Discovery and development of a new oxazolidinone with reduced toxicity for the treatment of tuberculosis.

Linezolid, an oxazolidinone, is a cornerstone of treatment regimens for highly drug-resistant tuberculosis but cannot be used in drug-susceptible disease because of toxicity. This toxicity results from inhibition of mammalian mitochondrial protein synthesis. Here we show the development of a new oxazolidinone, MK-7762, with antitubercular activity that is better than linezolid and limited mitochondrial protein synthesis inhibition. The cryogenic electron microscopy structure of the stalled mycobacterial ribosome with MK-7762 revealed the basis for this selectivity. BALB/c mouse models of disease showed MK-7762 reduced lung bacterial burden by a 3-log-fold decrease in an acute model (N = 18) and a 2-log-fold decrease in chronically infected animals (N = 18). MK-7762 showed lesion penetration similar to linezolid in C3HeB/FeJ mice. MK-7762 had pharmacokinetic properties predicting low once-daily doses in humans and a favorable 14-day preclinical safety profile in Wistar Han rats (N = 30) and Beagle dogs (N = 6). Four-month safety studies in both rats (N = 20) and dogs (N = 24) showed no changes in hematology parameters at exposures well above the 100-mg predicted human dose. These data will enable MK-7762 to be explored as a component of new tuberculosis treatment combinations for all forms of the disease.