Drug effects on intracellular mycobacteria determined by mass spectrometric analysis of the Na(+)-to-K+ ratios of individual bacterial organisms.

The successful establishment of a drug screening system for intracellular cultivable and noncultivable mycobacteria based on the mass spectrometric determination of bacterial viability is described. To compare drug efficacies on intra- and extracellular mycobacteria, the mycobacteria were subjected to drug treatment either after phagocytosis by the mouse macrophage cell line RAW 264.7 or in cell-free medium. After reisolation, their viability was monitored by analyzing the intrabacterial sodium-to-potassium ratios for a limited number of individual organisms. This approach offers a reliable and quick tool for monitoring the influence of intracellular growth and of additional permeation barriers on intracellular drug efficacy and will thus provide useful information for the rational development and testing of optimized antimycobacterial drugs. In particular, the methodology is applicable to the noncultivable species Mycobacterium leprae, because the mass spectrometric analysis of the intrabacterial sodium-to-potassium ratio allows the determination of bacterial viability independent from their ability to multiply in vitro. Because of the improved metabolic activity of intracellularly growing M. leprae compared with that of extracellularly growing M. leprae, the spectrum of antileprosy drugs that can be tested in vitro could even be extended to those interfering with DNA replication and cell division.

Development of an in vitro drug screening system for Mycobacterium leprae based on the determination of the intrabacterial sodium to potassium ratio of individual bacterial organisms.

In vitro drug effects on Mycobacterium leprae (M. leprae) in a cell-free system have been monitored by mass spectrometric determination of the ratio of the intrabacterial concentrations of the sodium and potassium ions (Na(+), K(+) ratio) of a limited number of individual bacteria per sample. From the drug-induced increase of the median values of the distributions of the Na(+), K(+) ratio, information on the concentration and time dependence of drug effects as well as on antagonistic or synergistic interactions of drugs has been obtained. Moreover, absolute values for the percentage of killed bacteria (% kill) have been derived from the distribution of the Na(+), K(+) ratios within a bacterial population. For this, the limiting value of the Na(+), K(+) ratio (up to which bacteria are viable) -which had been determined as 0.45 for cultivable bacteria - has been presumed to be valid also for M. leprae. Highest killing rates have been observed for fusidic acid and clarithromycin, followed by rifabutine, rifampin, and clofazimine. Minocycline and dapsone have shown only moderate killing effects and isoniazid and - probably due to the restricted metabolism of M. leprae in a cell-free medium - ofloxacin have been completely inactive. Strong ofloxacin effects, however, have been observed for cultivable mycobacteria and intracellular M. leprae phagocytized by a murine macrophage cell line.