Generation and characterization of chicken monoclonal antibodies against human LOX-1

Lectin-like oxidized low-density lipoprotein (LDL) receptor-1 (LOX-1) is the major receptor for oxidized LDL (oxLDL), and plays a key role in the pathogenesis of atherosclerosis and cardiovascular diseases. Monoclonal antibodies (mAbs) specific for human LOX-1 (hLOX-1) were generated by a phage display technique using chickens immunized with recombinant hLOX-1 (rhLOX-1). A total of 53 independent scFv clones reactive for rhLOX-1 were obtained. Of the 53 clones, 49 recognized the C-type lectin-like domain (CTL domain), which contributes to the binding of oxLDL. Of these, 45 clones inhibited oxLDL-binding with LOX-1. Furthermore, some of these clones cross-reacted with rabbit, pig and/or mouse LOX-1. For possible application as therapeutic agents in the future, two cross-reactive mAbs were re-constructed as chicken-human chimeric antibodies. The chimeric antibodies showed similar characteristics compared to the original antibodies, and inhibited oxLDL binding to LOX-1 expressed on CHO cells. The results obtained in this study indicate that anti-LOX-1 mAbs might be useful tools for functional analyses and development of therapeutic agents for cardiovascular indications such as atherosclerosis.Key words: LOX-1, oxLDL, chicken monoclonal antibody, chimeric antibody, neutralizing antibody     

抗鸡白细胞介素4单克隆抗体的制备及鉴定

为了制备鸡白细胞介素4(chIL-4)单克隆抗体,将成熟的chIL-4基因亚克隆至原核表达载体pET-28a和pGEX-6P-1上,然后在大肠杆菌中分别诱导重组蛋白His-chIL-4和GST-chIL-4的表达,并纯化。将纯化后的His-chIL-4作为免疫原免疫BALB/c小鼠,经4次免疫后,取小鼠脾细胞与骨髓瘤细胞(SP2/0)融合。将纯化后的GST-chIL-4作为筛选抗原,利用间接ELISA筛选阳性克隆。阳性细胞株经3次亚克隆后,获得3株稳定分泌抗chIL-4蛋白的杂交瘤细胞株,分别命名为1G11-3B、2E5-3D和1G11-5H。经ELISA检测,3株单克隆抗体的亚型均为IgG1,亲和力解离常数(Kd)分别为1.79×10~(–9)、1.61×10~(–9)和2.36×10~(–9)。经Western blotting及间接免疫荧光试验鉴定,3株单克隆抗体均能特异性识别原核和真核表达的chIL-4蛋白。Western blotting试验证明1G11-3B、2E5-3D和1G11-5H识别的抗原表位区域分别为chIL-4蛋白N端的第1–40、80–112和40–80位氨基酸。该单克隆抗体的制备为chIL-4的检测和生物学功能研究奠定了基础。     

Generation and characterization of neutralizing human monoclonal antibodies against human immunodeficiency virus type 1 Tat antigen

The human immunodeficiency virus Tat regulatory protein is essential for virus replication and pathogenesis. From human peripheral blood mononuclear cells of three Tat toxoid-immunized volunteers, we isolated five Tat-specific human monoclonal antibodies (HMAbs): two full-length immunoglobulin G (IgG) antibodies and three single-chain fragment-variable (scFv) antibodies. The two IgGs were mapped to distinct epitopes within the basic region of Tat, and the three scFvs were mapped to the N-terminal domain of Tat. The three scFvs were highly reactive with recombinant Tat in Western blotting or immunoprecipitation, but results were in contrast to those for the two IgGs, which are sensitive to a particular folding of the protein. In transactivation assays, scFvs were able to inhibit both active recombinant Tat and native Tat secreted by a transfected CEM cell line while IgGs neutralized only native Tat. These HMAbs were able to reduce viral p24 production in human immunodeficiency virus type 1 strain IIIB chronically infected cell lines in a dose-dependent manner.     

Generation of hybridomas producing human monoclonal antibodies against human cytomegalovirus

In vitro stimulation of human lymphocytes were studied in connection with cell fusion. When splenic lymphocytes were stimulated with human cytomegalovirus (CMV), they produced IgG but not IgM antibody against CMV. The stimulation with 50 ng/ml of CMV antigen induced the maximum antibody response, and higher concentrations of CMV antigen decreased antibody response and increased nonspecific IgG production. Human splenic lymphocytes were stimulated for 6 days with CMV antigen (50 ng/ml) and/or B-cell growth factor (BCGF), and then fused with mouse myeloma cells. Stimulation with a combination of antigen and BCGF were able to generate CMV-specific hybridomas synergistically. Two of these hybridomas were cloned by limiting dilution. The human monoclonal antibodies produced by them, C1 and C23, bound to CMV but not to other herpesviruses. C23 neutralized virus infectivity C1 did not at all. This method for generation of hybridomas producing human monoclonal antibodies against a predefined antigen may be applicable to a variety of viral antigens.     

Production and characterization of monoclonal antibodies against human ceruloplasmin

Ceruloplasmin (CP) is the major plasma antioxidant and copper transport protein. Monoclonal antibodies (mAbs) against human CP were produced and characterized. A total of five hybridoma cell lines were established (CP2, CP10, CP20, CP25, CP30). From the epitope mapping analysis, two subgroups of mAbs recognize different peptide fragments were identified. When the purified CP was incubated with the mAbs, the ferroxidase activity of CP was inhibited up to a maximum 57 %. Immunoblotting with various tissue homogenates indicated that all the mAbs specifically recognize a single protein band of 130 kDa. They also appear to be extensively cross-reactive among different mammalian including human and avian sources. These results demonstrated that only one type of immunologically similar CP is present in all of the mammalian tissues including human. The CP mAbs could be of great benefit to design the diagnostic kit for CP-related diseases such as Wilson's disease.     

Preparation and characterization of monoclonal antibodies against human myeloperoxidase

We established 11 hybridomas producing monoclonal antibodies (MoAbs), designated AM, against human myeloperoxidase (MPO), by immunizing mice with the three forms of MPO (I, II, and III) purified from healthy human polymorphonuclear leukocytes (PMN) and characterized the specificity of the AM MoAbs. Ten of the AM MoAbs reacted similarly to each of the three forms using an enzyme-linked immunosorbent assay. When a cetyltrimethylammonium bromide (CETAB) extract of human PMN was electrophoresed in a CETAB polyacrylamide gel and transferred to a nitrocellulose filter, IgG1 class AM MoAbs immunostained only the MPO band of the proteins of the extract. In addition, the AM MoAbs reacted to two radioactive bands of 94 and 92 kDa in a HL-60 cell lysate labeled with [35S]methionine for 1 h. After a chase period of 24 h, these bands were replaced by four radioactive bands of 64.5, 43, 16.7, and 13.4 kDa, demonstrating that the MoAbs recognize not only mature MPO but also the MPO precursors of 94 and 92 kDa. The data also indicated that the two major bands of 64.5 and 13.4 kDa corresponded to heavy and light chains of mature MPO, respectively, and the additive intermediate bands of 43 and 16.7 kDa were MPO-related proteins. Moreover, AM MoAbs reacted to a similar extent to the deglycosylated form of MPO III with endo-beta-N-acetylglucosaminidase H (Endo-H). Thus, IgG1 class AM MoAbs recognized MPO with high specificity and reacted to the structure which is commonly conserved in the three mature forms of MPO (I, II, and III), MPO precursors, and deglycosylated MPO with Endo-H. AM MoAbs also specifically reacted to PMN and/or monocytes but did not react to lymphocytes when the cell staining method was used.     

Production and characterization of mouse monoclonal antibodies against human monocyte chemoattractant protein-1

We developed five different hybridoma cell lines that produced mAb against human monocyte chemoattractant protein-1 (MCP-1). The subclass of all five antibodies was IgG1. All five mAb formed complexes with metabolically labeled MCP-1 that could be demonstrated by immunoprecipitation. The antibodies were specific for MCP-1. They did not cross-react by immunoprecipitation with structurally related host defense cytokines present in metabolically labeled PHA- or LPS-stimulated mononuclear cell culture fluids, nor did they cross-react in a direct ELISA with neutrophil attractant/activation protein-1, with crude platelet lysate proteins, or with pure platelet proteins that have amino acids sequences similar to that of MCP-1. The mAb also reacted with rMCP-1 expressed in Escherichia coli, suggesting that they recognize protein structure rather than the glycosylated portion of human MCP-1. When the mAb were mixed with MCP-1, the monocyte chemotactic response to MCP-1 was inhibited. A sandwich ELISA was developed to detect MCP-1 in biologic fluids containing relatively high concentrations of other proteins. The sensitivity was 300 pg/ml, or 30 pg/ELISA well. An anti-MCP-1 mAb column was used in an improved method of MCP-1 purification. Approximately 240 micrograms of MCP-1 were purified from 5 liters of FCS-containing U-105MG cell culture supernatant. The yield was at least 60%. In addition to two forms of MCP-1 reported previously by us, two more forms of MCP-1 were found in a mixture of culture supernatants of PHA- and LPS-stimulated human PBMC.     

Generation and characterization of human anti-human IL-21 neutralizing monoclonal antibodies

Interleukin 21 (IL-21) is a type I four-helical bundle cytokine that exerts a variety of significant effects on many hematopoietic cells, including T and B lymphocytes and natural killer cells. IL-21 is produced predominantly by CD4⁺ T cells and natural killer T cells and, when aberrantly overexpressed, appears to play important roles in a wide variety of autoimmune disorders. To generate potential therapeutic reagents capable of inhibiting IL-21 for clinical use, we immunized human immunoglobulin transgenic mice with IL-21 and then identified and cloned a panel of human anti-human IL-21 binding monoclonal antibodies. IL-21 neutralizing and IL-21-binding, non-neutralizing antibodies were assigned to distinct epitope “bins” based on surface plasmon resonance competition studies. The most potent neutralizing antibodies had extremely high (sub pM) affinity for IL-21 and were able to block IL-21 activity in various biological assays using either an IL-21R-transfected pre-B-cell line or primary human B cells, and their neutralizing activity was, in some cases, superior to that of a soluble form of the high affinity heterodimeric IL-21 receptor. Characterization of this panel of IL-21 antibodies provided the basis for the selection of a therapeutic candidate antibody capable of inhibiting IL-21 activity for the treatment of autoimmune and inflammatory diseases.Key words: interleukin 21, IL-21, mAb, human Ig transgenic mice, autoimmunity     

Production and characterization of two monoclonal antibodies against human myeloperoxidase

Two monoclonal antibodies against human myeloperoxidase, designated 3-2H3 and 4-2C11, were produced and characterized. Both bound to the native enzyme, but neither bound to the denatured enzyme or to its two denatured subunits. 4-2C11 bound to the three types of leukocyte myeloperoxidase, I, II, and III, as well as to the four types of myeloid leukemia HL-60 cell myeloperoxidase, IA, IB, II, and III. 3-2H3 did not bind to enzyme IB, but bound to the other types of leukocyte and HL-60 cell enzymes. On incubation with myeloperoxidase III, 4-2C11 inhibited the enzyme activity, but 3-2H3 did not. Both antibodies belong to the IgG1 subclass.     

Generation and characterization of human anti-human IL-21 neutralizing monoclonal antibodies

Interleukin-21 (IL-21) is a type I four-helical bundle cytokine that exerts a variety of significant effects on many hematopoietic cells, including T and B lymphocytes and natural killer cells. IL-21 is produced predominantly by CD4+ T cells and natural killer T cells and, when aberrantly overexpressed, appears to play important roles in a wide variety of autoimmune disorders. To generate potential therapeutic reagents capable of inhibiting IL-21 for clinical use, we immunized human immunoglobulin transgenic mice with IL-21 and then identified and cloned a panel of human anti-human IL-21 binding monoclonal antibodies. IL-21 neutralizing and IL-21-binding, non-neutralizing antibodies were assigned to distinct epitope “bins” based on surface plasmon resonance competition studies. The most potent neutralizing antibodies had extremely high (sub pM) affinity for IL-21 and were able to block IL-21 activity in various biological assays using either an IL-21R-transfected pre-B-cell line or primary human B cells, and their neutralizing activity was, in some cases, superior to that of a soluble form of the high affinity heterodimeric IL-21 receptor. Characterization of this panel of IL-21 antibodies provided the basis for the selection of a therapeutic candidate antibody capable of inhibiting IL-21 activity for the treatment of autoimmune and inflammatory diseases.     

Generation and characterization of monoclonal antibodies specific for the human IFN-gamma receptor

Purified preparations of the human IFN-gamma R derived from placental membranes were used to produce receptor-specific murine mAb. Supernatants from growth-positive wells were screened for their ability to block binding of 125I-IFN-gamma to human placental membranes. Ten inhibitory cultures were identified. Two of these (GIR-208 and GIR-301) abrogated all binding of radioligand to either intact placental membranes or soluble, purified IFN-gamma R. Three others (GIR-72, 76 and 94) showed moderate blocking activity (65, 59, and 49%, respectively) whereas the remaining five (GIR-57, 67, 83, 109, and 153) blocked binding to a low but significant extent (20 to 40%). Specificity experiments demonstrated that the antibodies reacted with the receptor and not the ligand (IFN-gamma). None of the antibodies reacted with IFN-gamma by ELISA. Moreover, GIR-208 and GIR-301, but not isotype-matched controls, identified the receptor by Western blot analysis. GIR-208 and GIR-301 also completely abrogated binding of 125I-IFN-gamma to either mononuclear phagocytes (U937) or human fibroblasts (WISH). Competition experiments revealed that GIR-208 and GIR-301 recognized similar epitopes on the IFN-gamma R and that these (or this) epitopes were identical to or linked to the ligand binding site of the receptor. In addition, both antibodies inhibited development of IFN-gamma-dependent anti-viral activity in WISH cells in a dose-dependent fashion. These data thus indicate that the IFN-gamma R expressed on human placental cells, mononuclear phagocytes, and fibroblasts are similar.     

Generation of a highly diverse panel of antagonistic chicken monoclonal antibodies against the GIP receptor

Raising functional antibodies against G protein-coupled receptors (GPCRs) is challenging due to their low density expression, instability in the absence of the cell membrane's lipid bilayer and frequently short extracellular domains that can serve as antigens. In addition, a particular therapeutic concept may require an antibody to not just bind the receptor, but also act as a functional receptor agonist or antagonist. Antagonizing the glucose-dependent insulinotropic polypeptide (GIP) receptor may open up new therapeutic modalities in the treatment of diabetes and obesity. As such, a panel of monoclonal antagonistic antibodies would be a useful tool for in vitro and in vivo proof of concept studies. The receptor is highly conserved between rodents and humans, which has contributed to previous mouse and rat immunization campaigns generating very few usable antibodies. Switching the immunization host to chicken, which is phylogenetically distant from mammals, enabled the generation of a large and diverse panel of monoclonal antibodies containing 172 unique sequences. Three-quarters of all chicken-derived antibodies were functional antagonists, exhibited high-affinities to the receptor extracellular domain and sampled a broad epitope repertoire. For difficult targets, including GPCRs such as GIPR, chickens are emerging as valuable immunization hosts for therapeutic antibody discovery.     

Production and characterization of monoclonal antibodies against aflatoxin M1.

By using an indirect enzyme-linked immunosorbent assay, four monoclonal antibodies were selected after fusion of mouse P3-NS1-Ag4-1 myeloma cells with spleen cells isolated from BALB/c mice that had been immunized with aflatoxin M1 (AFM1) conjugated to bovine serum albumin. Two of these antibodies were found to be specific for AFM1 and were designated AMW-1 and AMW-4. The specificities of AMW-1, which had higher affinity to AFM1, were determined by a competitive direct enzyme-linked immunosorbent assay with peroxidase-AFM1 as the marker. The relative cross-reactivity of each toxin (relative to AFM1) with AMW-1, as determined by the amount of aflatoxin necessary to cause 50% inhibition of enzyme activity, was 12, greater than 40, 12, and greater than 40 for B1, B2, G1, and G2, respectively.     

Selection and characterization of human monoclonal antibodies against Abrin by phage display

Abrin is a highly potent and lethal type II ribosome inactivating toxin that may be used as a biological warfare agent. To date, no human anti-Abrin antibodies have yet to be reported. Herein, we describe the selection and characterization of two human monoclonal antibodies, termed E12 and RF12, which are capable of binding native Abrin with high affinity and specificity. Through surface plasmon resonance studies, we have determined the association and dissociation rate constants and the cross-reactivity for both antibodies. In our developed Biacore-based Abrin detection system, the limit of detection of antibodies E12 and RF12 is 35 and 75 ng/mL, respectively. These concentrations are about 5 x 10(4)-fold lower than the extrapolated Abrin human LD(50). In sum, our data demonstrated the power of human antibody phage display libraries and the promise of these antibodies as detection devices for Abrin.     

Production and characterization of monoclonal antibodies against human type K pyruvate kinase

K-type pyruvate kinase was purified from human kidney by immunoadsorbant chromatography. Monoclonal antibodies secreting hybridomas were made using conventional techniques. Two clones were established which produced antibodies against K-type not cross-reacting with the other pyruvate kinase isoenzymes, named the M, L and R-types. The specificity of the monoclonal antibodies was proven by enzyme-linked immunosorbent assay, immunoprecipitation and immunoblotting experiments. The M- and K-isoenzymes are produced from the same gene probably by alternative splicing, and all differences between both enzymes originate from one exon coding for 45 amino acids (Noguchi et al. J. Biol. Chem. 261, 13807-13812 (1986]. The monoclonal antibodies are specific for K-type under denaturing conditions. Thus, it is likely that these antibodies recognize (a) continuous epitope(s), of which at least some amino acids are coded in the K-specific exon. The monoclonal antibodies could be successfully used in immunohistochemical studies. Neurons and astrocytes in brain, Kupffer cells in liver, connective tissue cells and vascular smooth muscle cells showed immunoreactivity. However, striated muscle cells in skeletal muscle and heart and hepatocytes were not immunoreactive. Other types of glial cells, e.g., oligodendrocytes and microglia, so far studied, showed no reaction either.     

Proteomics-based generation and characterization of monoclonal antibodies against human liver mitochondrial proteins

Monoclonal antibodies (mAbs) have the potential to be a very powerful tool in proteomics research to determine protein expression, quantification, localization and modification, as well as protein-protein interactions, especially when combined with microarray technology. Thus, a large amount of well-characterized and highly qualified antibodies are needed in proteomics. Purified antigen, which is not always available, has proven to be one of the rate-limiting steps in mAb large-scale generation. Here we describe our strategies to establish a murine hybridoma cell bank for human liver mitochondria using unknown native proteins as the immunogens. The antibody-recognized mitochondrial proteins were identified by MS following immunoprecipitation (IP), and by screening of human liver cDNA expression library. We found that the established antibodies reacted specifically with a number of important enzymes in mitochondria. The subcellular localization of these antigens in mitochondria was further confirmed by immunohistocytochemistry. A panel of antibodies was also tested for their ability to capture and deplete the targeting proteins and complexes from the total mitochondrial proteins. We believe these well-characterized antibodies would be useful in various applications for Human Liver Proteome Project (HLPP) when the scale of this hybridoma cell bank is enlarged significantly in the near future.     

Generation and characterization of monoclonal antibodies to adenovirus.

Monoclonal antibodies (MoAbs) were generated following immunization of Balb/C mice with adenovirus type 5 grown in Hep2 cell line. Six clones reactive to hexon antigen of the virus were stabilized, of which 4 had mu-heavy chain specificity and 2 were of gamma-heavy chain type. Three of the clones (ADV-1, ADV-3 and ADV-5) had a high ELISA reactivity to the hexon antigen but exhibited differential specificity to the adenovirus types tested. In Western blotting, ADV-1 and ADV-3 reacted with all the adenovirus types tested (types 3,4,5,7 and 8) with reactions at 116 kDa region (hexon antigen), in addition, ADV-3 also had reactivity at 80 kDa region, the penton antigen. Reactivity to these adenoviral types by the 2 MoAbs was demonstrable by dot ELISA. ADV-5 had a type specific reaction only to adenovirus type 5 in dot ELISA with specificity in the hexon region in Western blotting. The reactivity of these 3 clones was not observed to the normal Hep2 tissue culture antigens and to the 3 enteroviruses tested (polio, coxsackie A9 and echo 4).