Oxidation of palmitic acid by Mycobacterium leprae in an axenic medium

Abstract

The ability of Mycobacterium leprae to oxidize palmitic acid during incubation in an axenic medium was studied. By using a Buddemeyer-type detection system, partially purified nude-mouse-derived M. leprae was found to produce 14CO2 from 14C-labeled palmitic acid in a linear fashion for at least 1 week. Procedures known to remove residual host tissue did not diminish the rate of 14CO2 evolution, indicating that bacterial metabolism was being measured. Palmitate oxidation was temperature sensitive, with an apparent optimum of 33°C, but pH insensitive. Bacilli exposed to a variety of antileprosy drugs for 1 or 2 weeks displayed significantly reduced rates of 14CO2 evolution upon subsequent addition of 14C-labeled palmitic acid. This activity could be readily detected with 106 bacilli, thus indicating its potential for use in clinical susceptibility testing.