Rawls John F, Mahowald Michael A, Goodman Andrew L, Trent Chad M, Gordon Jeffrey I
Center for Genome Sciences, Washington University School of Medicine, St. Louis, MO 63108, USA.
Proc Natl Acad Sci U S A. 2007 May 1;104(18):7622-7. doi: 10.1073/pnas.0702386104. Epub 2007 Apr 24.
Complex microbial communities reside within the intestines of humans and other vertebrates. Remarkably little is known about how these microbial consortia are established in various locations within the gut, how members of these consortia behave within their dynamic ecosystems, or what microbial factors mediate mutually beneficial host-microbial interactions. Using a gnotobiotic zebrafish-Pseudomonas aeruginosa model, we show that the transparency of this vertebrate species, coupled with methods for raising these animals under germ-free conditions can be used to monitor microbial movement and localization within the intestine in vivo and in real time. Germ-free zebrafish colonized with isogenic P. aeruginosa strains containing deletions of genes related to motility and pathogenesis revealed that loss of flagellar function results in attenuation of evolutionarily conserved host innate immune responses but not conserved nutrient responses. These results demonstrate the utility of gnotobiotic zebrafish in defining the behavior and localization of bacteria within the living vertebrate gut, identifying bacterial genes that affect these processes, and assessing the impact of these genes on host-microbial interactions.
复杂的微生物群落存在于人类和其他脊椎动物的肠道内。对于这些微生物群落如何在肠道内的不同位置建立、这些群落的成员在其动态生态系统中如何表现,或者哪些微生物因素介导互利的宿主 - 微生物相互作用,我们所知甚少。利用无菌斑马鱼 - 铜绿假单胞菌模型,我们发现这种脊椎动物的透明性,再加上在无菌条件下饲养这些动物的方法,可用于在体内实时监测微生物在肠道内的移动和定位。用含有与运动性和致病性相关基因缺失的同基因铜绿假单胞菌菌株定殖无菌斑马鱼,结果显示鞭毛功能丧失会导致进化上保守的宿主先天免疫反应减弱,但不会影响保守的营养反应。这些结果证明了无菌斑马鱼在确定活的脊椎动物肠道内细菌的行为和定位、鉴定影响这些过程的细菌基因以及评估这些基因对宿主 - 微生物相互作用的影响方面的实用性。