百寿者の腸内細菌と代謝産物が新たな抗老化戦略を示唆(Centenarian Gut Microbe and its Metabolite Offer New Anti-Aging Strategy)

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2026-07-14 中国科学院(CAS)

中国科学院(CAS)精密計測科学技術創新研究院(APM)の研究チームは、100歳以上の長寿者(センテナリアン)の腸内細菌を調べ、老化を遅らせる可能性のある細菌と代謝物を発見した。研究では、若年者、高齢者、100歳以上の人から2年以上かけて便を収集し、マルチオミクス解析と情報解析を実施した。その結果、長寿者の腸内にはClostridium scindensという細菌が多く存在し、この細菌が作る代謝物インドール-3-酢酸(IAA)が健康維持に重要な役割を果たすことが分かった。IAAは「AHR」という受容体を介して腸の細胞同士を結びつけるタンパク質CLDN10の働きを高め、腸のバリア機能を維持することで腸内環境を健全に保つ。この作用が老化の進行を抑える一因と考えられる。今回の成果は、長寿の仕組みの解明につながるだけでなく、腸内細菌やその代謝物を利用した新しい抗老化法や、高齢者の慢性疾患を予防・治療するための医療技術の開発につながることが期待される。

<関連情報>

百歳以上の高齢者における微生物のキーストーン分類群と代謝シグネチャーは、加齢に伴う腸内恒常性を制御する Microbial keystone taxa and metabolic signatures in centenarians regulate intestinal homeostasis during aging

Wei-Chuan Lin, Cui Zhang, He-Hua Lei, Zheng Cao, Xin Gao, Wen-Kai Yu, Xin-Zhi Li, Qing-Wei Xiang, Zhi-Wen Zhang, Shi-Fu Pang, Wei-Fei Luo, Deng-Hui Xie, Li-Min Zhang, Gang Chen
iMeta  Published: 19 May 2026
DOI:https://doi.org/10.1002/imt2.70134

Abstract

Microbial networks and keystone taxa play pivotal roles in maintaining gut microecological stability and host homeostasis, irrespective of their abundance. However, most previous studies of aging-associated gut microbiota have relied on abundance-based analyses, largely overlooking microbial networks and microbe-host interactions. Here, we employed a co-occurrence network approach to identify keystone taxa during aging in humans and mice. We found that centenarians harbor distinctive keystone taxa dominated by members of Clostridium, of which Clostridium scindens (C. scindens) can significantly enhance microbial network stability, probably contributing to longevity and reduced susceptibility to age-related diseases. Mechanistically, C. scindens produces indole-3-acetic acid (IAA) from tryptophan via the enzymes amidase (AMIE) and aldehyde dehydrogenase (ALDH). Oral administration of either C. scindens or IAA effectively mitigates intestinal aging by restoring gut barrier dysfunction in aged mice. Further analysis revealed that C. scindens-derived IAA restores intestinal dysfunction through activation of aryl hydrocarbon receptor (AHR) signaling, leading to upregulation of intestinal CLDN10, a key tight junction protein. Structurally, IAA enhances Claudin10 transcription by promoting AHR binding to its promoter region. Our findings provide new insights into the characterization of microbial networks in centenarians and highlight that C. scindens and IAA may contribute to healthy longevity by promoting gut microecological stability and host homeostasis.

Highlights

  • A co-occurrence network analysis identifies keystone taxa dominated by members of Clostridium in centenarians.
  • Clostridium scindens enhances microbial network stability, probably contributing to longevity and reduced susceptibility to age-related diseases.
  • Clostridium scindens produces indole-3-acetic acid (IAA) from tryptophan metabolism via its own enzymes amidase (AMIE) and aldehyde dehydrogenase (ALDH).
  • Clostridium scindens-derived IAA promotes intestinal homeostasis by facilitating aryl hydrocarbon receptor (AHR)-mediated CLDN10 signaling in aged mice.
生物化学工学
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