Inhibition of microtubule assembly in vitro by anti-tubulin monoclonal antibodies

Five monoclonal antibodies against N-terminal domains of alpha- or beta-tubulin were tested for their ability to interfere with the in vitro formation of microtubules. Although all the antibodies exhibited similar association constants for immobilized tubulin, they differed in their inhibitory effect on microtubule assembly. For the most potent antibody, TU-13, the antibody/tubulin molar ratio of about 1:320 was sufficient for a 50% inhibition. The data indicate that the surface regions of N-terminal domains of tubulin are involved in the formation of microtubules.     

A tubulin identified by a monoclonal antibody is not present in mitotic spindles

A monoclonal antibody, G8, which recognizes a form of tubulin (G8-tubulin) with a novel distribution in Rat-1 cells and Potorous tridactylis kidney (Ptk-2) cells was isolated. G8 labeled the interphase cytoskeleton of Rat-1 fibroblasts but not mitotic spindles or midbodies. G8 also stained a fiber network in some but not all Ptk-2 interphase cells but did not label mitotic spindles or midbodies in these cells. G8-tubulin is the only identified tubulin known to be absent from these structures. This distribution may indicate that G8-tubulin possesses functional specificity.     

A radiolabeled monoclonal antibody binding assay for cytoskeletal tubulin in cultured cells

To detect changes in the extent of tubulin polymerization in cultured cells, we have developed a radioactive antibody binding assay that can be used to quantitate total cytoskeletal tubulin or specific antigenic subsets of polymerized tubulin. Fibroblastic cells, grown to confluence in multiwell plates, were permeabilized and extracted with 0.5% Triton X-100 in a microtubule-stabilizing buffer. These extracted cytoskeletons were then fixed and incubated with translationally radiolabeled monoclonal antitubulin antibody (Ab 1-1.1), an IgM antibody specific for the beta subunit of tubulin. Specific binding of Ab 1-1.1 to the cytoskeletons was saturable and of a single apparent affinity. All specific binding was blocked by preincubation of the radiolabeled antibody with excess purified brain tubulin. Specific Ab 1-1.1 binding appeared to represent binding to cytoskeletal tubulin inasmuch as: pretreatment of cells with colchicine decreased Ab 1-1.1 binding in a dose-dependent manner which correlated with the amount of polymerized tubulin visualized in parallel cultures by indirect immunofluorescence, taxol pretreatment alone caused an increase in Ab 1-1.1 binding and prevented in a dose-dependent manner the colchicine-induced decrease in antibody binding, in cells pretreated with colcemid and returned to fresh medium, Ab 1-1.1 binding decreased and recovered in parallel with the depolymerization and regrowth of microtubules in these cells, and comparison of maximal antibody binding per cell between primary mouse embryo, 3T3, and human foreskin fibroblasts correlated with immunofluorescence visualization of microtubules in these cells. Thus, this assay can be used to measure relative changes in the level of polymerized cytoskeletal tubulin. Moreover, by Scatchard-type analysis of the binding data it is possible to estimate the total number of antibody binding sites per cell. Therefore, depending on the stoichiometry of antibody binding, this type of assay may be used for quantitating total cytoskeletal tubulin, specific antigenic subsets of cytoskeletal tubulin, or other cytoskeletal proteins.     

A monoclonal antibody against the type II isotype of beta-tubulin. Preparation of isotypically altered tubulin

Mammalian brain tubulin consists of several isotypes of alpha and beta subunits that separate on polyacrylamide gels into three electrophoretic classes, designated alpha, beta 1, and beta 2. It has not been possible hitherto to resolve the different isotypes in a functional form. To this end, we have now isolated a monoclonal antibody, using as an immunogen a chemically synthesized peptide corresponding to the carboxyl-terminal sequence of the major tubulin isotype (type II) found in the beta 1-tubulin electrophoretic fraction. The antibody binds to beta 1 but not to alpha or beta 2. When pure tubulin from bovine brain is passed through an immunoaffinity column made from the anti-type II antibody, the tubulin that elutes in the unbound fraction is enriched greatly for the beta 2 electrophoretic variant. The tubulin that binds to the column appears to contain only alpha and beta 1, not beta 2. When these tubulin fractions are characterized by immunoblotting using the anti-type II antibody, the antibody binds only to the beta 1 band in the bound fraction, not to the beta 1 band in the unbound fraction. Using polyclonal antibodies generated against the carboxyl-termini of types I, III, and IV, we demonstrate that the beta 1 electrophoretic species is comprised of isotypes I, II, and IV, whereas the beta 2 variant is comprised exclusively of type III beta-tubulin. Further, we calculate that beta-tubulin in purified bovine brain tubulin is comprised of 3% type I, 58% type II, 25% type III, and 13% type IV tubulins.     

Detection of microtubules of the flagellate Trichomonas vaginalis by monoclonal antibodies specific for beta-tubulin

Monoclonal antibodies specific for mammalian beta-tubulin recognized the microtubule cytoskeleton of the flagellated protozoon Trichomonas vaginalis. Of seven antibodies, two demonstrated the axostyle, costa, recurrent flagellum, and anterior flagella by indirect immunofluorescence microscopy. The remaining five stained a hazy reticular pattern in the cytoplasm of formaldehydefixed, detergent-extracted organisms. Western immunoblots of whole T. vaginalis extracts treated with protease inhibitors and electrophoresed on polyacrylamide gels containing sodium dodecyl sulfate showed a major band at molecular weight 50,000 when probed with only one of the antibodies which stained the axial cytoskeleton. The antibodies which stained only the cytoplasm showed a different western blot pattern with a major doublet band at MW 58,000-60,000. Another antibody, which stained both the axial cytoskeleton and the reticular cytoplasmic pattern showed major bands at MW 58,000-60,000 and also at MW 40,000-42,000. The recognition of microtubule populations in T. vaginalis by these monoclonal antibodies was different than we found earlier with Leishmania donovani and Toxoplasma gondii, where all seven antibodies recognize cytoskeletal microtubules and produce western blots characteristic of tubulin. Only one of these seven antibodies recognizes tubulin in T. vaginalis by immunoblot. The microtubules of T. vaginalis do not demonstrate all epitopes recognized by monoclonal antibodies specific for mammalian beta-tubulin; one of the antibodies appears to recognize an epitope which is morphologically associated with microtubules but does not have the characteristic MW of tubulin.     

Use of monoclonal antibodies to analyse the expression of a multi-tubulin family

We have used a panel of monoclonal antibodies in a study of the expression of multiple tubulins in Physarum polycephalum. Three anti-beta-tubulin monoclonal antibodies, DM1B, DM3B3 and KMX-1 all reacted with the beta 1-tubulin isotypes expressed in both myxamoebae and plasmodia. However, these antibodies showed a spectrum of reduced reactivity with the plasmodial beta 2-tubulin isotype - the competence of recognition of this isotype was graded DM1B greater than KMX-1 greater than DM3B3. The anti-alpha-tubulin monoclonal antibody, YOL 1/34 defined the full complement of Physarum alpha-tubulin isotypes, whilst the anti-alpha-tubulin monoclonal antibody, KMP-1 showed a remarkably high degree of isotype specificity. KMP-1 recognises all of the myxamoebal alpha 1-tubulin isotypes but only recognises 3 out of the 4 alpha 1-tubulin isotypes expressed in the plasmodium (which normally focus in the same 2D gel spot). KMP-1 does not recognise the plasmodial specific alpha 2-tubulin isotype. This monoclonal antibody reveals a new level of complexity amongst the tubulin isotypes expressed in Physarum and suggests that monoclonal antibodies are valuable probes for individual members of multi-tubulin families.     

A novel fibrillar structure in cultured cells detected by a monoclonal antibody

Using a monoclonal antibody, we have detected an antigen present in a unique fibrillar structure in the cytoplasm of cultured cells by immunofluorescence. These structures have been identified by transmission electron microscopy and ultrastructural immunocytochemistry as large single paracrystalline arrays of individual filaments morphologically similar to intermediate filaments. The antibody detects these structures in fibroblastic and epithelioid cultured cell lines of mouse, rat, bovine, and human origin but not of avian origin. Only a small percentage of the cells in a culture contains these structures; each cell usually contains only one, although two or more have been observed in a single cell. The structures are elongated vermiform arrays of filaments in the cytoplasm (approximately 0.5 X 3 microns) which have a thread-like or toroidal appearance. Because of this shape, we have named the putative antigen recognized by this antibody "nematin." Double-label experiments showed that these structures had no relationship to tubulin or vimentin. Immunocytochemical localization in human tissues revealed a high concentration of a reactive antigen in the stratum granulosum of skin and in what probably are neuroglial cells in the central nervous system. This monoclonal antibody may detect a novel intermediate filament protein and/or a shared determinant of different intermediate filament proteins.     

Glycosylation of the alpha and beta tubulin by sialyloligosaccharides

To examine whether alpha and beta tubulin are glycoproteins, we used a pyridylamino labeling method and a monoclonal antibody, SG3-1, raised against NeuAcalpha2-3Gal structure. Alpha and beta tubulin from both pig brain and HeLa cells were positive for the SG3-1 antibody by immunoblot assay. Sialidase treatment reduced the reactivity of the SG3-1 antibody to alpha and beta tubulin molecules. N-linked oligosaccharide analysis also showed that alpha and beta tubulin are glycosylated. Moreover, immunofluorescence analysis showed that the filamentous structure recognized by the SG3-1 antibody was overlapped with microtubules, especially in the vicinity of the nucleus. These results indicate that alpha and beta tubulin are glycosylated with sialyloligosaccharides.     

Immunostaining of human spermatozoa with tubulin domain-specific monoclonal antibodies. Recognition of a unique beta-tubulin epitope in the sperm head.

Four monoclonal antibodies that discriminate between structural domains of alpha-(TU-01, TU-04) or beta-(TU-06, TU-12) tubulin and a polyclonal anti-tubulin antibody were used for immunostaining of human spermatozoa using immunofluorescence microscopy. Specificity of antibodies was confirmed by immunoblotting experiments. Antibodies TU-01 and TU-06 uniformly stained the whole tail and the neck, whereas antibodies TU-04, TU-12 showed differential distribution of corresponding epitopes in the stable arrays of flagellar microtubules. Of the monoclonal antibodies used, only TU-12 against the antigenic determinant on C-terminal domain of beta-tubulin showed strong reactivity with the equatorial segment of the head. The results document a differential exposure of tubulin epitopes at the single-cell level and suggest the existence of distinct tubulin populations in various structural compartments of the human spermatozoon.     

Heterogeneity of microtubules recognized by monoclonal antibodies to alpha-tubulin

A set of four monoclonal antibodies against tubulin (TU-01, TU-02, TU-03, and TU-04) were produced using pig brain microtubule protein as antigen. Their characterization shows that all recognize antigenic determinants located on the tubulin alpha-subunit. However, peptide mapping of isolated alpha-tubulin, followed by immunoblotting with the monoclonal antibodies, shows that the antigenic determinants are located on different peptide fragments in at least three cases. The immunoreactivity with tubulins from different cells and tissues, ranging from eukaryotic microorganisms to man, was studied by immunoblotting and immunofluorescence. The antigenic determinants recognized by the antibodies are not uniformly distributed but, in some instances, are absent from tubulins of lower eukaryotic cells. These antibodies also make it possible to distinguish between different sets of microtubules within individual cells. Antigenically different microtubules are particularly evident in mouse spermatozoa and in some protozoa (T. vaginalis, H. muscarum, L. tropica, N. gruberi) possessing different sets of microtubules with different functions. These monoclonal antibodies can clearly identify the heterogeneity of tubulin or microtubules both from different organisms and within the same cell.     

Murine hybridomas secreting natural monoclonal antibodies reacting with self antigens

Spleen cells from nonimmunized BALB/c mice were fused with two nonsecreting myeloma lines. The hybrids were selected in HAT medium and screened for Ig production and for antibody activity against actin, tubulin, myosin, thyroglobulin, myoglobin, spectrin, dsDNA, fetuin, and transferrin. Among 161 hybrids secreting Ig, three were found to react with DNA, one with thyroglobulin, and one mainly with myosin. Two of these hybrids could be propagated and further characterized. On the basis of inhibition experiments, one was found to be directed against dsDNA; the other was directed mainly against myosin but at the same time reacted significantly with actin, tubulin, spectrin, and dsDNA. Reactivity with myosin seemed to be concentrated in the light meromyosin subfragment, known to be rich in alpha-helical structure. These results indicate: 1) There are reactive B cell clones directed against self antigens. 2) The antibody specificities found for these antibodies are very similar to those found for natural antibodies in normal human serum and for human monoclonal Ig. 3) The widespread reactivity found for the clone mainly reacting with myosin raises the possibility that the determinant recognized by this antibody is a conformational structure that possibly is associated with alpha-helical structures.     

Immunostaining of human spermatozoa with tubulin domain-specific monoclonal antibodies. Recognition of a unique beta-tubulin epitope in the sperm head

Summary Four monoclonal antibodies that discriminate between structural domains of alpha-(TU-01, TU-04) or beta-(TU-06, TU-12) tubulin and a polyclonal anti-tubulin antibody were used for immunostaining of human spermatozoa using immunofluorescence microscopy. Specificity of antibodies was confirmed by immunoblotting experiments. Antibodies TU-01 and TU-06 uniformly stained the whole tail and the neck, whereas antibodies TU-04, TU-12 showed differential distribution of corresponding epitopes in the stable arrays of flagellar microtubules. Of the monoclonal antibodies used, only TU-12 against the antigenic determinant on C-terminal domain of -tubulin showed strong reactivity with the equatorial segment of the head. The results document a differential exposure of tubulin epitopes at the single-cell level and suggest the existence of distinct tubulin populations in various structural compartments of the human spermatozoon.     

Organization of microtubules in stabilized meristematic plant cells revealed by a rat monoclonal antibody reacting only with the tyrosinated form of alpha-tubulin

A rat monoclonal antibody against yeast tubulin (clone YL 1/2; Kilmartin et al., 1982) that reacts specifically with mammalian alpha-tubulin carrying a carboxyterminal tyrosine residue (Wehland et al., 1983) was used to localize microtubules in plant cells derived from onion root apices (Allium cepa L.). YL 1/2 reacted with all types of microtubular arrays known to occur in higher plant meristematic cells such as interphase cortical microtubules, pre-prophase bands, the mitotic spindle and phragmoplast microtubules. The specific labeling of microtubules in isolated cells from onion root tips by YL 1/2 indicates that plant cells like animal cells contain tubulin tyrosine ligase, the enzyme which posttranslationally modifies alpha-tubulin. This enzyme could be involved in the dynamic regulation of microtubular arrays in all eukaryotic cells.     

A broad spectrum monoclonal antibody to alpha-tubulin does not recognize all protozoan tubulins

Summary Monoclonal antibodies able to recognize single antigenic determinants are a powerful tool for the study of immunological heterogeneity of antigens. In this paper we have used a monoclonal antibody against the -subunit of pig brain tubulin (TU-01) to investigate the immunoreactivity of tubulins from mammals, avians, amphibia, echinodermata, plathelmints, slime moulds and protozoa. Immunoreactivity was detected using immunoblotting and indirect immunofluorescence of isolated cells. Our results show that the antigenic determinant recognized by the TU-01 antibody is present in all metazoan tubulin tested and among the eukaryotic microorganisms only in the flagellateTrichomonas vaginalis. Indirect immunofluorescence also reveals that not allTrichomonas microtubules are stained by TU-01 antibody indicating the presence of different tubulins within a single cell. This results are consistent with the multitubulin hypothesis (Fulton andSimpson 1976).     

A Trypanosoma cruzi monoclonal antibody that recognizes a superficial tubulin-like antigen

A monoclonal antibody (MAB 10), obtained from mice infected with Trypanosoma cruzi, was found to recognize a superficial antigen in living or fixed parasites. It reacted more strongly with T. cruzi than with related parasites such as T. brucei and Leishmania. In immunoblots it recognized a single trypanosoma polypeptide and also brain tubulin, both of which had the same electrophoretic mobility. Further analysis suggested that the alpha-tubulin subunit contained the epitope recognized by MAB 10. These results suggest that a surface tubulin-like protein is present is T. cruzi.     

Immunologic characterization and molecular profile of carcinoembryonic antigen detected by monoclonal antibodies

Four distinct monoclonal antibodies, which reacted with CEA preparations but not with nonspecific cross-reacting antigen or with nonspecific cross-reacting antigen 2, were established. Except for monoclonal antibody AS001 , all of these monoclonal antibodies immunoprecipitated molecular forms of 200K and 180K daltons that are not bridged by disulfide bonds. Immunodepletion experiments and sodium dodecyl sulfate polyacrylamide gel electrophoresis analysis revealed that these monoclonal antibodies recognized the same antigenic structure when 125I-CEA preparation was used. Monoclonal antibody AS001 is of particular interest, because this antibody reacted only with a 200K dalton molecule which is a part of the molecules recognized by the other three monoclonal antibodies. The rosette inhibition assay and the immunoprecipitation experiments suggest that each monoclonal antibody recognizes a different antigenic determinant. The antigenic determinants recognized by monoclonal antibodies YK013 and AS001 may be peptides in nature, whereas the determinants recognized by antibodies YK024 or AS005 might be carbohydrate. The radioimmunoassay with monoclonal antibody AS001 was established, and the results clearly indicate that the incidence of positivity for the sera from digestive tract cancer patients and from lung cancer patients obtained by monoclonal antibody AS001 was higher than that obtained by the polyclonal antibody. Monoclonal antibody AS001 was able to detect the corresponding antigen in the sera, which the polyclonal antibody failed to detect. This study therefore suggests that monoclonal antibodies may enhance and improve the diagnostic value in cancer patients with undetectable or lower CEA levels detected by conventional anti-CEA antibodies.     

Rat monoclonal antitubulin antibodies derived by using a new nonsecreting rat cell line

Hybrid myeloma cell lines secreting monoclonal antibodies to tubulin have been prepared using rat myelomas and spleen cells from rats immunized with yeast tubulin. A comparison between the results obtained with the rat myeloma Y3-Ag 1.2.3., which secretes a light chain, and a new line, YB2/O, which does not, shows that they are both excellent parental lines and that the second produces hybrids with no myeloma chain components. The antitubulin antibodies in the serum of rats bearing two of the hybrid myeloma tumors gave titers of up to 1:10(6) from which large amounts of monoclonal antibodies could be easily purified. They recognized tubulin from yeast as well as from birds and mammals. The two antibodies gave clear immunofluorescent staining of yeast mitotic spindles as well as the interphase microtubule network of tissue culture cells. Some difference in the pattern of immunofluorescence staining of yeast cells and nuclei was observed between the two antibodies. The purified antibodies could be conjugated to colloidal gold particles and used for direct labeling of yeast microtubules for electron microscopy.     

A monoclonal antibody to alpha-tubulin: purification of functionally active alpha-tubulin isoforms

Both alpha- and beta-tubulin exist as numerous isotypic forms that originate from different primary sequences as well as a variety of posttranslational modifications. Recent studies show that tubulin dimers differing in the beta-subunit differ significantly in their subcellular distribution as well as in their functional properties such as assembly, dynamics, conformation, and interaction with antimitotic drugs; however, very little is known about the functional significance of the different alpha-tubulin isoforms and their posttranslational modifications. In an effort to get a better understanding about the alpha-tubulin isoforms, a monoclonal antibody, AYN.6D10, was prepared against the mammalian alpha-tubulin C-terminal sequence Glu-Glu-Gly-Glu-Glu-Tyr. Using an immunoaffinity column, bovine brain tubulin was fractionated into three functionally active alphabeta heterodimers which were identified by immunoblotting with alpha-tubulin-specific antibodies and sequence analysis. Assembly studies in the presence of glycerol and Mg2+ show that one of the fractions, that contains mainly the tyrosinated form of alpha1/2, assembled poorly, while the nontyrosinated form assembled normally. The results indicate that tubulin dimers differing in their alpha-tubulin may differ in their functional properties. Future studies with the isoforms may yield valuable information regarding the role of alpha-tubulin and its posttranslational modifications in regulating microtubule assembly and function in vivo.     

离子交换色谱对抗VEGFR2单抗的电荷异质性分析

目的采用离子交换高效液相色谱(CEX-HPLC)分析抗VEGFR2(抗血管内皮生长因子受体2)单抗制品的电荷异质性。方法应用CEX-HPLC技术,对VEGFR2单抗进行电荷异质性分析,并结合羧肽酶B(CpB)和N-糖酰胺酶F(EndoF2)酶切,初步研究其电荷异质性的成因。结果用CEX-HPLC分析CpB酶切前后单抗,证明其碱性变异体主要由C末端赖氨酸不均一性引起;分析EndoF2酶切前后处理的单抗,证明其酸性变异体部分由N-糖末端上的唾液酸修饰所引起。通过2种酶的顺序酶切可相对准确地分析含C-末端赖氨酸以及含唾液酸单抗的比例。结论采用CEX-HPLC可较好地分析单抗的电荷异质性;并结合合适的酶切处理,可判断单抗主要电荷异质性的来源,为保证单抗制品生产工艺的稳定性及质量控制提供了有效手段。     

Detection of glucagon in pancreatic A-cells by monoclonal antibodies

The production of a mouse monoclonal antibody from a hybrid myeloma and its use for the detection of glucagon in tissue sections is reported. The hybrid clone isolated after fusion of mouse myeloma cells with hyperimmune spleen cells from a mouse previously immunized with porcine glucagon allowed us a standardized and permanent source of monoclonal antibodies in a culture cell system. The monoclonal antibody (3 GL 31) specifically reacts with pancreatic A-cells in several species including pig, rabbit, tupaia belangeri and sheep. No immunoreactivity is observed against gut cells and neurons.