Immunochemically purified DR antigens in liposomes stimulate xenogeneic cytolytic T cells in secondary in vitro cultures

A monoclonal antibody directed against the human class II major histocompatibility antigen DR was generated. Use of this antibody, LB3.1, allowed isolation of large amounts of highly purified DR by immunoaffinity chromatography. The DR was reconstituted into liposomes and shown to stimulate secondary xenogeneic cytolytic T lymphocytes (CTL) specific for targets expressing DR antigens. DR digested with neuraminidase was equally as effective as native DR at stimulating CTL, while denatured DR and other purified membrane proteins were much less effective. The DR liposome-induced CTL lysed only target cells expressing class II antigens. Cytolysis of targets bearing class II antigens was blocked by DR-specific antisera.     

Preparation and epitope characterization of monoclonal antibodies against firefly luciferase

The 6-His tagged firefly luciferase was highly expressed in E. coli and purified to homogeneity by affinity chromatography and gel filtration. After immunizing Balb/c mice with the antigen, 6 hybridomas clones were found to secrete monoelonal antibodies (mAbs) and the mAbs were also purified separately. The competitive binding experiments show that 2 mAbs can bind heat-denatured antigen or its proteolytic fragments but not the native lueiferase, suggesting that their epitopes might be accommodated in the internal segments of the protein. On the other hand, the other 4 mAbs are capable of binding both native and denatured antigens. It infers that their epitopes locate in the segments on the protein surface. The results also suggest that the six mAbs are all sequence-specific.     

Preparation and epitope characterization of monoclonal antibodies against firefly luciferase

The 6-His tagged firefly luciferase was highly expressed inE. coli and purified to homogeneity by affinity chromatography and gel filtration. After immunizing Balb/c mice with the antigen, 6 hybridomas clones were found to secrete monoclonal antibodies (mAbs) and the mAbs were also purified separately. The competitive binding experiments show that 2 mAbs can bind heat-denatured antigen or its proteolytic fragments but not the native luciferase, suggesting that their epitopes might be accommodated in the internal segments of the protein. On the other hand, the other 4 mAbs are capable of binding both native and denatured antigens. It infers that their epitopes locate in the segments on the protein surface. The results also suggest that the six mAbs are all sequence-specific.     

Identification of multiple cell adhesion receptors for collagen and fibronectin in human fibrosarcoma cells possessing unique alpha and common beta subunits

Using monoclonal antibody technology and affinity chromatography we have identified four distinct classes of cell surface receptors for native collagen on a cultured human fibrosarcoma cell line, HT-1080. Two classes of monoclonal antibodies prepared against HT-1080 cells inhibited adhesion to extracellular matrix components. Class I antibodies inhibited cell adhesion to collagen, fibronectin, and laminin. These antibodies immunoprecipitated two noncovalently linked proteins (subunits) with molecular masses of 147 and 125 kD, termed alpha and beta, respectively. Class II antibodies inhibited cell adhesion to native collagen only and not fibronectin or laminin. Class II antibodies immunoprecipitated a single cell surface protein containing two noncovalently linked subunits with molecular masses of 145 and 125 kD, termed alpha and beta, respectively. The two classes of antibodies did not cross-react with the same cell surface protein and recognized epitopes present on the alpha subunits. Pulse-chase labeling studies with [35S]methionine indicated that neither class I nor II antigen was a metabolic precursor of the other. Comparison of the alpha and beta subunits of the class I and II antigens by peptide mapping indicated that the beta subunits were identical while the alpha subunits were distinct. In affinity chromatography experiments HT-1080 cells were extracted with Triton X-100 or octylglucoside detergents and chromatographed on insoluble fibronectin or native type I or VI collagens. A single membrane protein with the biochemical characteristics of the class I antigen was isolated on fibronectin-Sepharose and could be immunoprecipitated with the class I monoclonal antibody. The class I antigen also specifically bound to type I and VI collagens, consistent with the observation that the class I antibodies inhibit cell adhesion to types VI and I collagen and fibronectin. The class II antigen, however, did not bind to collagen (or fibronectin) even though class II monoclonal antibodies completely inhibited adhesion of HT-1080 cells to types I and III-VI collagen. The class I beta and II beta subunits were structurally related to the beta subunit of the fibronectin receptor described by others. However, none of these receptors shared the same alpha subunits. Additional membrane glycoprotein(s) with molecular mass ranges of 80-90 and 35-45 kD, termed the class III and IV receptors, respectively, bound to types I and VI collagen but not to fibronectin. Monoclonal antibodies prepared against the class III receptor had no consistent effect on cell attachment or spreading, suggesting that it is not directly involved in adhesion to collagen-coated substrates.(ABSTRACT TRUNCATED AT 400 WORDS)     

Purification and characterisation of MHC class I antigen from rat liver with monoclonal antibody

We have described three monoclonal antibodies (HAM1, HAM2, and HAM3) to rat liver cell membrane glycoproteins. Recently also we reported another monoclonal antibody (HAM4) to rat hepato-renal membrane antigen. Using these monoclonal antibodies, it is possible to purify membrane antigens. This paper describes the details of the purification and the nature of the antigen purified with one of the monoclonal antibodies (HAM2) to rat liver cell membrane glycoproteins. Antigen was purified with immunoaffinity column. The amino acid composition was determined and compared with those of mice MHC class I antigen (H-2) and with the rat lymphocyte membrane antigens which were purified with monoclonal antibodies and of which amino acids compositions were determined.     

Monoclonal antibodies against various forms of the adenylyl cyclase catalytic subunit and associated proteins

Monoclonal antibodies against partially purified adenylyl cyclase from bovine brain cortex were raised in mice. Three types of antibody were obtained. Type 1 was specific for the calmodulin-sensitive enzyme. Type II also recognized this enzyme, but recognized the calmodulin-insensitive enzymes from a variety of species and tissues as well. Type I antibodies precipitated their antigens in both the native and denatured forms, while type II strongly favored the denatured forms. Type III antibodies precipitated adenylyl cyclase activity, but as shown by Western blot analysis, were directed against 38-kDa and 45-kDa glycoproteins. The 38-kDa protein was identified as synaptophysin.     

Cell-mediated cytotoxicity against HLA-D-Region products expressed in monocytes and B lymphocytes

The cytotoxic effector cells that recognize HLA-D-region determinants and their precursors were characterized using monoclonal antibodies against human T lymphocytes and T-cell subsets. These studies were performed using MLC combinations giving rise to cytotoxic cells specific for both class I (HLA-A, B, C) and class 11 (HLA-D-region) antigens, and then tested against target cells displaying relevant antigens of only one class. Both class I and class II specific CTL (cytotoxic T lymphocytes) were inhibited by treatment with the OKT3 monoclonal antibody and complement, indicating that the effector cells were T lymphocytes. A major portion.of class II specific CTL, and their precursors, were inhibited by OKT4 and complement, while class I specific CTL from the same cultures were not. The T4+T8 — cell subset has previously been associated with helper or inducer functions, but not with cytotoxicity. The present findings indicate that class I and class 11 specific CTL, and their precursors, are different on the basis of the class of target antigen recognized and on the basis of surface phenotype detected by monoclonal antibodies.     

Purification and characterization of an osteoclast membrane glycoprotein with homology to manganese superoxide dismutase.

The osteoclast is the specialized multinucleated cell primarily responsible for the degradation of the inorganic and organic components of bone matrix. Isolated avian osteoclasts have been used to immunize mice and generate an osteoclast-directed monoclonal antibody library (J. Cell Biology, 100:1592). A subset of these monoclonal antibodies recognizes antigens which are expressed on osteoclasts and which are absent or nearly so on multinucleated giant cells formed in vitro from monocyte or marrow mononuclear cells. One of these antibodies, designated 121F, has been used to identify and purify an osteoclast plasma membrane-associated glycoprotein. Western blot analysis on disulfide bond-reduced extracts from osteoclasts or multinucleated giant cells formed in vitro demonstrates that the 121F antibody recognizes a 150 kDa protein detectable only in osteoclasts. This high molecular weight protein has been purified by a combination of immunoaffinity and gel filtration chromatography procedures, in conjunction with electroelution of a single band from SDS-polyacrylamide gels. Silver staining of the purified antigen on SDS-polyacrylamide gels has revealed a single protein species larger than 200 kDa in its unreduced form and 150 kDa when disulfides are reduced. Isoelectric focusing of the purified antigen reveals a single species, having a neutral pl point of 6.95. Whereas endoglycosidase treatment and lectin affinity chromatographic analyses demonstrate that the antigen recognized by the 121F antibody possesses complex N-linked sugars, trifluoromethanesulfonic acid treatment indicates there are no additional O-linked carbohydrate components. Periodate oxidation and monosaccharide hapten inhibition studies provide no evidence for the antigenic epitope bound by the 121F antibody being carbohydrate in nature. Although the native antigen is blocked at its N-terminus, amino acid analysis of a hydroxylamine generated peptide disclosed a striking relationship between the osteoclast antigen recognized by the 121F monoclonal antibody and manganese and iron superoxide dismutase. Therefore, in addition to serving as a distinguishing cell type-specific marker for osteoclasts, this cell surface glycoprotein may function directly in osteoclast-mediated bone resorption.     

Alkaline phosphatase and 5'-nucleotide phosphodiesterase from bovine intestine are cross-reactive

Polyclonal antibodies to native alkaline phosphatase and to native 5'-nucleotide phosphodiesterase were found to strongly cross-react with both enzymes. The antibodies also cross-react with both denatured enzymes, with glycopeptides from 5'-nucleotide phosphodiesterase, and with the oligosaccharides remaining after Pronase E digestion of the phosphodiesterase. They do not cross-react with either enzyme after their oligosaccharides have been modified or removed by periodate or trifluoromethanesulfonic acid treatment. Antibodies to denatured 5'-nucleotide phosphodiesterase do not bind to the native phosphodiesterase or alkaline phosphatase but do cross-react with denatured alkaline phosphatase even after removal or modification of the carbohydrate moieties. These results suggest that antibodies to denatured 5'-nucleotide phosphodiesterase may recognize amino acid sequence homology between alkaline phosphatase and 5'-nucleotide phosphodiesterase. However, antibodies to native enzymes apparently recognize cross-reactive determinants of the native enzymes which are carbohydrate in nature. This is the first report of antimammalian alkaline phosphatase antibodies which recognize the carbohydrate moieties of the enzyme.     

Monoclonal antibodies to hemagglutinin-neuraminidase and fusion glycoproteins of Newcastle disease virus: relationship between glycosylation and reactivity.

Eighteen hybridoma lines obtained by immunization of mice with Newcastle disease virus (NDV) lentogenic strain La Sota or velogenic strain Italien produced hemagglutinating monoclonal antibodies. The 18 monoclones were divided into four groups according to their reactivity toward native hemagglutinin neuraminidase protein (HN), nonglycosylated HN precursor, and heat-denatured HN blotted on nitrocellulose membranes. Only group II reagents were reactive toward their targets in all conditions tested. They were considered sequence-specific antibodies. Group I antibodies did not require glycosylation but lacked reactivity towards the denatured glycosylated antigen. Monoclonal antibodies from group III recognized only the native HN. Group IV was made up of a single monoclone that lacked reactivity with NDV Italien but recognized the La Sota strain in hemagglutination inhibition and enzyme-linked immunosorbent assays. Five hybridoma lines produced monoclonal antibodies which neutralized viral infectivity but failed to inhibit hemagglutination. One monoclonal antibody obtained after immunization of mice with NDV La Sota showed a low neutralization index versus NDV Italien. Four monoclonal antibodies derived from mice immunized with NDV Italien showed higher neutralization indices towards this strain. Neither the denatured F protein nor its nonglycosylated precursor was reacted against by the five monoclonal antibodies.     

Anti-schistosome monoclonal antibodies of different isotypes--correlation with cytotoxicity

Five monoclonal antibodies specific towards Schistosoma mansoni antigens were prepared by fusion of spleen cells of infected and immunized mouse with the murine myeloma NS-1 cells. Three of the five antibodies belonged to the IgG1 class, one was an IgM and the fifth one was an IgE. The IgE monoclonal antibody designated 54.10, induced antigen-specific degranulation of rat basophilic cell line, a property which served as the basis for the screening assay. Its biological function was demonstrated by a specific macrophage activation that led to killing of schistosomula; no such killing was obtained with anti-schistosome antibodies of other classes or with IgE of different antigenic specificity. The second monoclonal antibody of biological significance was an IgG1, designated 27.21 which is reactive in the immunofluorescence staining of surface antigens on intact schistosomula. All three monoclonal antibodies that belonged to the IgG1 class were effective in mediating killing of schistosomula by complement, with the highest effect exerted by 27.21. It is thus apparent that the 27.21 monoclonal antibody is directed against a densely distributed surface antigen on the schistosomula membrane which is possibly involved in the protective immunity. Preliminary data showed that immunoprecipitation with the 27.21 antibodies results in the isolation of three major protein bands, of 60 kd, 50 kd, 19 kd, respectively.     

Accessory cell function of human endothelial cells. I. A subpopulation of Ia positive cells is required for antigen presentation

The expression of class I and class II HLA antigens on preparations of human endothelial cells, isolated from umbilical cord veins, was investigated by immunofluorescence. While virtually all endothelial cells expressed class I antigens, less than 1% were positive for class II antigens, as detected with a panel of 10 different monoclonal antibodies. Antigen specific T cell lines proliferated in response to mumps antigen in the presence of endothelial cells or blood monocytes from HLA-DR matched donors. However, these T cell lines failed to respond in the absence of accessory cells or when accessory cells from HLA-D-region mismatched cord donors were used. The ability of both monocytes and endothelial cells to present antigen was abolished by treatment of the cells with monoclonal antibodies specific for either class I or class II HLA antigens plus complement. Similar treatment with monoclonal antibodies specific for monocytes greatly reduced antigen presentation by endothelial cells. These results indicate that preparations of endothelial cells contain a subpopulation of Ia positive cells, distinct from monocytes, which are required for antigen presentation.     

Detection of the homology among proteins by immunochemical cross-reactivity between denatured antigens. Application to the threonine and methionine regulated aspartokinases-homoserine dehydrogenases from Escherichia coli K 12.

The two isofunctional enzymes aspartokinases-homoserine dehydrogenases I and II from Escherichia coli K 12 are compared using immunochemical techniques. The antibodies raised against one of these two proteins when in its native state can only recognize the homologous antigen, whether it is native or denatured. Contrarily, the antibodies raised against one of these two proteins when in its denatured state can recognize both the homologous and heterologous denatured antigens. The existence of this cross-reaction only between the two denatured aspartokinases-homoserine dehydrogenases suggests that these two enzymes have some similarity since such a reaction is not detected with several other denatured proteins. The regions involved in this similarity are buried inside the native proteins, and become exposed only upon denaturation. The same results, the existence of a cross-reaction between denatured species and none between the native ones, is obtained with proteolytic fragments derived from these two proteins and endowed with homoserine dehydrogenase activity. This resemblance between the two aspartokinases-homoserine dehydrogenases suggests that these proteins derive from a common ancestor. It is also proposed that such a cross-reaction between two denatured proteins is evidence for an homology between their amino acid sequences, and that the use of denatured proteins as both immunogens and antigens could be useful in detecting sequence homologies.     

Preparation and Characterization of Two Human Carcinoembryonic Antigen Family Proteins of Neutrophils, CD66b and c, in Silkworm Larvae

As a step to investigate the cell adhesion mechanism and physiological roles of two CD66 antigens in human neutrophils, carcinoembryonic antigen gene family member 6 (CGM6, CD66b) and nonspecific cross-reacting antigen (NCA, CD66c), we prepared their soluble recombinant forms in silkworm larvae. Each cDNA fragment for CGM6 and NCA was ligated into the transfer vector pBK283 after modification to encode the protein lacking the membrane anchor. The resultant vectors were introduced to theBombyx morinuclear polyhedrosis virus, with which silkworm larvae were infected. Recombinant proteins secreted into the hemolymph of larvae at concentrations up to 1.3 mg/ml were purified by cation exchange followed by gel filtration or antibody affinity chromatography. The smaller apparent masses of the antigens compared with those of the native antigens appeared to be primarily due to incomplete glycosylation. Both recombinant antigens are quite similar to the corresponding native antigens in terms of the antigenic reactivity against a panel of CD66 monoclonal antibodies. In addition, the recombinant CGM6 and NCA exhibited cell binding activity against CHO cells expressing NCA and CGM6, respectively. Thus the two biologically active recombinant CD66 antigens prepared in large quantities in silkworm larvae should be useful for their functional studies, and our present system will be available for the production and purification of other carcinoembryonic antigen family members, whose biological functions are also unknown.     

Purification and characterization of three immunodominant proteins (38, 30, and 16 kDa) of Mycobacterium tuberculosis

Specific mycobacterial antigens are an important prerequisite in the serodiagnosis of tuberculosis. Many studies have reported the use of both native and recombinant proteins. Even though recombinant proteins can form standardized reagents with unlimited supply, their diagnostic test characteristics were not satisfactory in some cases. In this study we have purified the 38-, 30- (antigen 85B), and 16-kDa native antigens of Mycobacterium tuberculosis by procedures with limited number of steps. Starting with the secreted antigens of M. tuberculosis H37Rv, the 38-kDa form was purified by preparative isoelectric focusing, followed by preparative electrophoresis. Separation of antigen 85 components was achieved by anion-exchange chromatography, followed by hydrophobic interaction chromatography. Gel-permeation chromatography was employed for the isolation of the 16-kDa form, from the cytosol fraction of M. tuberculosis H37Rv. By using a minimal number of steps, considerable yields of these proteins were obtained without loss of immunological activity. The native proteins purified were characterized by analytical two-dimensional electrophoresis, HPLC, and circular dichroism studies. Conformation of the native 38-kDa form purified in our laboratory was different from that of the recombinant 38-kDa form from the WHO Bank. The identities of these native antigens were established by immunoblotting with known monoclonal antibodies from the WHO Bank.     

Subclass distribution of human antibodies to Haemophilus influenzae type b capsular polysaccharide

The polysaccharide (PS) capsule of Haemophilus influenzae type b (Hib) is a "simple" antigen, polyribosylribitolphosphate. Although similar carbohydrate antigens have been reported to elicit IgG antibodies relatively restricted to the IgG2 subclass in man, we report here that Hib PS elicits substantial quantities of both IgG1 and IgG2 serum antibodies in most individuals. Because the determination of IgG subclass distribution can be technically difficult, we used four different approaches to establish our finding. First, we used an IgG subclass-specific, antigen-specific "sandwich assay." Second, we measured IgG subclasses of purified antibodies to Hib PS. Third, we showed that significant amounts of IgG anti-PS can be absorbed with a monoclonal anti-IgG1 affinity column. Fourth, we showed that IgG1 and IgG2 fractions of immune sera have clonally restricted anti-Hib PS antibodies that are easily distinguishable by their isoelectric points. The data indicate that both IgG1 and IgG2 contribute substantially to the IgG antibody response of most adults to immunization with Hib PS.     

Direct identification of class II histocompatibility DR proteins in preparations of human T-cell lymphotropic virus type III

Class II histocompatibility DR antigen alpha and beta chains were isolated from preparations of human T-cell lymphotropic virus type III grown in human H-9 cells. The proteins were purified by reversed-phase high-pressure liquid chromatography and identified by direct N-terminal amino acid sequence analysis of each chain. The purified DR alpha chain had an N-terminal amino acid sequence identical to the known sequence of human DR alpha chain through the first 37 residues. The N-terminal amino acid sequence of the purified DR beta chain was identical to that of human DR4 beta chain. The DR alpha and beta chains appeared to be identical to the p34-36K and p30-32K proteins, respectively, concentrated in immunostimulatory complexes prepared from unfractionated virus and were the major immunogens in these complexes. These proteins represent a ready source of antigens which can cause false-positive enzyme-linked immunosorbent assay reactions in individuals previously exposed to allogenic histocompatibility antigens. The removal of the DR chains from virus preparations by use of available monoclonal antibodies or other means should result in a lower rate of initial false-positive enzyme-linked immunosorbent assay reactions.     

Blocking of human T lymphocyte functions by anti-Leu-2 and anti-Leu-3 antibodies: differential inhibition of proliferation and suppression

We have shown previously that monoclonal antibodies to the Leu-2 and Leu-3 T cell antigens block the response of their respective subsets in allogeneic MLR. The present study was an effort to explore the mechanism of inhibition and to determine if anti-Leu-2 and anti-Leu-3 antibodies affect the responses to stimuli in addition to alloantigens. Our results indicate that antibodies to Leu-2 and Leu-3 have profound inhibitory effects on proliferation by their respective T cell subsets responding to a variety of stimuli, including specific soluble antigens and alloantigen. This effect was characterized by the following features: a) For optimal inhibition of proliferation, antibody must be present at the onset of antigenic stimulation. b) Inhibition is augmented by increasing the concentration of antibody or decreasing the concentration of antigen. c) Fab fragments of both anti-Leu-2a and anti-Leu-3a antibodies also block proliferation. In addition to their effects on T cell proliferation, anti-Leu-3 antibody blocked T cell-dependent lg synthesis induced in MLR, and anti-Leu-2 antibody prevented the induction, in vitro, of Leu-2+3- suppressor cells of lg synthesis. Taken together, these results suggest that antibodies to antigenic determinants on the Leu-2 and Leu-3 molecules competitively block segments of these structures that bind to alloantigen or nominal antigen. On the other hand, anti-Leu-2a antibody failed to block suppression of the MLR by in vivo activated, antigen-specific Leu-2+3- suppressor cells, which suggests that the Leu-2a epitope does not transmit antigen-specific signals from these differentiated suppressor T cells.     

Purified protein derivative (PPD) as an immunogen carrier elicits high antigen specificity to haptens.

The effectiveness of the carrier protein in eliciting antigen-specific antibodies was investigated. The effect of the carrier protein was independent of the conjugation chemistry involved. Keyhole limpet hemocyanin (KLH), purified protein derivative (PPD), and ovalbumin (OVA) were used as carrier proteins in the immunization of mice. Three antigens were studied: LY170881 (a small drug molecule), 4-[1'-cyanobenz(f)isoindolyl]butyric acid (CBI-butyric acid), and a seven residue peptide GPGRGPG (KLE1). The serum antibody response to the antigen or antigen:BSA conjugate was superior in the case where the PPD:antigen conjugates were used as the immunogen when compared to KLH and OVA. The specificity of the antibodies to the respective antigens vs cross-reactivity with the carrier protein was investigated. PPD-coupled antigen immunized mice generated a higher percentage of antigen-specific hybridomas compared to the other carrier proteins. These findings confirmed PPD as the best carrier molecule for the production of both polyclonal and monoclonal antibodies.     

OKT4+ cytotoxic T cells can lyse targets via class I molecules and can be blocked by monoclonal antibody against T4 molecules

Human cytotoxic T lymphocytes (CTL) have been shown to recognize either class I or class II major histocompatibility (MHC) products. This recognition has been correlated with the expression of OKT antigens on the surface of the CTL. Thus, OKT4+ CTL have been shown to be reactive with class II products, whereas OKT8+ effectors recognize class I molecules. In this study, responder cells were separated according to their OKT4 or OKT8 cell surface phenotype on a fluorescence-activated cell sorter (FACS). The OKT4+ subsets were stimulated with an LCL mutant that did not express DR and MB/MT but did express SB and class I antigens. After 7 days in culture, the activated subsets were tested on a panel of class I matched or mismatched targets. The cytotoxicity observed could be correlated with the presence of matched class I antigens. In addition, monoclonal antibody (MCA) W6/32, directed at a monomorphic determinant on HLA-A and -B molecules, blocked lysis. Furthermore, six OKT4+ CTL clones were derived from the OKT4+ bulk cultures; three clones were found to be directed at class I molecules whereas the other three recognized class II determinants. The ability of these clones to lyse their relevant targets was blocked by OKT4 MCA, raising questions as to the role of the T4 molecule in antigen class-specific CTL recognition.