4-aminoquinolone piperidine amides (AQs) were identified as a novel scaffold starting from a whole cell screen, with potent cidality on Mycobacterium tuberculosis (Mtb). Evaluation of the minimum inhibitory concentrations, followed by whole genome sequencing of mutants raised against AQs identified decaprenylphosphoryl-β-D-ribose 2'-epimerase (DprE1) as the primary target responsible for the antitubercular activity. Mass spectrometry and enzyme kinetic studies indicated that AQs are non-covalent, reversible inhibitors of DprE1 with slow on rates and long residence times of ~100 minutes on the enzyme. In general, AQs have excellent lead-like properties and good in vitro secondary pharmacology profile. Although, the scaffold started off as a single active compound with moderate potency from the whole cell screen, SAR optimization of the scaffold led to compounds with potent DprE1 inhibition (IC50 <10 nM) along with potent cellular activity (MIC = 60 nM) against Mtb.
4-Aminoquinolone Piperidine Amides: Non-Covalent Inhibitors of DprE1 with Long Residence Time and Potent Antimycobacterial Activity.
CHIARELLI, LAURENT;RICCARDI, GIOVANNA;PASCA, MARIA ROSALIA;BINDA, CLAUDIA;
2014-01-01
Abstract
4-aminoquinolone piperidine amides (AQs) were identified as a novel scaffold starting from a whole cell screen, with potent cidality on Mycobacterium tuberculosis (Mtb). Evaluation of the minimum inhibitory concentrations, followed by whole genome sequencing of mutants raised against AQs identified decaprenylphosphoryl-β-D-ribose 2'-epimerase (DprE1) as the primary target responsible for the antitubercular activity. Mass spectrometry and enzyme kinetic studies indicated that AQs are non-covalent, reversible inhibitors of DprE1 with slow on rates and long residence times of ~100 minutes on the enzyme. In general, AQs have excellent lead-like properties and good in vitro secondary pharmacology profile. Although, the scaffold started off as a single active compound with moderate potency from the whole cell screen, SAR optimization of the scaffold led to compounds with potent DprE1 inhibition (IC50 <10 nM) along with potent cellular activity (MIC = 60 nM) against Mtb.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
