Yan Qiulong, Zhang Siyi, Li Shenghui, Wang Guangyang, Zhang Aiqin, Jin Taiyang, Zhang Yue, Lv Qingbo, Xiao Manchun, Sun Yuanyuan, Li Xiang, Cui Song, Li Rui, Ma Xiaochi, Wang Chao, Tian Xiangge, Duan Xiaohui, Xin Yi, Mao Xianhai, Ma Yufang
Department of Microbiology, College of Basic Medical Sciences, Dalian Medical University, Dalian, China.
Department of Hepatobiliary Surgery, Hunan Provincial People's Hospital, The First Affiliated Hospital of Hunan Normal University, Changsha, China.
Front Microbiol. 2021 Nov 1;12:739621. doi: 10.3389/fmicb.2021.739621. eCollection 2021.
The microbes in human bile are closely related to gallbladder health and other potential disorders. Although the bile microbial community has been investigated by recent studies using amplicon or metagenomic sequencing technologies, the genomic information of the microbial species resident in bile is rarely reported. Herein, we isolated 138 bacterial colonies from the fresh bile specimens of four cholecystitis patients using a culturome approach and genomically characterized 35 non-redundant strains using whole-genome shotgun sequencing. The bile bacterial isolates spanned 3 classes, 6 orders, 10 families, and 14 genera, of which the members of , , , and frequently appeared. Genomic analysis identified three species, including sp. D135, sp. D093, and sp. D074, which are not represented in existing reference genome databases. Based on the genome data, the functional capacity between bile and gut isolates was compared. The bile strains encoded 5,488 KEGG orthologs, of which 4.9% were specific to the gut strains, including the enzymes involved in biofilm formation, two-component systems, and quorum-sensing pathways. A total of 472 antibiotic resistance genes (ARGs) were identified from the bile genomes including multidrug resistance proteins (42.6%), fluoroquinolone resistance proteins (12.3%), aminoglycoside resistance proteins (9.1%), and β-lactamase (7.2%). Moreover, experiments showed that some bile bacteria have the capabilities for bile salt deconjugation or biotransformation (of primary bile acids into secondary bile acids). Although the physiological or pathological significance of these bacteria needs further exploration, our works expanded knowledge about the genome, diversity, and function of human bile bacteria.
人体胆汁中的微生物与胆囊健康及其他潜在疾病密切相关。尽管近期有研究使用扩增子或宏基因组测序技术对胆汁微生物群落进行了调查,但关于胆汁中常驻微生物物种的基因组信息却鲜有报道。在此,我们采用培养组学方法从4例胆囊炎患者的新鲜胆汁标本中分离出138个细菌菌落,并使用全基因组鸟枪法测序对35个非冗余菌株进行了基因组特征分析。胆汁细菌分离株涵盖3个纲、6个目、10个科和14个属,其中 、 、 和 的成员频繁出现。基因组分析鉴定出3个物种,包括 菌D135株、 菌D093株和 菌D074株,这些物种在现有的参考基因组数据库中未被收录。基于基因组数据,对胆汁和肠道分离株的功能能力进行了比较。胆汁菌株编码了5488个KEGG直系同源基因,其中4.9%是肠道菌株特有的,包括参与生物膜形成、双组分系统和群体感应途径的酶。从胆汁基因组中总共鉴定出472个抗生素抗性基因(ARGs),包括多重耐药蛋白(42.6%)、氟喹诺酮抗性蛋白(12.3%)、氨基糖苷抗性蛋白(9.1%)和β-内酰胺酶(7.2%)。此外, 实验表明,一些胆汁细菌具有胆汁盐去结合或生物转化(将初级胆汁酸转化为次级胆汁酸)的能力。尽管这些细菌的生理或病理意义需要进一步探索,但我们的工作扩展了对人体胆汁细菌基因组、多样性和功能的认识。
