My research is Investigating the role of CHP2 on Mycobacterium avium complex Infection. Verify that CHP2 has a role in MAC infection and can be used as a clinical gene target therapy. Patients can receive medications that target CHP2 like the HER2 gene in breast cancer.

私の所属研究室ではヒトiPS細胞から作製した高純度の心筋細胞から構成される心筋球を心臓内に移植することで, 難治性重症心不全患者を治療することを目指しています。そしてこの治療法の実現化のために, 私は高均質な心筋球を大量かつ高効率に作製するための手法を開発しています。博士課程を修了した後も, これまでの研究で培ってきた技術や経験を生かせるような環境で研究を続けていきたいと考えています。

As an expert in epidemiological research using multi-omics methods, I aim to revolutionize nutritional epidemiology, focusing on individualization and meaningfulness. Leveraging my background as an occupational physician, I intend to apply these advancements to workplace health, emphasizing evidence-based improvements for employee well-being. Dedicated to transforming advanced research into practical workplace solutions, my goal is to seamlessly integrate scientific discoveries with day-to-day occupational health practices, ensuring multi-omics research is effectively utilized at a fundamental level. My ambition is to create a significant impact in both the academic sphere and the industry through persistent research and collaboration.

After working as a clinical anesthesist and an attending physician in Shanghai, China for 7 years, I finally have the chance to come to Japan and begin my PhD. program, which is my dream for all the time. Then, I paid my full passion and execution to explore the attractive research world. As a researcher, it is important to pursue the expansion of knowledge and insights in my own research area, as well as contribute to academia through new discoveries and the development of technology. Applying one’s own research outcomes and insights to society and positively impacting real-world problems and social issues is every researcher’s expection. And in the future far away, I may aim to focus on how my research contributes to medical and societal changes.

Evolutionary divergent ERVs insertion shapes host transcriptome during preimplantation development.RNA-seq analysis showed that ZGA in hamster occurs at the two-cell stage, similar to that in mice. Furthermore, interspecies comparisons of human, hamster, and mouse early embryonic transcriptomes revealed that ZGA genes and their expression dynamics are highly species-specific. Furthermore, evolutionarily young hamster-specific ERV1 and ERVK factors are enriched near the hamster ZGA locus, and these ERVs provide species specificity, suggesting that this may drive ZGA and control the expression of endogenous genes.

My research is focused on investigating the influence of the gut microbiota on the metabolism of steroids. Hormonal steroids encompass adrenal cortical hormones, sex hormones, and cholesterol and all of them play important roles in the host. By studing the regulation of gut microbiota to steroids we know more about the relationship among gut microbiota, steroids and multi-organ crosslinks.

My research focuses on the relationship between the fatty liver index (FLI) and the development of cardiovascular disease. However, the goal is not only to understand the relationship between the FLI and cardiovascular disease, but more importantly how to use the FLI to screen people simply and effectively at high risk and provide early intervention in a timely manner. I hope that the FLI will be able to be applied in large-scale health check-ups or screenings and that it will be able to screen people who are at a higher risk of developing cardiovascular diseases in the future.

私は現在、医学研究科にてwell-beingの観点からさまざまなデータ検証を行わせていただいております。同時に、医学部で医学を学ばせていただいており、将来的にはこれらの知を融合し、複合的な視座を持って社会に貢献していきたいと考えております。

研究者として薬理学研究の専門知識と技術を活かし、大学や研究機関で研究者として活動することを目指します。新たな薬物の開発や創薬研究、薬物の効果や副作用のメカニズムの解明など、学問的な視点からの研究に従事します。

将来薬理学の知識と技術を利用し、製薬企業で新薬の開発や既存薬の改良、技術開発やプロダクトデザインなどに携わることを目指します。