Department of Microecology, College of Basic Medical Sciences, Dalian Medical University, Dalian, China.
Department of Medical Biology, Faculty of Health Sciences, The Arctic University of Norway, Tromsø, Norway.
Curr Microbiol. 2023 Mar 6;80(4):127. doi: 10.1007/s00284-023-03224-0.
Gut microbiota contributes to human health. Plenty of studies demonstrate that antibiotics can disrupt gut ecosystem leading to dysbiosis. Little is known about the microbial variation of appendix and its up/downstream intestine after antibiotic treatment. This study aimed to investigate the microbiome and mucosal morphology of jejunum, appendix, and colon of rats in health and dysbiosis. A rodent model of antibiotic-induced dysbiosis was employed. Microscopy was used to observe mucosal morphological changes. 16S rRNA sequencing was performed for identifying bacterial taxa and microbiome structure. The appendices of dysbiosis were found enlarged and inflated with loose contents. Microscopy revealed the impairment of intestinal epithelial cells. High-throughput sequencing showed the Operational Taxonomic Units changed from 361 ± 33, 634 ± 18, 639 ± 19 in the normal jejunum, appendix, colon to 748 ± 98, 230 ± 11, 253 ± 16 in the disordered segments, respectively. In dysbiosis, Bacteroidetes translocated inversely from the colon and appendix (0.26%, 0.23%) to the jejunum (13.87% ± 0.11%); the relative abundance of all intestinal Enterococcaceae increased, while Lactobacillaceae decreased. Several bacterial clusters were found correlated to the normal appendix, whereas nonspecific clusters correlated to the disordered appendix. In conclusion, species richness and evenness reduced in the disordered appendix and colon; similar microbiome patterns were shared between the appendix and colon regardless of dysbiosis; site-specific bacteria were missing in the disordered appendix. Appendix is likely a transit region involving in upper and lower intestinal microflora modulation. The limitation of this study is all the data were derived from rats. We must be cautious about translating the microbiome results from rats to humans.
肠道微生物群对人类健康有贡献。大量研究表明,抗生素会破坏肠道生态系统,导致菌群失调。关于抗生素治疗后阑尾及其上下游肠道的微生物变化知之甚少。本研究旨在研究健康和菌群失调大鼠空肠、阑尾和结肠的微生物组和黏膜形态。采用抗生素诱导的菌群失调啮齿动物模型。显微镜观察黏膜形态变化。16S rRNA 测序用于鉴定细菌分类群和微生物组结构。菌群失调的阑尾发现增大和膨胀,内容物松散。显微镜显示肠上皮细胞受损。高通量测序显示操作分类单元从正常空肠、阑尾和结肠的 361±33、634±18、639±19 分别变为失调段的 748±98、230±11、253±16。在菌群失调中,拟杆菌门从结肠和阑尾(0.26%、0.23%)逆转运到空肠(13.87%±0.11%);所有肠道肠球菌科的相对丰度增加,而乳杆菌科减少。发现几个细菌簇与正常阑尾相关,而与失调阑尾相关的非特异性簇。总之,失调阑尾和结肠的物种丰富度和均匀度降低;无论菌群失调与否,阑尾和结肠之间都存在相似的微生物组模式;失调阑尾中存在特定部位细菌缺失。阑尾可能是一个涉及上、下消化道微生物群调节的过渡区域。本研究的局限性在于所有数据均来自大鼠。我们必须谨慎将大鼠微生物组结果转化为人类。
