Cerastecin Inhibition of the Lipooligosaccharide Transporter MsbA to Combat Acinetobacter baumannii : From Screening Impurity to In Vivo Efficacy.
Jason W SkudlarekAndrew J CookeHelen J MitchellKerim BabaogluAnthony W ShawLing TongAshley B NomlandMarc LabroliDeyou ShaJames J MulhearnChengwei WuSarah W LiDouglas C BeshoreJonathan M E HughesMatthieu JouffroyHao WangCarl J BalibarRonald E PainterPamela ShenHenry S LangeAndrii IshchenkoYun-Ting ChenDaniel J KleinRodger W TracyRandy R MillerTamara D CabaluZhe WuAndrew LeitheadGiovanna ScapinAlan W HruzaLiudmila DzhekievaMarina BukhtiyarovaMichelle F HomsherMin XuCarolyn Bahnck-TeetsDavid McKenneyAlexei V BuevichJian LiuLi-Kang ZhangTao MengTerri KellyEdward DiNunzioStephen SoissonRobert K Y ChengMichael HennigIzzat T RaheemScott S WalkerPublished in: Journal of medicinal chemistry (2024)
Acinetobacter baumannii , a commonly multidrug-resistant Gram-negative bacterium responsible for large numbers of bloodstream and lung infections worldwide, is increasingly difficult to treat and constitutes a growing threat to human health. Structurally novel antibacterial chemical matter that can evade existing resistance mechanisms is essential for addressing this critical medical need. Herein, we describe our efforts to inhibit the essential A. baumannii lipooligosaccharide (LOS) ATP-binding cassette (ABC) transporter MsbA. An unexpected impurity from a phenotypic screening was optimized as a series of dimeric compounds, culminating with 1 (cerastecin D), which exhibited antibacterial activity in the presence of human serum and a pharmacokinetic profile sufficient to achieve efficacy against A. baumannii in murine septicemia and lung infection models.