人类肠道生态系统通过靶向艰难梭菌毒素A来预防艰难梭菌疾病。
A human gut ecosystem protects against C. difficile disease by targeting TcdA.
作者信息
Martz Sarah Lynn, Guzman-Rodriguez Mabel, He Shu-Mei, Noordhof Curtis, Hurlbut David John, Gloor Gregory Brian, Carlucci Christian, Weese Scott, Allen-Vercoe Emma, Sun Jun, Claud Erika Chiong, Petrof Elaine Olga
机构信息
Division of Infectious Diseases/GI Diseases Research Unit Wing, Department of Medicine, Kingston General Hospital, Queen's University, 76 Stuart Street, Kingston, ON, K7L 2V7, Canada.
Department of Pathology and Molecular Medicine, Queen's University, Kingston, ON, K7L 2V7, Canada.
出版信息
J Gastroenterol. 2017 Apr;52(4):452-465. doi: 10.1007/s00535-016-1232-y. Epub 2016 Jun 21.
BACKGROUND
A defined Microbial Ecosystem Therapeutic (MET-1, or "RePOOPulate") derived from the feces of a healthy volunteer can cure recurrent C. difficile infection (rCDI) in humans. The mechanisms of action whereby healthy microbiota protect against rCDI remain unclear. Since C. difficile toxins are largely responsible for the disease pathology of CDI, we hypothesized that MET-1 exerts its protective effects by inhibiting the effects of these toxins on the host.
METHODS
A combination of in vivo (antibiotic-associated mouse model of C. difficile colitis, mouse ileal loop model) and in vitro models (FITC-phalloidin staining, F actin Western blots and apoptosis assay in Caco2 cells, transepithelial electrical resistance measurements in T84 cells) were employed.
RESULTS
MET-1 decreased both local and systemic inflammation in infection and decreased both the cytotoxicity and the amount of TcdA detected in stool, without an effect on C. difficile viability. MET-1 protected against TcdA-mediated damage in a murine ileal loop model. MET-1 protected the integrity of the cytoskeleton in cells treated with purified TcdA, as indicated by FITC-phalloidin staining, F:G actin assays and preservation of transepithelial electrical resistance. Finally, co-incubation of MET-1 with purified TcdA resulted in decreased detectable TcdA by Western blot analysis.
CONCLUSIONS
MET-1 intestinal microbiota confers protection against C. difficile and decreases C. difficile-mediated inflammation through its protective effects against C. difficile toxins, including enhancement of host barrier function and degradation of TcdA. The effect of MET-1 on C. difficile viability seems to offer little, if any, contribution to its protective effects on the host.
背景
一种源自健康志愿者粪便的特定微生物生态疗法(MET-1,或“重新植入菌群”)可治愈人类复发性艰难梭菌感染(rCDI)。健康微生物群预防rCDI的作用机制尚不清楚。由于艰难梭菌毒素在很大程度上导致了CDI的疾病病理,我们推测MET-1通过抑制这些毒素对宿主的作用发挥其保护作用。
方法
采用体内(抗生素相关的艰难梭菌结肠炎小鼠模型、小鼠回肠袢模型)和体外模型(FITC-鬼笔环肽染色、F肌动蛋白免疫印迹以及Caco2细胞凋亡检测、T84细胞跨上皮电阻测量)相结合的方法。
结果
MET-1可减轻感染中的局部和全身炎症,降低粪便中检测到的细胞毒性和TcdA量,而对艰难梭菌的活力无影响。在小鼠回肠袢模型中,MET-1可预防TcdA介导的损伤。如FITC-鬼笔环肽染色、F:G肌动蛋白检测以及跨上皮电阻的保持所示,MET-1可保护用纯化TcdA处理的细胞中细胞骨架的完整性。最后,通过蛋白质印迹分析,MET-1与纯化TcdA共同孵育导致可检测到的TcdA减少。
结论
MET-1肠道微生物群通过对艰难梭菌毒素具有保护作用,包括增强宿主屏障功能和降解TcdA,从而对艰难梭菌产生保护作用并减轻艰难梭菌介导的炎症。MET-1对艰难梭菌活力的影响似乎对其对宿主的保护作用贡献甚微(如果有贡献的话)。
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