新型、非定植性、单一菌株的活生物治疗产品ADS024可在体内抵御艰难梭菌感染挑战。

Christopher K Murphy, Michelle M O'Donnell, James W Hegarty, Sarah Schulz, Colin Hill, R Paul Ross, Mary C Rea, Ronald Farquhar, Laurent Chesnel
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引用次数: 0

摘要

背景:美国疾病控制与预防中心估计,艰难梭菌(C.difficile)每年导致50万例感染(CDI),是美国全部传染病死亡的主要原因,导致结肠炎症和潜在的致命腹泻。我们最近报道了ADS024的分离,这是一种维莱岑芽孢杆菌(B.velezensis)菌株,它对艰难梭菌具有直接的体外杀菌活性,对肠道微生物群的其他成员的副作用最小。在这项研究中,我们假设ADS024的体外活性将在体内转化,以保护小鼠模型免受CDI攻击。目的:研究B.velezensis ADS024在小鼠模型中对CDI攻击的体内保护作用。方法:为了模拟肠道微生物群的破坏,小鼠在给药ADS024之前暴露于万古霉素。对于小鼠单剂量研究,在单次口服5×108菌落形成单位(CFU)/小鼠的新鲜生长的ADS024后4小时、8小时和24小时,通过肠道和粪便样本的微生物分析来评估ADS024的回收率。在小型猪中进行的单剂量研究包括预先给药万古霉素并暴露于ADS024剂量范围的组,以及未预先给药阿霉素并接受单剂量ADS024的组。在琼脂平板上计数ADS024菌落[通过使用ADS024特异性引物的定量聚合酶链式反应(qPCR)评估]。在28天的小型猪研究中,连续28天口服含有5×109CFU的ADS024胶囊后,使用qPCR测量粪便样本中的ADS2024水平,然后进行MiSeq成分测序和生物信息学分析,以测量ADS024对微生物群的影响。进行了两项研究来确定ADS024在CDI小鼠模型中的疗效:研究1确定新鲜ADS024培养物和ADS024孢子制剂对小鼠CDI临床表现的影响,研究2比较每日单次给药与每日3次给药的疗效。艰难梭菌激发在ADS024暴露开始后24小时进行。为了模拟人类远端结肠,使用了厌氧粪便发酵系统。进行MiSeq成分测序和生物信息学分析,以测量ADS024处理后微生物群多样性的变化。为了评估ADS024作为抗生素耐药性来源的潜力,测试了其对18种不同抗生素的易感性。结果:在CDI攻击的小鼠模型中,单次每日剂量的ADS024在预防艰难梭菌病原体诱导的疾病的后续攻击方面与多次每日剂量的一样有效。基于在小鼠中单次给药后24小时或在小型猪中单次剂量后72小时未恢复ADS024菌落的观察结果,ADS024未显示定植的证据。在对小型猪进行的28天重复剂量研究中,使用平板和qPCR方法在粪便样本中未检测到ADS024。在人类远端结肠模型中进行的系统发育分析表明,ADS024对健康的人类结肠微生物群具有选择性影响,类似于在小型猪中进行的体内研究。安全性评估表明,ADS024对所有测试的抗生素都敏感,而计算机测试显示,脱靶活性或毒力和抗生素耐药性机制的可能性很低。结论:我们的研究结果证明了ADS024在小鼠模型中对CDI攻击的体内保护作用,支持使用ADS024预防标准抗生素治疗后复发的CDI。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Novel, non-colonizing, single-strain live biotherapeutic product ADS024 protects against <i>Clostridioides difficile</i> infection challenge <i>in vivo</i>.

Novel, non-colonizing, single-strain live biotherapeutic product ADS024 protects against <i>Clostridioides difficile</i> infection challenge <i>in vivo</i>.

Novel, non-colonizing, single-strain live biotherapeutic product ADS024 protects against <i>Clostridioides difficile</i> infection challenge <i>in vivo</i>.

Novel, non-colonizing, single-strain live biotherapeutic product ADS024 protects against Clostridioides difficile infection challenge in vivo.

Background: The Centers for Disease Control and Prevention estimate that Clostridioides difficile (C. difficile) causes half a million infections (CDI) annually and is a major cause of total infectious disease death in the United States, causing inflammation of the colon and potentially deadly diarrhea. We recently reported the isolation of ADS024, a Bacillus velezensis (B. velezensis) strain, which demonstrated direct in vitro bactericidal activity against C. difficile, with minimal collateral impact on other members of the gut microbiota. In this study, we hypothesized that in vitro activities of ADS024 will translate in vivo to protect against CDI challenge in mouse models.

Aim: To investigate the in vivo efficacy of B. velezensis ADS024 in protecting against CDI challenge in mouse models.

Methods: To mimic disruption of the gut microbiota, the mice were exposed to vancomycin prior to dosing with ADS024. For the mouse single-dose study, the recovery of ADS024 was assessed via microbiological analysis of intestinal and fecal samples at 4 h, 8 h, and 24 h after a single oral dose of 5 × 108 colony-forming units (CFU)/mouse of freshly grown ADS024. The single-dose study in miniature swine included groups that had been pre-dosed with vancomycin and that had been exposed to a dose range of ADS024, and a group that was not pre-dosed with vancomycin and received a single dose of ADS024. The ADS024 colonies [assessed by quantitative polymerase chain reaction (qPCR) using ADS024-specific primers] were counted on agar plates. For the 28-d miniature swine study, qPCR was used to measure ADS024 levels from fecal samples after oral administration of ADS024 capsules containing 5 × 109 CFU for 28 consecutive days, followed by MiSeq compositional sequencing and bioinformatic analyses to measure the impact of ADS024 on microbiota. Two studies were performed to determine the efficacy of ADS024 in a mouse model of CDI: Study 1 to determine the effects of fresh ADS024 culture and ADS024 spore preparations on the clinical manifestations of CDI in mice, and Study 2 to compare the efficacy of single daily doses vs dosing 3 times per day with fresh ADS024. C. difficile challenge was performed 24 h after the start of ADS024 exposure. To model the human distal colon, an anerobic fecal fermentation system was used. MiSeq compositional sequencing and bioinformatic analyses were performed to measure microbiota diversity changes following ADS024 treatment. To assess the potential of ADS024 to be a source of antibiotic resistance, its susceptibility to 18 different antibiotics was tested.

Results: In a mouse model of CDI challenge, single daily doses of ADS024 were as efficacious as multiple daily doses in protecting against subsequent challenge by C. difficile pathogen-induced disease. ADS024 showed no evidence of colonization based on the observation that the ADS024 colonies were not recovered 24 h after single doses in mice or 72 h after single doses in miniature swine. In a 28-d repeat-dose study in miniature swine, ADS024 was not detected in fecal samples using plating and qPCR methods. Phylogenetic analysis performed in the human distal colon model showed that ADS024 had a selective impact on the healthy human colonic microbiota, similarly to the in vivo studies performed in miniature swine. Safety assessments indicated that ADS024 was susceptible to all the antibiotics tested, while in silico testing revealed a low potential for off-target activity or virulence and antibiotic-resistance mechanisms.

Conclusion: Our findings, demonstrating in vivo efficacy of ADS024 in protecting against CDI challenge in mouse models, support the use of ADS024 in preventing recurrent CDI following standard antibiotic treatment.

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