Naoko Fujimoto scite author profile

The ultimate goal of catalytic antibody research is to develop new patient therapies that use the advantages offered by human catalytic antibodies. The establishment of a high-throughput method for obtaining valuable candidate catalytic antibodies must be accelerated to achieve this objective. In this study, based on our concept that we can find antibody light chains with a high probability of success if they include a serine protease-like catalytic triad composed of Ser, His, and Asp on a variable region of the antibody structure, we amplified and cloned DNAs encoding human antibody light chains from germline genes of subgroup II by seminested PCR using two primer sets designed for this purpose. Seven DNA fragments encoding light chains in 17 clones were derived from germline gene A18b, 6 DNA fragments from A3/A19, 2 DNA fragments from A17, and a clone DNA fragment from A5 and O11/O1. All light chains expressed in Escherichia coli and highly purified under nondenaturing conditions exhibited amidolytic activity against synthetic peptides. Some of the light chains exhibited unique features that suppressed the infectious activity of the rabies virus. Furthermore, the survival rate of mice in which a lethal level of the rabies virus was coinoculated directly into the brain with light chain 18 was significantly improved. In the case of humans, these results demonstrate that high-throughput selection of light chains possessing catalytic functions and specificity for a target molecule can be attained from a light-chain DNA library amplified from germline genes belonging to subgroup II.

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Biochemical Features of a Catalytic Antibody Light Chain, 22F6, Prepared from Human Lymphocytes

Hifumi

Fujimoto

Arakawa

et al. 2013

Journal of Biological Chemistry

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Background: We explored catalytic antibodies applicable to patients.Results: A human light chain (22F6) possessing both amidase and nuclease activities and preventing infection of influenza virus was obtained.Conclusion: The 22F6 light chain holds a huge potential as a new drug for patient therapies in the future.Significance: The procedure developed in this study is highly noteworthy for developing new drugs.

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Catalytic and Biochemical Features of a Monoclonal Antibody Heavy Chain, JN1-2, Raised against a Synthetic Peptide with a Hemagglutinin Molecule of Influenza Virus

Hifumi

Takao²,

Fujimoto

et al. 2011

J. Am. Chem. Soc.

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It has long been an important issue to produce a catalytic antibody that possesses the ability to lose the infectivity of a bacteria or virus. The monoclonal antibody JN1-2 was generated using a synthetic peptide (TGLRNGITNKVNSVIEKAA) conjugated with human IgG. The peptide sequence includes the conserved region of the hemagglutinin molecule (HA(1) and HA(2) domains), which locates on the envelope of the influenza virus and plays an important role in influenza A virus infection. The monoclonal antibody specifically reacted with the HA2 domain, not only of H2 but also of an H1 strain of the H1N1 subtype (H1 strain). The heavy chain (JN1-2-H) isolated from the parent antibody showed catalytic activity cleaving the above antigenic peptide with very high turnover (kcat = 26 min(-1)), and it could slowly degrade the recombinant HA(2) domain by the catalytic function. Interestingly, the heavy chain exhibited the ability to reduce the infectivity of type A H1N1 but not type B, indicating specificity to type A. This characteristic monoclonal catalytic antibody heavy chain could suppress the infection of the influenza virus in vitro assays.

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Characteristic features of InfA-15 monoclonal antibody recognizing H1, H3, and H5 subtypes of hemagglutinin of influenza virus A type

Hifumi

Fujimoto

Ishida

et al. 2010

Journal of Bioscience and Bioengineering

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Naoko Fujimoto

Highly efficient method of preparing human catalytic antibody light chains and their biological characteristics

Biochemical Features of a Catalytic Antibody Light Chain, 22F6, Prepared from Human Lymphocytes

Catalytic and Biochemical Features of a Monoclonal Antibody Heavy Chain, JN1-2, Raised against a Synthetic Peptide with a Hemagglutinin Molecule of Influenza Virus

Characteristic features of InfA-15 monoclonal antibody recognizing H1, H3, and H5 subtypes of hemagglutinin of influenza virus A type

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