Ochsner Urs A, Bell Stacie J, O'Leary Ann L, Hoang Teresa, Stone Kimberley Clawson, Young Casey L, Critchley Ian A, Janjic Nebojsa
Replidyne, Inc., Louisville, CO 80027, USA.
J Antimicrob Chemother. 2009 May;63(5):964-71. doi: 10.1093/jac/dkp042. Epub 2009 Feb 26.
REP3123 is a fully synthetic methionyl-tRNA synthetase inhibitor in pre-clinical development as a novel agent to treat Clostridium difficile infection (CDI). This novel agent was investigated for its ability to block the production of toxins and spores, and was tested for efficacy in vivo in a hamster model.
Clostridial toxin levels were determined qualitatively using monoclonal antibodies and by cytotoxicity assays. Spores were detected by staining and by quantitative dilution plating after ethanol treatment. Efficacy of REP3123 was tested in a clindamycin-induced C. difficile hamster gastrointestinal (GI) infection model.
REP3123 at concentrations as low as 1 mg/L inhibited de novo toxin production in high cell density, stationary phase cultures of C. difficile. Among comparator agents currently used for CDI therapy, vancomycin required much higher levels of 20 mg/L, and metronidazole had no effect on toxin levels. REP3123 caused a >10-fold reduction of the sporulation rate in vitro. Vancomycin and, in particular, metronidazole appeared to promote the formation of spores. REP3123, at concentrations as low as 0.5 mg/kg, demonstrated efficacy in the hamster model of CDI and was superior to vancomycin in the overall survival of the animals at the end of the study (33 days).
REP3123 inhibited growth of C. difficile, affected the production of toxins and spores and demonstrated superior efficacy compared with vancomycin in the hamster GI infection model. This agent may be a promising candidate for CDI treatment; in particular, the inhibition of toxin production and spore formation may reduce the severity and spread of the disease, respectively.
REP3123是一种完全合成的甲硫氨酰 - tRNA合成酶抑制剂,正处于临床前开发阶段,作为一种治疗艰难梭菌感染(CDI)的新型药物。研究了这种新型药物阻断毒素和孢子产生的能力,并在仓鼠模型中进行了体内疗效测试。
使用单克隆抗体并通过细胞毒性试验定性测定梭菌毒素水平。通过染色和乙醇处理后的定量稀释平板法检测孢子。在克林霉素诱导的艰难梭菌仓鼠胃肠道(GI)感染模型中测试了REP3123的疗效。
在高达1mg/L的浓度下,REP3123可抑制高细胞密度、稳定期艰难梭菌培养物中从头产生毒素。在目前用于CDI治疗的对照药物中,万古霉素需要20mg/L的更高水平,而甲硝唑对毒素水平没有影响。REP3123在体外使孢子形成率降低了10倍以上。万古霉素,尤其是甲硝唑似乎促进了孢子的形成。在CDI仓鼠模型中,低至0.5mg/kg浓度的REP3123显示出疗效,并且在研究结束时(33天)动物的总体存活率方面优于万古霉素。
REP3123抑制艰难梭菌的生长,影响毒素和孢子的产生,并且在仓鼠胃肠道感染模型中显示出优于万古霉素的疗效。这种药物可能是CDI治疗的有前途的候选药物;特别是,抑制毒素产生和孢子形成可能分别降低疾病的严重程度和传播。
