Discovery of novel thiazole-pleuromutilin derivatives with potent antibacterial activity
QI Xian-long, H Zhang, Xiao Xu, Xiwang Liu, Yajun Yang, Zhun Li, Jianyong Li
Abstract
A series of novel thiazole-pleuromutilin derivatives were designed and synthesized, and their antibacterial activities were evaluated. Most of the synthesized derivatives showed good activity against Gram-positive bacteria, among which compound h19 was more prominent and had the strongest antibacterial activity against MRSA. Compound h19 was selected for further evaluation of bacterial time-kill kinetics, and the results demonstrated its highly promising efficacy in inhibiting MRSA growth. Moreover, h19 exhibited a superior post-antibiotic effect (PAE) value and a lower possibility for bacterial resistance development compared to tiamulin. Docking studies demonstrated the strong affinity of h19 for the 50S ribosomal subunit with a binding free energy of −10.6 kcal/mol. The cytotoxic assay indicated that h19 had low cytotoxicity on both HEK293T and HepG2 cells (IC 50 > 200 μM). In MRSA systemic-infected mouse model, h19 improved survival rates, reduced the bacterial load, and alleviated pathological changes in the lungs of the infected mice, which exhibited a more potent antibacterial efficacy compared to tiamulin. Compound h19 also displayed low oral toxicity with an LD 50 value more than 2000 mg/kg. • A series of novel pleuromutilin derivatives with substituted thiazole moieties were synthesized. • Compound h19 showed in vitro potent antibacterial activity on Gram-positive bacteria and good safety. • Compound h19 exhibited good antibacterial activity in MRSA-infected mouse models.