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ABSTRACT: Influenza A viruses are classified into 16 subtypes according to the serotypes of hemagglutinin (HA). It is generally thought that neutralizing antibodies (Abs) are not broadly cross-reactive among HA subtypes. We examined the repertoire of neutralizing Abs against influenza viruses in humans. B lymphocytes were collected from donors by apheresis, and Ab libraries were constructed by using phage-display technology. Anti-HA clones were isolated by screening with H3N2 viruses. Their binding activity was examined, and four kinds of Abs showing broad strain specificity were identified from one donor. Two of the Abs, F045-092 and F026-427, were extensively analyzed. They neutralized not only H3N2 but also H1N1, H2N2, and H5N1 viruses, although the activities were largely varied. Flow cytometry suggested that they have the ability to bind to HA and HA1 artificially expressed on the cell surface. They show hemagglutination inhibition activity and do not compete with C179, an Ab thought to bind to the stalk region. F045-092 competes with Abs that recognize sites A and B for binding to HA. Furthermore, the serine at residue 136 in site A could be a part of the epitope. Thus, it is likely that F045-092 and F026-427 bind to a conserved epitope in the head region formed by HA1. Interestingly, while the V(H)1-69 gene can encode MAbs against the HA stem that are group 1 specific, F045-092 and its relatives that recognize the head region also use V(H)1-69. The possible epitope recognized by these clones is discussed.
Journal of Virology 08/2011; 85(21):11048-57. · 5.40 Impact Factor
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Jun Okada,
Nobuko Ohshima,
Ritsuko Kubota-Koketsu, Yoshitaka Iba,
Sayuri Ota,
Wakana Takase,
Tetsushi Yoshikawa,
Toyokazu Ishikawa,
Yoshizo Asano,
Yoshinobu Okuno,
Yoshikazu Kurosawa
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ABSTRACT: Through extensive isolation of neutralizing mAbs against H3N2 influenza viruses representing the in vivo repertoire in a human donor, we examined the relationships between antigenic drift of influenza virus and protective antibodies generated in an infected individual. The majority of mAbs isolated from a donor born in 1960 were divided into three major groups with distinct strain specificity: 1968-1973, 1977-1993 and 1997-2003. In the present study, we developed a new method that allowed us to comprehensively determine the location of epitopes recognized by many mAbs. Original haemagglutinins (HAs) of several strains and chimaeric variants, in which one of the seven sites (A, B1, B2, C1, C2, D or E) was replaced by some other strain-derived sequence, were artificially expressed on the cell surface. The binding activity of mAbs to the HAs was examined by flow cytometry. By using this method, we determined the location of epitopes recognized by 98 different mAbs. Clones that neutralize the 1968-1973 strains bind to site B2/D, A or A/B1. While sites C, E and B were recognized by clones that neutralized the 1977-1993 strains, the majority of these clones bind to site C. Clones that neutralize the 1997-2003 strains bind to site B, A/B1, A/B2 or E/C2.
Journal of General Virology 11/2010; 92(Pt 2):326-35. · 3.36 Impact Factor
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Gene Kurosawa,
Mariko Sumitomo,
Yasushi Akahori,
Kazuki Matsuda,
Chiho Muramatsu,
Akihiko Takasaki, Yoshitaka Iba,
Keiko Eguchi,
Miho Tanaka,
Kazuhiro Suzuki,
Miwa Morita,
Noriko Sato,
Mototaka Sugiura,
Atsushi Sugioka,
Nobuhiro Hayashi,
Yoshikazu Kurosawa
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ABSTRACT: In order to isolate monoclonal antibodies (mAbs) that bind to tumor-associated antigens (Ags) we developed the following strategy. Using the phage-display Ab library we isolated a large number of mAbs that bind to the surface of human tumor cells. The mAbs were individually screened by immunostaining, and clones that preferentially and strongly stained the malignant cells were chosen. Thereafter, the Ags recognized by the mAbs were identified. For identification of the Ags by MS candidate molecules had to be purified either by immunoprecipitation or by affinity chromatography. We isolated several hundred mAbs that showed cancer-specific staining patterns. In order to identify the Ags that were recognized by the numerous mAbs within a short time we developed two methods. Using the GFC [grouping of clones by flow cytometry (FCM)] method many Abs could be grouped by comparing the staining patterns of FCM. Members in each group turned out to bind to the same molecule in many cases. After a candidate Ag was revealed, the polypeptide corresponding to its extracellular portion was prepared and used for identification of clones that bound to the Ag among all the mAbs by SITE (simultaneous identification of clones through three dimensional ELISA) method. Both methods can be generally applicable to various kinds of membrane proteins and the mAbs against them.
Journal of immunological methods 09/2009; 351(1-2):1-12. · 2.35 Impact Factor
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ABSTRACT: Human antibodies specific for HCMV are currently considered as potential anti-HCMV therapeutic agents. In this study, we used a combinatorial human antibody library to isolate and characterize complete human monoclonal antibodies that effectively neutralize HCMV in a complement-dependent manner. One hundred and six clones were isolated in two independent screens using HCMV virions and recombinant glycoprotein B, gB654, as antigens. All of the clones recognized the same molecule gB and were classified into 14 groups based on the amino acid sequence of the V(H) region. Seven representative clones from these 14 groups had a strong gB654 binding affinity by surface plasmon resonance (SPR). A pairwise binding competition analysis suggested that there were three groups based on differences in the gB recognition sites. Although Fab fragments of the seven groups showed strong affinity for gB, none of the Fab fragments neutralized HCMV infectivity in vitro. In contrast, complete human IgG(1) antibodies of at least three groups neutralized HCMV in a complement-dependent manner. These data suggest that potent therapeutic antibodies can be obtained from a human antibody library, including most of the functional antibodies that mediate humoral immunity to the selected pathogen.
Microbes and Infection 08/2009; 11(13):1029-36. · 3.10 Impact Factor
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Yuka Kitamura,
Gene Kurosawa,
Miho Tanaka,
Mariko Sumitomo,
Chiho Muramatsu,
Keiko Eguchi,
Yasushi Akahori, Yoshitaka Iba,
Hiroyuki Tsuda,
Mototaka Sugiura,
Yoshinobu Hattori,
Yoshikazu Kurosawa
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ABSTRACT: We reported comprehensive screening for antigens (Ags) overexpressed on various carcinomas via isolation of human monoclonal antibodies (mAbs) that may be therapeutic in a previous paper (Proc. Natl. Acad. Sci. USA 105, 7287-7292, 2008). Twenty-one distinct Ags highly expressed on several carcinomas were identified and 356 mAbs with unique sequences turned out to bind to one of the 21 Ags. Among them CADM1/IGSF4 which had been originally referred to as tumor suppressor lung cancer 1 (TSLC1) was included. Therefore we examined the expression of CADM1 in lung cancers in this study. Eight different anti CADM1 mAbs were used for immunohistochemical analysis of 29 fresh lung cancer specimens. Staining patterns were categorized to six groups based on the extent of positive staining and the localization of stained portions. While overexpression of CADM1 was observed on the cell surface of adenocarcinomas at a high frequency, around 60%, positive stainings were rarely observed on that of other lung carcinomas including squamous cell carcinomas. Moreover, some clones among the eight mAbs gave different staining patterns from those by the other clones against the same fresh specimen, suggesting presence of variant forms of CADM1 differentiated by mAbs.
Biochemical and Biophysical Research Communications 05/2009; 383(4):480-4. · 2.48 Impact Factor
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Yasushi Akahori,
Gene Kurosawa,
Mariko Sumitomo,
Miwa Morita,
Chiho Muramatsu,
Keiko Eguchi,
Miho Tanaka,
Kazuhiro Suzuki,
Mototaka Sugiura, Yoshitaka Iba,
Atsushi Sugioka,
Yoshikazu Kurosawa
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ABSTRACT: We developed a method termed ICOS (isolation of antigen-antibody complexes through organic solvent) for comprehensive isolation of monoclonal antibodies (mAbs) bound to molecules on the cell surface. By mixing a large number of phage particles of an antibody (Ab) library with living cells, antigen (Ag)-Ab complexes were formed on the cell surface. The mixture was overlaid on organic solution in a tube and subjected to centrifugation. Phages bound to cells were recovered from the precipitate. The phage fraction isolated turned out to contain mAbs that bind to very heterogeneous epitopes and show strong binding activity to Ags. The ICOS method was applied to isolation of human mAbs that may be therapeutic against cancers. Sixty percent of clones isolated by the screening of a phage Ab library against cancer cells turned out to bind to various kinds of tumor-associated Ags. The precise protocol of ICOS method and the rationale of efficient screening were described.
Biochemical and Biophysical Research Communications 01/2009; 378(4):832-5. · 2.48 Impact Factor
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Gene Kurosawa,
Yasushi Akahori,
Miwa Morita,
Mariko Sumitomo,
Noriko Sato,
Chiho Muramatsu,
Keiko Eguchi,
Kazuki Matsuda,
Akihiko Takasaki,
Miho Tanaka, [......],
Mikihiro Shamoto,
Hiroyuki Tsuda,
Mototaka Sugiura,
Yoshinobu Hattori,
Shuichi Miyakawa,
Ryoichi Shiroki,
Kiyotaka Hoshinaga,
Nobuhiro Hayashi,
Atsushi Sugioka,
Yoshikazu Kurosawa
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ABSTRACT: Although several murine mAbs that have been humanized became useful therapeutic agents against a few malignancies, therapeutic Abs are not yet available for the majority of the human cancers because of our lack of knowledge of which antigens (Ags) can become useful targets. In the present study we established a procedure for comprehensive identification of such Ags through the extensive isolation of human mAbs that may become therapeutic. Using the phage-display Ab library we isolated a large number of human mAbs that bind to the surface of tumor cells. They were individually screened by immunostaining, and clones that preferentially and strongly stained the malignant cells were chosen. The Ags recognized by those clones were isolated by immunoprecipitation and identified by MS. We isolated 2,114 mAbs with unique sequences and identified 21 distinct Ags highly expressed on several carcinomas. Of those 2,114 mAbs 356 bound specifically to one of the 21 Ags. After preparing complete IgG(1) Abs the in vitro assay for Ab-dependent cell-mediated cytotoxicity (ADCC) and the in vivo assay in cancer-bearing athymic mice were performed to examine antitumor activity. The mAbs converted to IgG(1) revealed effective ADCC as well as antitumor activity in vivo. Because half of the 21 Ags showed distinct tumor-specific expression pattern and the mAbs isolated showed various characteristics with strong affinity to the Ag, it is likely that some of the Ags detected will become useful targets for the corresponding carcinoma therapy and that several mAbs will become therapeutic agents.
Proceedings of the National Academy of Sciences 06/2008; 105(20):7287-92. · 9.68 Impact Factor
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ABSTRACT: We isolated a human monoclonal antibody against diphtheria toxin (DT). It bound to fragment B with a binding activity (Kd) of 3.01 nM. The neutralizing activity assayed by the rabbit skin test was estimated to be 73,600 IU/g. This could be used as a therapeutic drug against DT in place of the traditional equine sera.
Infection and Immunity 07/2006; 74(6):3682-3. · 4.16 Impact Factor
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ABSTRACT: A human antibody library constructed by utilizing a phage display system was used for the isolation of human antibodies with neutralizing activity specific for human rotavirus. In the library, the Fab form of an antibody fused to truncated cp3 is expressed on the phage surface. Purified virions of strain KU (G1 serotype and P[8] genotype) were used as antigen. Twelve different clones were isolated. Based on their amino acid sequences, they were classified into three groups. Three representative clones-1-2H, 2-3E, and 2-11G-were characterized. Enzyme-linked immunosorbent assay with virus-like particles (VLP-VP2/6 and VLP-VP2/6/7) and recombinant VP4 protein produced from baculovirus recombinants indicated that 1-2H and 2-3E bind to VP4 and that 2-11G binds to VP7. The neutralization epitope recognized by each of the three human antibodies might be human specific, since all of the antigenic mutants resistant to mouse monoclonal neutralizing antibodies previously prepared were neutralized by the human antibodies obtained here. After conversion from the Fab form of an antibody into immunoglobulin G1, the neutralizing activities of these three clones toward various human rotavirus strains were examined. The 1-2H antibody exhibited neutralizing activity toward human rotaviruses with either the P[4] or P[8] genotype. Similarly, the 2-3E antibody showed cross-reactivity against HRVs with the P[6], as well as the P[8] genotype. In contrast, the 2-11G antibody neutralized only human rotaviruses with the G1 serotype. The concentration of antibodies required for 50% neutralization ranged from 0.8 to 20 micro g/ml.
Journal of Virology 05/2004; 78(7):3325-32. · 5.40 Impact Factor
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ABSTRACT: The 29-kDa FK506 binding protein (FKBP) gene is the only peptidyl-prolyl cis-trans isomerase (PPIase) gene in the genome of Pyrococcus horikoshii. We characterized the function of this FKBP (PhFKBP29) and used it to increase the production yield of soluble recombinant protein in Escherichia coli. The PPIase activity (k(cat)/K(m)) of PhFKBP29 was found to be much lower than that of other archaeal 16- to 18-kDa FKBPs by a chymotrypsin-coupled assay of the oligo-peptidyl substrate at 15 degrees C. Besides this low PPIase activity, PhFKBP29 showed chaperone-like protein folding activity which enhanced the refolding yield of chemically unfolded rhodanese in vitro. In addition, it suppressed thermal protein aggregation in a temperature range of 45 to 100 degrees C. When the PhFKBP29 gene was coexpressed with the recombinant Fab fragment gene of the anti-hen egg lysozyme antibody in the cytoplasm of E. coli, whose expressed product tended to form an inactive aggregate in E. coli, it improved the yield of the soluble Fab fragments with antibody specificity. PhFKBP29 exerted protein folding and aggregation suppression in E. coli cells.
Applied and Environmental Microbiology 03/2002; 68(2):464-9. · 3.83 Impact Factor
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Methods in molecular biology (Clifton, N.J.) 02/2002; 178:259-67.
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ABSTRACT: We developed a system by which antibodies, fused to fluorescent proteins with different wavelengths, can be prepared within a month against various antigens. An antibody library composed of a large number of single-chain Fv–Cl fragment was constructed by means of a phage-display system. The constructs were designed to facilitate changing of the protein forms by simple enzyme manipulation. In the present study, we adopted a molecular form of antibody in which a single-chain Fv–Cl fragment is fused with a green fluorescent protein (GFP) or red fluorescent protein (RFP). In addition, a His-tag was inserted between Cl and GFP (or RFP). We describe the utility of this system using Caenorhabditis elegans embryo as a model.
Journal of Immunological Methods 12/2001; · 2.20 Impact Factor
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ABSTRACT: We prepared three kinds of phagemid vector that permit the simultaneous introduction of highly diverged sequences into six complementarity-determining regions (CDRs) of an antibody (Ab) by the polymerase chain reaction (PCR) with degenerate oligodeoxynucleotide (oligo) primers. The phages expressed either the Fv, single-chain Fv (sc Fv) or Fab form of an Ab fused with a half-molecule of cpIII on the surface of M13 phage. A phage-display library, composed of 2 × 108 independent clones, was constructed; the phages that were specific for hen egg-white lysozyme (HEL) were selected by three rounds of panning; and 20 clones were isolated. The isolated clones consisted of 17 different clones. Among them, 16 clones expressed proteins that were able to bind to HEL. The association constants for binding of the encoded proteins to HEL ranged from 1.48 × 106 to 7.71 × 106/M. These vectors allowed us to prepare many libraries of artificial Ab in which the sequences of six CDRs were very different and reflected the artificial sequences that had been designed for the degenerate oligo that we used as primers for PCR. The libraries should be also useful for the analysis of relationships between the sequences of the CDRs and antigen (Ag) specificity.
Gene.
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Jun Okada,
Nobuko Ohshima,
Ritsuko Kubota-Koketsu,
Sayuri Ota,
Wakana Takase,
Masachika Azuma, Yoshitaka Iba,
Naoko Nakagawa,
Tetsushi Yoshikawa,
Youichi Nakajima,
Toyokazu Ishikawa,
Yoshizo Asano,
Yoshinobu Okuno,
Yoshikazu Kurosawa
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ABSTRACT: We tried to reveal the strain specificity of neutralizing mAbs against H3N2 influenza viruses in individuals. A large number of B lymphocytes of a pediatrician were collected by apheresis and two Ab libraries were constructed at 2004 and 2007 by using the phage-display technology. The libraries were screened against 12 different H3 strains of flu isolated between 1968 and 2004. Large numbers of clones that bound to the Ags were isolated and mAbs that specifically bound to H3 strain viruses were selected. Their binding activity to the 12 strains and neutralizing activity were studied by ELISA and focus reduction test, respectively. Furthermore, the binding activity to hemagglutinin (HA) was examined by Western blot. The majority of clones showing the neutralizing activity turned out to be anti-HA mAbs and could be divided into three major groups showing distinct strain specificity: 1968–1973, 1977–1993 and 1997–2003.
Virology.
