基本情報
- 所属
- 自治医科大学 医学部感染・免疫学講座 細菌学部門 特命助教
- 研究者番号
- 90633579
- J-GLOBAL ID
- 201301061729951528
- researchmap会員ID
- B000232158
- 外部リンク
経歴
5-
2024年6月 - 現在
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2022年6月 - 2024年6月
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2020年10月 - 2022年6月
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2012年4月 - 2020年9月
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2009年4月 - 2012年3月
学歴
3-
2009年4月 - 2012年3月
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2005年 - 2007年
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2002年 - 2005年
受賞
8論文
37-
Communications biology 7(1) 1129-1129 2024年9月13日In response to the escalating antibiotic resistance in multidrug-resistant pathogens, we propose an innovative phagemid-based capsid system to generate CRISPR-Cas13a-loaded antibacterial capsids (AB-capsids) for targeted therapy against multidrug-resistant Staphylococcus aureus. Our optimized phagemid system maximizes AB-capsid yield and purity, showing a positive correlation with phagemid copy number. Notably, an 8.65-fold increase in copy number results in a 2.54-fold rise in AB-capsid generation. Phagemids carrying terL-terS-rinA-rinB (prophage-encoded packaging site genes) consistently exhibit high packaging efficiency, and the generation of AB-capsids using lysogenized hosts with terL-terS deletion resulted in comparatively lower level of wild-type phage contamination, with minimal compromise on AB-capsid yield. These generated AB-capsids selectively eliminate S. aureus strains carrying the target gene while sparing non-target strains. In conclusion, our phagemid-based capsid system stands as a promising avenue for developing sequence-specific bactericidal agents, offering a streamlined approach to combat antibiotic-resistant pathogens within the constraints of efficient production and targeted efficacy.
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Antibiotics 13(9) 870-870 2024年9月11日Phage therapy, the use of bacteriophages (phages) to treat bacterial infections, is regaining momentum as a promising weapon against the rising threat of multidrug-resistant (MDR) bacteria. This comprehensive review explores the historical context, the modern resurgence of phage therapy, and phage-facilitated advancements in medical and technological fields. It details the mechanisms of action and applications of phages in treating MDR bacterial infections, particularly those associated with biofilms and intracellular pathogens. The review further highlights innovative uses of phages in vaccine development, cancer therapy, and as gene delivery vectors. Despite its targeted and efficient approach, phage therapy faces challenges related to phage stability, immune response, and regulatory approval. By examining these areas in detail, this review underscores the immense potential and remaining hurdles in integrating phage-based therapies into modern medical practices.
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Scientific reports 14(1) 16225-16225 2024年7月13日In response to the escalating global threat of antimicrobial resistance, our laboratory has established a phagemid packaging system for the generation of CRISPR-Cas13a-antimicrobial capsids targeting methicillin-resistant Staphylococcus aureus (MRSA). However, a significant challenge arose during the packaging process: the unintentional production of wild-type phages alongside the antimicrobial capsids. To address this issue, the phagemid packaging system was optimized by strategically incorporated silent mutations. This approach effectively minimized contamination risks without compromising packaging efficiency. The study identified the indispensable role of phage packaging genes, particularly terL-terS, in efficient phagemid packaging. Additionally, the elimination of homologous sequences between the phagemid and wild-type phage genome was crucial in preventing wild-type phage contamination. The optimized phagemid-LSAB(mosaic) demonstrated sequence-specific killing, efficiently eliminating MRSA strains carrying target antibiotic-resistant genes. While acknowledging the need for further exploration across bacterial species and in vivo validation, this refined phagemid packaging system offers a valuable advancement in the development of CRISPR-Cas13a-based antimicrobials, shedding light on potential solutions in the ongoing battle against bacterial infections.
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Pathogens 12(9) 1179-1179 2023年9月20日 査読有りBacteriophages, the viruses that infect and replicate within bacteria, have long been recognized as potential therapeutic agents against bacterial infections [...]
MISC
6書籍等出版物
1-
Educational Book Centre, Mumbai, India 2011年
講演・口頭発表等
22-
Liposome Research Days (LRD), Hokkaido, Japan. 2019年
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Sixth Symposium On Carbon Nanomaterials Biology, Medicine & Toxicology 2015年6月
担当経験のある科目(授業)
1-
2007年6月 - 2008年3月Genetics (Prof. Dhanapalan College of Science, Chennai)
所属学協会
4-
2022年 - 現在
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2020年6月 - 現在
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2020年5月 - 現在
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2020年4月 - 現在