Publications by authors named "Tatsuhiko Ozawa"

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  • The MR1 molecule is a specialized antigen presenter that interacts with T cells, particularly mucosal-associated invariant T (MAIT) cells, by presenting various metabolites.
  • Researchers discovered distinct MR1-restricted T cell receptors (TCRs) in tumor-infiltrating lymphocytes from breast cancer patients, which responded specifically to certain breast cancer cell lines but not others.
  • The study indicates that these TCRs can recognize antigens in breast cancer without being affected by a known MR1 ligand antagonist, suggesting a unique interaction that relies on a specific residue of MR1 (K43).
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  • The study focuses on the importance of measuring hepatitis B surface antigen (HBsAg) for the management of chronic hepatitis B virus infection (CHB) and examines preS1 protein expression in patients.
  • Researchers used seven monoclonal antibodies to analyze preS1 from various hepatitis B genotypes, discovering that the epitopes crucial for recognition are largely located in the aa33-47 region.
  • Findings indicate that preS1 expression remains stable across different HBsAg levels and genotypes, emphasizing its potential as a therapeutic target in treating CHB.
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Since its discovery over three decades ago, signal transducer and activator of transcription 1 (STAT1) has been extensively studied as a central mediator for interferons (IFNs) signaling and antiviral defense. Here, using genetic and biochemical assays, we unveil Thr as a conserved IFN-independent phosphorylation switch in Stat1, which restricts IFN signaling and promotes innate inflammatory responses following the recognition of the bacterial-derived toxin lipopolysaccharide (LPS). Genetically engineered mice expressing phospho-deficient threonine748-to-alanine (T748A) mutant Stat1 are resistant to LPS-induced lethality.

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  • SARS-CoV-2 is known for its rapid mutations, which allow it to evade neutralizing antibodies, a challenge highlighted by the reduced effectiveness of the antibody UT28K against the Omicron BA.1 variant.
  • Researchers designed a modified version called UT28K-RD, targeting specific mutations to restore its neutralizing capability against Omicron BA.1, and validated its effectiveness through various lab experiments.
  • The study showcases the successful design of antibodies tailored to combat viral mutations and suggests a promising direction for developing new treatments for highly mutable viruses like SARS-CoV-2.
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The VNAR (Variable New Antigen Receptor) is the smallest single-domain antibody derived from the variable domain of IgNAR of cartilaginous fishes. Despite its biomedical and diagnostic potential, research on VNAR has been limited due to the difficulties in obtaining and maintaining immune animals and the lack of research tools. In this study, we investigated the Japanese topeshark as a promising immune animal for the development of VNAR.

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Chimeric-antigen-receptor (CAR) T-cell therapy for CD19-expressing B-cell malignancies is already widely adopted in clinical practice. On the other hand, the development of CAR-T-cell therapy for T-cell malignancies is in its nascent stage. One of the potential targets is CD26, to which we have developed and evaluated the efficacy and safety of the humanized monoclonal antibody YS110.

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  • Polypeptide tags and biotin labelling are commonly used in biochemistry, but many contain lysine residues that can interfere with analysis after biotinylation.
  • The GATS tag system, developed using a rabbit monoclonal antibody, features a lysine-free epitope which demonstrates high sensitivity and low non-specific binding.
  • The GATS tag outperforms traditional systems in immunoblotting, immunoprecipitation, and biotin labelling methods, demonstrating suitability for studies that require precise protein analysis without the complications of lysine residues.
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DPP8/9 inhibition induces either pyroptotic or apoptotic cell death in hematological malignancies. We previously reported that treatment with the DPP8/9 inhibitor 1G244 resulted in apoptotic cell death in myeloma, and our current study further evaluates the mechanism of action of 1G244 in different blood cancer cell lines. Specifically, 1G244 inhibited DPP9 to induce GSDMD-mediated-pyroptosis at low concentrations and inhibited DPP8 to cause caspase-3-mediated-apoptosis at high concentrations.

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Objectives: The variable region of most ACPA IgG molecules in the serum of RA patients carries N-glycan (N-glycanV). To analyse the pathogenicity of N-glycanV of ACPAs, we analysed the pathogenicity of a monoclonal ACPA, CCP-Ab1, with or without N-glycanV, which had been isolated from a patient with RA.

Methods: CCP-Ab1 with no N-glycosylation site in the variable region (CCP-Ab1 N-rev) was generated, and antigen binding, the effect on in vitro differentiation of osteoclasts from bone marrow mononuclear cells of autoimmune arthritis-prone SKG mice (the cell size of TRAP+ cells and bone resorption capacity) and the in vivo effect on the onset or exacerbation of autoimmune arthritis in SKG mice were evaluated in comparison with glycosylated CCP-Ab1.

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Autoimmune coagulation factor XIII (FXIII) deficiency (AiF13D) is a bleeding disorder caused by anti-FXIII autoantibodies. Recently, we generated human monoclonal antibodies (mAbs) from the peripheral blood of an AiF13D patient and classified them into three groups: FXIII-dissociation inhibitor, FXIII-assembly inhibitor, and non-neutralizing/inhibitory mAbs. However, the epitope region and molecular inhibitory mechanism of each mAb remain unknown.

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The segmented RNA genome of influenza A viruses (IAVs) enables viral evolution through genetic reassortment after multiple IAVs coinfect the same cell, leading to viruses harboring combinations of eight genomic segments from distinct parental viruses. Existing data indicate that reassortant genotypes are not equiprobable; however, the low throughput of available virology techniques does not allow quantitative analysis. Here, we have developed a high-throughput single-cell droplet microfluidic system allowing encapsulation of IAV-infected cells, each cell being infected by a single progeny virion resulting from a coinfection process.

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Background: Coagulation factor XIII (FXIII) consists of 2 A (FXIII-A) and 2 B (FXIII-B) subunits that cross-link and strengthen the hemostatic fibrin thrombus; thus, abnormal bleeding occurs when FXIII is significantly reduced. Autoimmune-acquired FXIII deficiency (AiF13D) is characterized by lethal bleeding secondary to the development of autoantibodies against FXIII. However, since anti-FXIII autoantibodies are polyclonal, the mechanism underlying FXIII dysfunction is unclear.

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T cell receptor-engineered T cell (TCR-T) therapy is anticipated as a next generation-immunotherapy for cancer and recent advances of TCR isolation technology have enabled patient's T cells to express TCRs recognizing multiple combinations of specific peptides and human leukocyte antigens (HLA). However, evaluation processes for the TCR-induced cytotoxicity activity using primary T cells are laborious and time-consuming. In this study, we established a cell line that do not express endogenous TCRs, enabling to generate large numbers of homogeneous cells, and can measure the cytotoxic activity of the isolated TCRs.

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The phenotypic changes in hematopoietic stem progenitor cells (HSPCs) with somatic mutations of malignancy-related genes in patients with acquired aplastic anemia (AA) are poorly understood. As our initial study showed increased CXCR4 expression on HLA allele-lacking (HLA[-]) HSPCs that solely support hematopoiesis in comparison to redundant HLA(+) HSPCs in AA patients, we screened the HSPCs of patients with various types of bone marrow (BM) failure to investigate their CXCR4 expression. In comparison to healthy individuals ( = 15, 12.

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T-cell receptor (TCR)-like Abs that specifically recognize antigenic peptides presented on MHC molecules have been developed for next-generation cancer immunotherapy. Recently, we reported a rapid and efficient method to generate TCR-like Abs using a rabbit system. We humanized previously generated rabbit-derived TCR-like Abs reacting Epstein-Barr virus peptide (BRLF1p, TYPVLEEMF) in the context of HLA-A24 molecules, produced chimeric antigen receptor (CAR)-T cells, and evaluated their antitumor effects using in vitro and in vivo tumor models.

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Article Synopsis
  • Researchers have developed many effective antibodies for treating SARS-CoV-2, but their effectiveness is declining against new variants like Omicron.* -
  • A particular antibody, UT28K, was found in individuals who recovered from severe COVID-19 and has shown strong neutralizing effects against the virus, even though its efficacy against Omicron is somewhat limited.* -
  • Structural studies suggest that UT28K binds effectively to the virus, and it's unlikely that a resistant variant of SARS-CoV-2 will emerge that could outcompete existing strains.*
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To determine whether antigen presentation by HLA-DR on hematopoietic stem progenitor cells (HSPCs) is involved in the development of acquired aplastic anemia (AA), we studied the HLA-DR expression on CD45CD34CD38 cells in the peripheral blood of 61 AA patients including 23 patients possessing HLA-class I allele-lacking (HLA-class I[-]) leukocytes. HLA-DR-lacking (DR[-]) cells accounted for 13.0-57.

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It is commonly understood that T cells are activated via trans interactions between antigen-specific T-cell receptors (TCRs) and antigenic peptides presented on major histocompatibility complex (MHC) molecules on antigen-presenting cells. By analysing a large number of T cells at the single-cell level on a microwell array, we show that T-cell activation can occur via cis interactions (where TCRs on the T cell interact with the antigenic peptides presented on MHC class-I molecules on the same cell), and that such cis activation can be used to detect antigen-specific T cells and clone their TCR within 4 d. We used the detection-and-cloning system to clone a tumour-antigen-specific TCR from peripheral blood mononuclear cells of healthy donors.

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Introduction: Lipopolysaccharide (LPS) contamination of commercially available proteins has seriously impeded research on citrullinated fibrinogen (cit-Fb) in rheumatoid synovial cells (RSCs).

Methods: RSCs obtained from 4 rheumatoid arthritis patients who underwent full knee arthroplasty were cultured, stimulated with cit-Fb, and cytokine expression levels were measured. We then evaluated polymyxin-B (PMB), heat inactivation, and rough (R)-type LPS mutants for rapid detection of LPS contamination.

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Background: Hepatitis B virus (HBV), which causes hepatitis, liver cirrhosis, and hepatocellular carcinoma, is a global human health problem. HBV contains three envelope proteins, S-, M-, and L-hepatitis B surface antigen (HBsAg). We recently found that O-glycosylated M-HBsAg, reactive with jacalin lectin, is one of the primary components of HBV DNA-containing virus particles.

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Tumor-infiltrating lymphocytes (TILs) are a potent source for obtaining tumor-reactive T cell receptors (TCRs). Although comprehensive methods to analyze the TCR repertoire in TILs have been reported, the evaluation system for TCR-reactivity to endogenously expressed antigen in tumor cells remains laborious and time consuming. Consequently, very limited numbers of TCRs in TILs have been analyzed for their reactivity to tumor cells.

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Generation of TCR-like monoclonal antibodies using conventional methods is markedly laborious and inefficient. We have proposed improvements of ISAAC (chip-based Ab-secreting cell [ASC] screening method), allows comprehensive analysis of ASCs at the single-cell level to obtain TCR-like antibodies; blocking procedure enables us to avoid the detection of non-TCR-like antibodies.

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  • The heartland virus (HRTV) is a new type of phlebovirus linked to severe infections in the USA and closely related to an Asian virus causing severe fever thrombocytopenia syndrome (SFTS).
  • Research developed a modified vesicular stomatitis virus with HRTV glycoprotein to study its entry mechanisms and interaction with antibodies.
  • Findings indicate that HRTV enters cells through a specific type of endocytosis influenced by pH and a protein called dynamin, with the potential therapeutic agent Nn-DNJ showing effectiveness in reducing HRTV and SFTSV production.
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