictable numbers of non-S-phase cells were also stained.(ABSTRACT TRUNCATED AT 250 WORDS)     

EpCAM蛋白的表达、纯化及其单克隆抗体的制备

目的:原核表达EpCAM蛋白并制备抗EpCAM特异性单克隆抗体,初步鉴定相应单克隆抗体的特性。方法:PCR扩增EpCAM基因胞外区,将目的基因亚克隆至载体pET-28a(+),转化至大肠埃希菌株BL21,IPTG诱导表达,组氨酸亲和层析法纯化表达产物。纯化蛋白免疫BALB/c小鼠,将成功免疫的小鼠脾细胞与骨髓瘤SP2/0细胞融合,经ELISA筛选得到分泌特异性抗EpCAM的单克隆抗体的细胞株,免疫BALB/c小鼠进一步制备相应的单克隆抗体,并通过Western blot(蛋白质印记)和FACS(流式细胞分析)鉴定单抗的特异性及生物学活性。结果:成功构建重组表达载体pET28a-EpCAM并在大肠杆菌中获得表达,经His-tag亲和层析法获得纯化的EpCAM重组蛋白。EpCAM重组蛋白免疫的BALB/c小鼠的脾细胞与SP2/0细胞融合、筛选,获得两株稳定分泌EpCAM抗体的杂交瘤细胞株,分别命名为4B2、2F2并免疫BALB/c小鼠获得相应的单克隆抗体。Western blot结果显示4B2腹水纯化所得单抗能够识别FaDu细胞系(人咽鳞癌细胞)中的EpCAM蛋白,但2F2未能识别FaDu细胞中的变性的EpCAM蛋白。FACS结果显示两者均能和FaDu细胞中天然的EpCAM蛋白结合。讨论:成功制备了抗EpCAM的单克隆抗体,并能够识别人咽鳞癌细胞系FaDu中表达的EpCAM,为进一步研究EpCAM抗体在肿瘤治疗中的作用提供基础。     

Carbohydrate specificity of IgM autoantibodies to CD45 in Systemic Lupus Erythematosus

Patients with SLE develop IgM autoantibodies to different isoforms of CD45, the major surface membrane protein tyrosine phosphatase on lymphocytes and other nucleated hemopoietic cells. Because such autoantibodies could have a potential role in the development of immune dysfunction in this disorder, we performed a series of experiments to characterize their antigenic specificity further. Blots of recombinantE. coli fusion proteins encoded by exons 3–7 of the p220 and p180 isoforms were uniformly non-reactive with SLE IgM, suggesting that anti-CD45 autoantibodies in SLE are directed against conformational and/or carbohydrate epitopes, rather than linear polypeptide epitopes. This issue was examined further using chemically and enzymatically modified CD45 purified from T cells by lectin affinity chromatography as substrates. Treatment of CD45 with 25 mM sodium-m-periodate, sufficient to abrogate binding to various lectins, abolished the reactivity with SLE anti-CD45 autoantibodies. On the other hand, digestion of CD45 with neuraminidase enhanced the binding of anti-CD45 autoantibodies from some of the SLE sera. This result probably reflects decreased steric hindrance or charge repulsion because the binding of mouse monoclonal antibodies directed against linear polypeptide epitopes of CD45 was similarly enhanced. Digestion of CD45 with N-glycosidase F had no effect on autoantibody staining. Taken together, these data suggest that IgM anti-CD45 autoantibodies in SLE recognize non-sialylated carbohydrate determinants in the highly O-glycosylated polymorphic domains of CD45.Abbreviations SLE systemic lupus erythematosus - SBA soybean agglutinin - RCAI Ricinus communis agglutinin - SNL Sambucus nigra lectin - MBP maltose binding protein - mAb monoclonal antibody - WGA wheat germ agglutinin     

Immunohistochemical detection of PPARgamma receptors in the human pituitary adenomas: correlation with PCNA

The occurrence of peroxisome proliferator-activated receptors gamma (PPARgamma) was investigated in 51 human pituitary adenomas and in 6 non-tumoral human pituitary tissue samples. Moreover, the correlation between PPARgamma and the proliferating cells nuclear antigen (PCNA)--immunocytochemical proliferation marker was evaluated. The receptors and PCNA were detected by immunohistochemical methods using the polyclonal anti-PPARgamma and the monoclonal anti-PCNA antibodies, respectively. PPARgamma were found in all examined tissues. The mean percentage of cells with positive nuclear reaction was 3-fold higher in pituitary adenomas in comparison with non-tumoral pituitary tissues. The strongest expression of PPARgamma was observed in somatotropinomas. Besides the nuclear reaction, which is typical for PPARgamma, positive immunostaining was also observed in the cytoplasm. It was clearly stronger in pituitary adenomas than in non-tumoral pituitary tissues. A slight, statistically insignificant tendency towards negative correlation between PPARgamma and PCNA was found in somatotropinomas, prolactinomas, corticotropinomas and gonadotropinomas. On the other hand, in null cell adenomas and "silent" corticotropinomas, a strong positve correlation between the expression of PPARgamma and PCNA was observed. The strong expression of PPARgamma in human pituitary adenomas and its possible involvement in control of cell proliferation in these tumors give a good reason for the attempts of their treatment with PPARgamma ligands.     

Autoantigen microarrays reveal autoantibodies associated with proliferative nephritis and active disease in pediatric systemic lupus erythematosus

IntroductionPediatric systemic lupus erythematosus (pSLE) patients often initially present with more active and severe disease than adults, including a higher frequency of lupus nephritis. Specific autoantibodies, including anti-C1q, anti-DNA and anti-alpha-actinin, have been associated with kidney involvement in SLE, and DNA antibodies are capable of initiating early-stage lupus nephritis in severe combined immunodeficiency (SCID) mice. Over 100 different autoantibodies have been described in SLE patients, highlighting the need for comprehensive autoantibody profiling. Knowledge of the antibodies associated with pSLE and proliferative nephritis will increase the understanding of SLE pathogenesis, and may aid in monitoring patients for renal flare.MethodsWe used autoantigen microarrays composed of 140 recombinant or purified antigens to compare the serum autoantibody profiles of new-onset pSLE patients (n = 45) to healthy controls (n = 17). We also compared pSLE patients with biopsy-confirmed class III or IV proliferative nephritis (n = 23) and without significant renal involvement (n = 18). We performed ELISA with selected autoantigens to validate the microarray findings. We created a multiple logistic regression model, based on the ELISA and clinical information, to predict whether a patient had proliferative nephritis, and used a validation cohort (n = 23) and longitudinal samples (88 patient visits) to test its accuracy.ResultsFifty autoantibodies were at significantly higher levels in the sera of pSLE patients compared to healthy controls, including anti-B cell-activating factor (BAFF). High levels of anti-BAFF were associated with active disease. Thirteen serum autoantibodies were present at significantly higher levels in pSLE patients with proliferative nephritis than those without, and we confirmed five autoantigens (dsDNA, C1q, collagens IV and X and aggrecan) by ELISA. Our model, based on ELISA measurements and clinical variables, correctly identified patients with proliferative nephritis with 91 % accuracy.ConclusionsAutoantigen microarrays are an ideal platform for identifying autoantibodies associated with both pSLE and specific clinical manifestations of pSLE. Using multiple regression analysis to integrate autoantibody and clinical data permits accurate prediction of clinical manifestations with complex etiologies in pSLE.

Electronic supplementary material

The online version of this article (doi:10.1186/s13075-015-0682-6) contains supplementary material, which is available to authorized users.     

Characterization of mouse and human monoclonal antibodies cross-reactive with SLE serum antibodies to guanosine

Two new monoclonal antibodies, one a mouse IgM and the other a human IgM that reacted with guanosine, were compared to human serum antibodies from patients with systemic lupus erythematosus (SLE). The human monoclonal antibody was polyspecific in its binding to the nucleoside bases, whereas the mouse monoclonal antibody was relatively specific for guanosine when compared by using an enzyme-linked immunosorbent assay (ELISA). Neither antibody bound polyguanylic acid or denatured single-stranded (ss) DNA, however. Serum IgG antibodies from seven patients with SLE cross-reacted with the mouse monoclonal antibody and showed considerable specificity for guanosine. In contrast, the human serum IgG antiguanosine antibodies also bound ssDNA but not dsDNA or polyguanylic acid. Serum IgG antibodies to guanosine measured by ELISA from the seven SLE patients had a decreased response when compared to the total serum IgG response to ssDNA, and most of the antibodies that bound guanosine also bound ssDNA. These studies provide new evidence that there are specific IgG antibodies to guanosine in SLE sera that are a small fraction of the antibodies to ssDNA. Further efforts to define the role of these guanosine antibodies in SLE may provide a better understanding of the basic mechanisms responsible for the development of SLE in man.     

Production and some characteristics of monoclonal antibodies against beet necrotic yellow vein virus

Four rat monoclonal antibodies (MAbs) specific for beet necrotic yellow vein virus (BNYVV) were produced. In indirect ELISA, all four MAbs reacted strongly with BNYVV infected plant leaf extracts (19 isolates from eight countries) but they did not react with beet soil-borne virus (BSBV), an unnamed rod-shaped soil-borne beet virus isolate (86 - 109) from Sweden or barley stripe mosaic virus (BSMV). However, two of the MAbs, MAFF 6 and MAFF 7 did not detect BNYVV in ELISA of infected sugar beet roots whereas MAbs MAFF 8 and MAFF 9 did detect virus in root extracts. In electro-blot immunoassay (EBIA), MAFF 6 and MAFF 7 readily detected BNYVV coat protein from leaf extracts whereas MAFF 8 and MAFF 9 reacted only weakly. None of the MAbs reacted with BSBV, 86 - 109, BSMV or plum pox virus in EBIA. MAFF 6 coated BNYVV particles which were trapped from infected leaf or root sap on to electron microscope grids by polyclonal antibodies. MAFF 6 was partially purified from tissue culture supernatant fluid by cation exchange chromatography and the preparation used to coat microtitre plates and successfully trap BNYVV in ELISA of leaf sap extracts.     

Characterization of Mono- and Polyclonal Antibodies Against Highly Purified Choline Acetyltransferase: A Monoclonal Antibody Shows Reactivity in Human Brain

Choline acetyltransferase (ChAT) from porcine brain was purified by immunoaffinity chromatography, and the highly purified enzyme was subsequently used for immunization of mice and rabbits. After fusion of mouse spleen cells, 32 cultures producing monoclonal antibodies directed against ChAT were detected by an enzyme-linked immunosorbent assay (ELISA) with immunoaffinity-purified ChAT. Of these original 32, the most active 11 cultures were cloned and used for ascites production. The 11 clones generated monoclonal antibodies of the immunoglobulin (Ig) M class (three), the IgG1 subclass (seven), and the IgG2b subclass (one). The isoelectric points of the antibodies of the IgG class were different in each case. The monoclonal antibodies exhibited different binding characteristics in the above ELISA and on western blots. Two monoclonal antibodies demonstrated excellent immunohistological results with neurons of rat brain and spinal cord. One of them reacted well immunohistochemically with neurons of human brain and also recognized partially purified human placenta ChAT in the ELISA.     

Production and Preliminary Application of Monoclonal Antibodies Against Paulownia Witches' Broom MLO

Monoclonal antibodies against mycoplasma-like organisms (MLO) associated with paulownia witches’broom (PWB) were produced by using partially purified preparations from diseased paulownia. Splenic cells from immunized mice were fused with sp2/0murine myeloma cells. Screened by indirect ELISA using partially purified PWB-MLO and healthy paulownia extracts as detecting antigens, two hybridoma clones that stably secreted specific antibodies against PWB-MLO were obtained from 459 clones of four successful fusions. The monoclonal antibodies were isotyped and determined to be immunoglubin classes IgG2a and IgG3. Antibody titers of ascitic fluids were both over 1.6 × 104 assayed by indirect ELISA. Priliminary application on several specimens proved that they were the monoclonal antibodies against PWB-MLO.