Guannan Li , Meihong Wu , Yi Xiao , Yujie Tong , Sheng Li , Heying Qian , Tianfu Zhao
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However, significant changes in the gene expressions levels of <em>Att2</em>, <em>CecA</em>, and <em>Lys</em> suggest potential adaptive mechanisms of host immunity to symbiotic <em>E. mundtii</em>. Moreover, 16S metagenomics analysis revealed a significant increase in the relative abundance of <em>E. mundtii</em> in the intestines of silkworms following inoculation. The intestinal microbiome displayed marked heterogeneity, an elevated gut microbiome health index, a reduced microbial dysbiosis index, and low potential pathogenicity in the treatment group. Additionally, <em>E. mundtii</em> enhanced the breakdown of carbohydrates in host intestines. Overall, <em>E. mundtii</em> serves as a beneficial microbe for insects, promoting intestinal homeostasis by providing competitive advantage. This characteristic helps <em>E. mundtii</em> dominate complex microbial environments and remain prevalent across Lepidoptera, likely fostering long-term symbiosis between the both parties. The present study contributes to clarifying the niche of <em>E. mundtii</em> in the intestine of lepidopteran insects and further reveals its potential roles in their insect hosts.</p></div>","PeriodicalId":2,"journal":{"name":"ACS Applied Bio Materials","volume":null,"pages":null},"PeriodicalIF":4.6000,"publicationDate":"2024-08-10","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Multi-omics reveals the ecological and biological functions of Enterococcus mundtii in the intestine of lepidopteran insects\",\"authors\":\"Guannan Li , Meihong Wu , Yi Xiao , Yujie Tong , Sheng Li , Heying Qian , Tianfu Zhao\",\"doi\":\"10.1016/j.cbd.2024.101309\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>Insect guts offer unique habitats for microbial colonization, with gut bacteria potentially offering numerous benefits to their hosts. Although <em>Enterococcus</em> has emerged as one of the predominant gut commensal bacteria in insects, its establishment in various niches within the gut has not been characterized well. In this study, <em>Enterococcus mundtii</em> was inoculated into the silkworm (<em>Bombyx mori</em> L.) to investigate its biological functions. Genome-based analysis revealed that its successful colonization is related to adherence genes (<em>ebpA</em>, <em>ebpC</em>, <em>efaA</em>, <em>srtC</em>, and <em>scm</em>). This bacterium did not alter the activities of related metabolic enzymes or the intestinal barrier function. However, significant changes in the gene expressions levels of <em>Att2</em>, <em>CecA</em>, and <em>Lys</em> suggest potential adaptive mechanisms of host immunity to symbiotic <em>E. mundtii</em>. Moreover, 16S metagenomics analysis revealed a significant increase in the relative abundance of <em>E. mundtii</em> in the intestines of silkworms following inoculation. 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引用次数: 0
摘要
昆虫肠道为微生物定植提供了独特的栖息地,肠道细菌可能为宿主带来许多益处。虽然肠球菌已成为昆虫肠道中最主要的共生细菌之一,但其在肠道内各种壁龛中的建植情况还没有得到很好的描述。本研究将孟氏肠球菌(Enterococcus mundtii)接种到家蚕(Bombyx mori L.)体内,以研究其生物功能。基于基因组的分析发现,它的成功定殖与粘附基因(ebpA、ebpC、efaA、srtC 和 scm)有关。该细菌没有改变相关代谢酶的活性或肠道屏障功能。不过,Att2、CecA 和 Lys 的基因表达水平发生了明显变化,这表明宿主对共生的 E. mundtii 可能存在适应性免疫机制。此外,16S 元基因组学分析表明,接种后蚕肠中 E. mundtii 的相对丰度显著增加。肠道微生物组显示出明显的异质性,处理组的肠道微生物组健康指数升高,微生物菌群失调指数降低,潜在致病性降低。此外,E. mundtii 还能促进宿主肠道中碳水化合物的分解。总体而言,E. mundtii 是昆虫的有益微生物,通过提供竞争优势促进肠道平衡。这种特性有助于 E. mundtii 在复杂的微生物环境中占据主导地位,并在鳞翅目昆虫中保持普遍存在,很可能会促进双方的长期共生关系。本研究有助于澄清 E. mundtii 在鳞翅目昆虫肠道中的生态位,并进一步揭示其在昆虫宿主中的潜在作用。
Multi-omics reveals the ecological and biological functions of Enterococcus mundtii in the intestine of lepidopteran insects
Insect guts offer unique habitats for microbial colonization, with gut bacteria potentially offering numerous benefits to their hosts. Although Enterococcus has emerged as one of the predominant gut commensal bacteria in insects, its establishment in various niches within the gut has not been characterized well. In this study, Enterococcus mundtii was inoculated into the silkworm (Bombyx mori L.) to investigate its biological functions. Genome-based analysis revealed that its successful colonization is related to adherence genes (ebpA, ebpC, efaA, srtC, and scm). This bacterium did not alter the activities of related metabolic enzymes or the intestinal barrier function. However, significant changes in the gene expressions levels of Att2, CecA, and Lys suggest potential adaptive mechanisms of host immunity to symbiotic E. mundtii. Moreover, 16S metagenomics analysis revealed a significant increase in the relative abundance of E. mundtii in the intestines of silkworms following inoculation. The intestinal microbiome displayed marked heterogeneity, an elevated gut microbiome health index, a reduced microbial dysbiosis index, and low potential pathogenicity in the treatment group. Additionally, E. mundtii enhanced the breakdown of carbohydrates in host intestines. Overall, E. mundtii serves as a beneficial microbe for insects, promoting intestinal homeostasis by providing competitive advantage. This characteristic helps E. mundtii dominate complex microbial environments and remain prevalent across Lepidoptera, likely fostering long-term symbiosis between the both parties. The present study contributes to clarifying the niche of E. mundtii in the intestine of lepidopteran insects and further reveals its potential roles in their insect hosts.