BackgroundLack of effective treatment of gonorrhoea due to increasing antimicrobial resistance in Neisseria gonorrhoeae is a serious threat to the management and control of the infection. Novel antimicrobials are required to prevent the infection becoming untreatable.ObjectivesHerein, we investigated the in vitro activity of a novel small-molecule antimicrobial with a new mechanism of action, SMT-571, against a large collection of clinical N. gonorrhoeae isolates (n = 228) and international gonococcal reference strains (n = 34), including numerous MDR and XDR gonococcal isolates.MethodsMICs of SMT-571 were determined by agar dilution and MICs of ceftriaxone, cefixime, azithromycin, ciprofloxacin, ampicillin, spectinomycin and tetracycline were determined by Etest.ResultsSMT-571 showed potent in vitro activity against all the tested N. gonorrhoeae isolates (n = 262). The MICs ranged from 0.064 to 0.125 mg/L and the MIC50, MIC90 and modal MIC were all 0.125 mg/L. No cross-resistance or correlation between the MICs of SMT-571 and comparator agents was seen.ConclusionsSMT-571 demonstrated potent in vitro activity against all tested gonococcal isolates and no cross-resistance to previously and currently used antimicrobials was seen. With its promising supplementary in vitro and in vivo preclinical data, including high levels of oral bioavailability, SMT-571 could be an effective option for the oral treatment of gonorrhoea. Randomized controlled clinical trials for gonorrhoea that examine the treatment efficacy, pharmacokinetics/pharmacodynamics, toxicity and safety of SMT-571, and include urogenital and extragenital (rectal and pharyngeal) samples, are crucial.
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