Shenzhen Key Laboratory of Systems Medicine for Inflammatory Diseases, School of Medicine, Shenzhen Campus of Sun Yat-sen University, Shenzhen, Guangdong, China.
Research and Development Center, Center of Human Microecology Engineering and Technology of Guangdong Province, Guangzhou, Guangdong, China.
Gut Microbes. 2024 Jan-Dec;16(1):2426623. doi: 10.1080/19490976.2024.2426623. Epub 2024 Nov 11.
Gut microbiome plays a pivotal role in combating diseases and facilitating healthy aging, and natural products derived from biosynthetic gene clusters (BGCs) of the human microbiome exhibit significant biological activities. However, the natural products of the gut microbiome in long-lived populations remain poorly understood. Here, we integrated six cohorts of long-lived populations, encompassing a total of 1029 fecal metagenomic samples, and employed the metagenomic single sample assembled BGCs (MSSA-BGCs) analysis pipeline to investigate the natural products and their associated species. Our findings reveal that the BGC composition of the extremely long-lived group differed significantly from that of younger elderly and young individuals across five cohorts. Terpene and Type I PKS BGCs were enriched in the extremely long-lived, whereas cyclic-lactone-autoinducer BGCs were more prevalent in the young. Association analysis indicated that terpene BGCs were strongly associated with the abundance of , which was also more abundant in the long-lived elderly across at least three cohorts. We assembled 18 draft genomes using metagenomic data from the extremely long-lived group across six cohorts and discovered that they all harbor two classes of terpene BGCs, which aligns with the 97 complete genomes of strains retrieved from the NCBI database. The core domains of these two BGC classes are squalene/phytoene synthases involved in the biosynthesis of tri- and tetraterpenes. Furthermore, the abundance of fecal was significantly associated with eight types of triterpenoids. Targeted terpenoid metabolomic analysis revealed that two triterpenoids, Holstinone C and colubrinic acid, were enriched in the culture solution compared to the medium, thereby confirming the production of triterpenoids by . The natural products derived from the gut of long-lived populations provide intriguing indications of their potential beneficial roles in regulating health.
肠道微生物群在对抗疾病和促进健康衰老方面发挥着关键作用,并且源自人类微生物组生物合成基因簇 (BGCs) 的天然产物表现出显著的生物活性。然而,长寿人群的肠道微生物组的天然产物仍然知之甚少。在这里,我们整合了六个长寿人群队列,共包含 1029 个粪便宏基因组样本,并采用宏基因组单样本组装 BGCs (MSSA-BGCs) 分析管道来研究天然产物及其相关物种。我们的研究结果表明,在五个队列中,极其长寿组的 BGC 组成与年轻老年人和年轻人的 BGC 组成有显著差异。萜烯和 I 型 PKS BGCs 在极其长寿组中富集,而环状内酯-自动诱导 BGCs 在年轻组中更为普遍。关联分析表明,萜烯 BGCs 与 的丰度强烈相关,至少在三个队列中,长寿老年人的 丰度也更高。我们使用来自六个队列的极其长寿组的宏基因组数据组装了 18 个草图基因组,并发现它们都含有两类萜烯 BGCs,这与从 NCBI 数据库中检索到的 97 个 完整基因组一致。这两个 BGC 类的核心结构域是鲨烯/植物烯合酶,参与三萜和四萜的生物合成。此外,粪便 的丰度与八种类型的三萜类化合物显著相关。靶向萜类代谢组学分析表明,两种三萜类化合物 Holstinone C 和 colubrinic acid 在 培养物中比培养基中更为丰富,从而证实了 产生三萜类化合物。长寿人群肠道来源的天然产物为它们在调节健康方面的潜在有益作用提供了有趣的线索。
