Takamasa Ueno
Kumamoto University
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Featured researches published by Takamasa Ueno.
Journal of Molecular Biology | 1992
Takamasa Ueno; Kenji Oosawa; Shin-Ichi Aizawa
The flagellar basal body, a major part of the flagellar motor, consists of a rod and four rings. When the fliF gene of Salmonella typhimurium, which was previously shown to code for the component protein of the M ring, was cloned and overexpressed in Escherichia coli, the FliF subunits formed ring structures in the cytoplasmic membrane. Electron microscopic observation of the purified ring structures revealed that each was composed of two adjacent rings and a short appendage extending from the center of the rings. Antibodies raised against the purified FliF protein decorated both the M and S rings of the intact basal body. We conclude that the FliF protein is the subunit protein of the M ring, and of the S ring and of part of the proximal rod of the flagellar basal body.
Journal of Biological Chemistry | 1995
Takamasa Ueno; Takuma Shirasaka; Hiroaki Mitsuya
A set of five mutations (A62V, V75I, F77L, F116Y, and Q151M) in the polymerase domain of reverse transcriptase (RT) of human immunodeficiency virus type 1 (HIV-1), which confers on the virus a reduced sensitivity to multiple therapeutic dideoxynucleosides (ddNs), has been identified. In this study, we defined the biochemical properties of RT with such mutations by using site-directed mutagenesis, overproduction of recombinant RTs, and steady-state kinetic analyses. A single mutation, Q151M, which developed first among the five mutations in patients receiving therapy, most profoundly reduced the sensitivity of RT to multiple ddN 5′-triphosphates (ddNTPs). Addition of other mutations to Q151M further reduced the sensitivity of RT to ddNTPs. RT with the five mutations proved to be resistant by 65-fold to 3′-azido-2′,3′-dideoxythymidine 5′-triphosphate (AZTTP), 12-fold to ddCTP, 8.8-fold to ddATP, and 3.3-fold to 2′,3′-dideoxyguanosine 5′-triphosphate (ddGTP), compared with wild-type RT (RTwt). Steady-state kinetic studies revealed comparable catalytic efficiency (kcat/Km) of RTs carrying combined mutations as compared with that of RTwt (<3-fold), although a marked difference was noted in inhibition constants (Ki) (e.g.Ki of a mutant RT carrying the five mutations was 62-fold higher for AZTTP than that of RTwt). Thus, we conclude that the alteration of RTs substrate recognition, caused by these mutations, accounts for the observed multi-ddN resistance of HIV-1. The features of multi-ddNTP-resistant RTs should provide insights into the molecular mechanism of RT discriminating ddNTPs from natural substrates.
Journal of Hepatology | 2002
Yuji Sobao; Hiroko Tomiyama; Kazuhiro Sugi; Michiyo Tokunaga; Takamasa Ueno; Satoru Saito; Shigetoshi Fujiyama; Manabu Morimoto; Katsuaki Tanaka; Masafumi Takiguchi
BACKGROUND/AIMSnThe aim of this study is to clarify the differences of host immune responses between acute self-limited and chronic persistent hepatitis B virus (HBV) infections by quantitative and qualitative analysis of HLA-A*2402-restricted HBV-specific CD8+ T cells.nnnMETHODSnHBV-specific CD8+ T cells in peripheral blood mononuclear cells (PBMCs) from patients infected with HBV were analyzed by flow cytometry using two HLA-A*2402-HBV peptide tetrameric complexes.nnnRESULTSnHigh numbers of HBV-specific CD8+ T cells were detected in acute phase PBMCs from most individuals with acute HBV infection while the number of these cells was greatly reduced in recovery phase PBMCs. HBV-specific CD8+ T cells were not detected in PBMCs from individuals with chronic HBV infection except for one patient during acute exacerbation. HBV-specific CD8+ T cells were induced by in vitro peptide stimulation in PBMCs from chronic HBV carriers with a low level of serum HBV-DNA but not from those with a high level of serum HBV-DNA. CD28CD45RA phenotype analysis showed that HBV-specific CD8+ T cells in acute phase PBMCs predominantly express a memory T cell phenotype.nnnCONCLUSIONSnHBV-specific memory CD8+ T cells may play a crucial role in complete clearance of HBV from patients with acute HBV hepatitis.
Retrovirology | 2013
Philip Mwimanzi; Tristan Markle; Eric Martin; Yoko Ogata; Xiaomei T. Kuang; Michiyo Tokunaga; Macdonald Mahiti; Florencia Pereyra; Toshiyuki Miura; Bruce D. Walker; Zabrina L. Brumme; Mark A. Brockman; Takamasa Ueno
BackgroundImpaired HIV-1 Gag, Pol, and Env function has been described in elite controllers (EC) who spontaneously suppress plasma viremia to < 50 RNA copies/mL; however, activity of the accessory protein Nef remains incompletely characterized. We examined the ability of 91 Nef clones, isolated from plasma of 45 EC and 46 chronic progressors (CP), to down-regulate HLA class I and CD4, up-regulate HLA class II invariant chain (CD74), enhance viral infectivity, and stimulate viral replication in PBMC.ResultsIn general, EC Nef clones were functional; however, all five activities were significantly lower in EC compared to CP. Nef clones from HLA-B*57-expressing EC exhibited poorer CD4 down-regulation function compared to those from non-B*57 EC, and the number of EC-specific B*57-associated Nef polymorphisms correlated inversely with 4 of 5 Nef functions in these individuals.ConclusionResults indicate that decreased HIV-1 Nef function, due in part to host immune selection pressures, may be a hallmark of the EC phenotype.
Journal of Immunology | 2008
Takamasa Ueno; Chihiro Motozono; Sachi Dohki; Philip Mwimanzi; Susanne Rauch; Oliver T. Fackler; Shinichi Oka; Masafumi Takiguchi
HIV-1 Nef plays multiple roles in modulating immune responses, even though it is a dominant CTL target itself. How Nef accomplishes the balance between such conflicting selective pressures remains elusive. By genetic and functional studies, we found that Arg75Thr and Tyr85Phe mutations, located in a well-conserved proline-rich region in Nef, were differently associated with escape from CTL responses specific for two overlapping HLA-B35-restricted epitopes. CTLs specific for an epitope, that selected Tyr85Phe, were elicited earlier and had more potent functional avidities than did those that selected Arg75Thr. Although the double mutant could escape from both CTLs, the mutations are rarely observed in combination naturally. Introduction of both mutations reduced Nef’s HLA class I down-regulation activity and increased the susceptibility of virus-infected cells to recognition by CTLs targeting other epitopes. Moreover, the mutant Nef was impaired in the association with activated cellular kinases and in the enhancement of viral replication. These results highlight CTL immunosurveillance as important modulators of Nef’s biological activity in the infected host.
The Journal of Urology | 1998
Masatoshi Tanaka; Koichi Takahashi; Takeshi Saika; Intetsu Kobayashi; Takamasa Ueno; Joichi Kumazawa
PURPOSEnTo investigate the development of fluoroquinolone resistance among Neisseria gonorrhoeae isolates in Japan and the frequency and patterns of mutations involving the GyrA and ParC proteins, which confer quinolone resistance to the bacteria, in isolates.nnnMATERIALS AND METHODSnAntimicrobial susceptibilities of 145 gonococcal isolates, including 79 isolated from February 1992 through February 1993 and 66 isolated from February 1995 through February 1996, to six fluoroquinolones and several other antibiotics were compared with those of 27 isolates obtained from 1981 through 1984. To identify mutations in gyrA and parC genes of the isolates, the quinolone resistance-determining regions of the gyrA and parC genes were PCR-amplified and the PCR products were directly sequenced.nnnRESULTSnThe minimum inhibitory concentration for 90% of strains (MIC90) values of norfloxacin for the isolates from 1992 to 93 (4 microg./ml.) and 1995 to 96 (8 microg./ml.) were 16- and 32-fold, respectively, higher than those for isolates from 1981 to 84 (0.25 microg./ml.). The MIC90 values of ciprofloxacin for isolates from 1992 to 93 (0.5 microg./ml.) and 1995 to 96 (1 microg./ml.) showed increase of 8- and 16-fold, respectively, in comparison with those from 1981 to 84 (0.063 microg./ml.). The isolates from 1992 to 93 and 1995 to 96 were also less susceptible to newer fluoroquinolones including levofloxacin, sparfloxacin, DU-6859a and AM-1155, as compared with those from 1981 to 84. In 46 (67.6%) and 16 (23.5%) of the 68 gonococcal strains sequenced, GyrA and ParC mutations were identified, respectively. No ParC substitutions were identified in any isolates without co-existence of the GyrA mutation. A Ser-91 to Phe mutation, which was detected in 30 (65.2%) of the 46 isolates with GyrA mutations, was the most common GyrA mutation. Mutants with the single Ser-91 to Phe substitution in GyrA were 12-fold and at least 13-fold, respectively, less susceptible to norfloxacin and ciprofloxacin than the wild type.nnnCONCLUSIONSnThe results obtained in this study suggest that a high prevalence of gonococcal isolates with the Ser-91 to Phe mutation in GyrA has reduced the susceptibility of this organism to fluoroquinolones in Japan.
Journal of Immunology | 2004
Takamasa Ueno; Hiroko Tomiyama; Mamoru Fujiwara; Shinichi Oka; Masafumi Takiguchi
We eventually isolated two different clonotypic CD8 T cell subsets recognizing an HIV Pol-derived epitope peptide (IPLTEEAEL) in association with HLA-B35 from a chronic HIV-infected patient. By kinetic analysis experiments, the subsets showed a >3-fold difference in half-lives for the HLA tetramer in complex with the Pol peptide. In functional assays in vitro and ex vivo, both subsets showed substantial functional avidity toward peptide-loaded cells. However, the high affinity subset did not show cytolytic activity, cytokine production, or proliferation activity toward HIV-infected cells, whereas the moderate affinity one showed potent activities. Furthermore, using ectopic expression of each of the TCR genes into primary human CD8 T cells, the CD8 T cells transduced with the high affinity TCR showed greater binding activity toward the tetramer and impaired cytotoxic activity toward HIV-infected cells, corroborating the results obtained with parental CD8 T cells. Taken together, these data indicate that impaired responsiveness of T cells toward HIV-infected cells can occur at the level of TCR-ligand interactions, providing us further insight into the immune evasion mechanisms by HIV.
Journal of Virology | 2009
Nan Zheng; Mamoru Fujiwara; Takamasa Ueno; Shinichi Oka; Masafumi Takiguchi
ABSTRACT A restricted number of studies have shown that human immunodeficiency virus type 1 (HIV-1)-specific cytotoxic CD4+ T cells are present in HIV-1-infected individuals. However, the roles of this type of CD4+ T cell in the immune responses against an HIV-1 infection remain unclear. In this study, we identified novel Nef epitope-specific HLA-DRB1*0803-restricted cytotoxic CD4+ T cells. The CD4+ T-cell clones specific for Nef187-203 showed strong gamma interferon production after having been stimulated with autologous B-lymphoblastoid cells infected with recombinant vaccinia virus expressing Nef or pulsed with heat-inactivated virus particles, indicating the presentation of the epitope antigen through both exogenous and endogenous major histocompatibility complex class II processing pathways. Nef187-203-specific CD4+ T-cell clones exhibited strong cytotoxic activity against both HIV-1-infected macrophages and CD4+ T cells from an HLA-DRB1*0803+ donor. In addition, these Nef-specific cytotoxic CD4+ T-cell clones exhibited strong ability to suppress HIV-1 replication in both macrophages and CD4+ T cells in vitro. Nef187-203-specific cytotoxic CD4+ T cells were detected in cultures of peptide-stimulated peripheral blood mononuclear cells (PBMCs) and in ex vivo PBMCs from 40% and 20% of DRB1*0803+ donors, respectively. These results suggest that HIV-1-specific CD4+ T cells may directly control HIV-1 infection in vivo by suppressing virus replication in HIV-1 natural host cells.
Journal of Immunology | 2007
Takamasa Ueno; Yuka Idegami; Chihiro Motozono; Shinichi Oka; Masafumi Takiguchi
The mutational escape of HIV-1 from established CTL responses is becoming evident. However, it is not yet clear whether antigenic variations of HIV-1 may have an additional effect on the differential antiviral effectiveness of HIV-specific CTLs. Herein, we characterized HIV-specific CTL responses toward Pol, Env, and Nef optimal epitopes presented by HLA-B*35 during a chronic phase of HIV-1 infection. We found CTL escape variants within Pol and Nef epitopes that affected recognition by TCRs, although there was no mutation within the Env epitope. An analysis of peptide-HLA tetrameric complexes revealed that CD8 T cells exclusively specific for the Nef variant were generated following domination by the variant viruses. The variant-specific cells were capable of killing target cells and producing antiviral cytokines but showed impaired Ag-specific proliferation ex vivo, whereas wild-type specific cells had potent activities. Moreover, clonotypic CD8 T cells specific for the Pol variant showed diminished proliferation, whereas Env-specific ones had no functional heterogeneity. Taken together, our data indicate that antigenic variations that abolished TCR recognition not only resulted in escape from established CTL responses but also eventually generated another subset of variant-specific CTLs having decreased antiviral activity, causing an additional negative effect on antiviral immune responses during a chronic HIV infection.
Journal of Immunology | 2002
Takamasa Ueno; Hiroko Tomiyama; Masafumi Takiguchi
A dual specific human CTL clone harboring one β and two inframe α transcripts of TCR was previously reported to recognize an HIV Pol-derived nonapeptide (IPLTEEAEL) endogenously presented by both syngeneic HLA-B*3501 and HLA-B*5101. In the current study, a retrovirus-mediated TCR transfer of individual α- and β-chains to TCR-negative hybridoma showed that Vα12.1 TCR in complex with Vβ5.6 were responsible for the peptide-specific response in the context of both HLA-B*3501 and HLA-B*5101, confirming single TCR-mediated dual specificity. The second TCR-α chain was not somehow expressed on the cell surface. Remarkably, the Vα12.1/Vβ5.6 TCR also recognized the same peptide presented by allogeneic HLA class I molecules that share the similar peptide-binding motifs, such as HLA-B*5301 and HLA-B*0702. The sensitivity of peptide recognition by the Vα12/Vβ5.6 TCR appeared to be comparable when the peptide was presented by syngeneic and allogeneic HLA class I molecules, with changes in T cell responsiveness caused largely by peptide-binding capacity. Moreover, the CTL clone bearing Vα12.1/Vβ5.6 TCR showed substantial cytolytic activity against the peptide-loaded cells expressing HLA-B*3501, HLA-B*5101, HLA-B*5301, or HLA-B*0702, providing further evidence that a single TCR complex can recognize the same peptide presented by a broad range of HLA class I molecules. A TCR with fine specificity for an HIV Ag but broad specificity to multiple HLA molecules may provide an advantage to the generation of allorestricted, peptide-specific T cells, and thus could be a potent candidate for immunotherapy against HIV infection.