Iyo Takeda scite author profile

Iyo Takeda

2Publications

3Citation Statements Received

132Citation Statements Given

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132

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Kumamoto University

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S -Nitrosated alpha-1-acid glycoprotein exhibits antibacterial activity against multidrug-resistant bacteria strains and synergistically enhances the effect of antibiotics

et al. 2019

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Alpha‐1‐acid glycoprotein (AGP) is a major acute‐phase protein. Biosynthesis of AGP increases markedly during inflammation and infection, similar to nitric oxide (NO) biosynthesis. AGP variant A (AGP) contains a reduced cysteine (Cys149). Previously, we reported that S‐nitrosated AGP (SNO‐AGP) synthesized by reaction with a NO donor, possessed very strong broad‐spectrum antimicrobial activity (IC50 = 10−9‐10−6 M). In this study, using a cecal ligation and puncture animal model, we confirmed that AGP can be endogenously S‐nitrosated during infection. Furthermore, we examined the antibacterial property of SNO‐AGP against multidrug‐resistant Klebsiella pneumoniae and Pseudomonas aeruginosa to investigate the involvement of SNO‐AGP in the host defense system. Our results showed that SNO‐AGP could inhibit multidrug efflux pump, AcrAB‐TolC, a major contributor to bacterial multidrug resistance. In addition, SNO‐AGP decreased biofilm formation and ATP level in bacteria, indicating that SNO‐AGP can revert drug resistance. It was also noteworthy that SNO‐AGP showed synergistic effects with the existing antibiotics (oxacillin, imipenem, norfloxacin, erythromycin, and tetracycline). In conclusion, SNO‐AGP participated in the host defense system and has potential as a novel agent for single or combination antimicrobial therapy.

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Gene trapping reveals a new transcriptionally active genome element: The chromosome‐specific clustered trap region

et al. 2021

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Nearly half of the human genome consists of repetitive sequences such as long interspersed nuclear elements. The relationship between these repeating sequences and diseases has remained unclear. Gene trapping is a useful technique for disrupting a gene and expressing a reporter gene by using the promoter activity of the gene. The analysis of trapped genes revealed a new genome element—the chromosome‐specific clustered trap (CSCT) region. For any examined sequence within this region, an equivalent was found using the BLAT of the University of California, Santa Cruz (UCSC) Genome Browser. CSCT13 mapped to chromosome 13 and contained only three genes. To elucidate its in vivo function, the whole CSCT13 region (1.6 Mbp) was deleted using the CRISPR/Cas9 system in mouse embryonic stem cells, and subsequently, a CSCT13 knockout mouse line was established. The rate of homozygotes was significantly lower than expected according to Mendel's laws. In addition, the number of offspring obtained by mating homozygotes was significantly smaller than that obtained by crossing controls. Furthermore, CSCT13 might have an effect on meiotic homologous recombination. This study identifies a transcriptionally active CSCT with an important role in mouse development.

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Iyo Takeda

S -Nitrosated alpha-1-acid glycoprotein exhibits antibacterial activity against multidrug-resistant bacteria strains and synergistically enhances the effect of antibiotics

Gene trapping reveals a new transcriptionally active genome element: The chromosome‐specific clustered trap region

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