The green fluorescent protein (GFP) gene offers many advantages as a viability reporter for high-throughput antimicrobial drug screening. However, screening for antituberculosis compounds by using GFP driven by the heat shock promoter, hsp60, has been of limited utility due to the low signal-to-noise ratio. Therefore, an alternative promoter was evaluated for its enhanced fluorescence during microplate-based culture and its response to 18 established antimicrobial agents by using a green fluorescent protein microplate assay (GFPMA). Mycobacterium tuberculosis strains H37Rv, H37Ra, and Erdman were transformed with pFPCA1, which contains a red-shifted gfp gene driven by the acetamidase promoter of M. smegmatis mc 2 155. The pFPCA1 transformants achieved higher levels of GFP-mediated fluorescence than those carrying the hsp60 construct, with signal-to-noise ratios of 20.6 to 27.8 and 3.8 to 4.5, respectively. The MICs of 18 established antimicrobial agents for all strains carrying pFPCA1 in the GFPMA were within 1 to 2 twofold dilutions of those determined by either the fluorometric or the visual microplate Alamar Blue assay (MABA). No significant differences in MICs were observed between wild-type and pFPCA1 transformants by MABA. The optimized GFPMA is sufficiently simple, robust, and inexpensive (no reagent costs) to be used for routine high-throughput screening for antituberculosis compounds.Tuberculosis continues to be a major global public health problem. In addition, the increasing prevalence of multidrugresistant Mycobacterium tuberculosis is of concern (20) and has fostered a sense of urgency with regard to the need to acquire new drugs. Several rapid methods such as the microplate Alamar Blue assay (MABA) (3, 5), the 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide-based assay (9), and the luciferase assay (1, 2, 7, 21) have been established for the screening of the antimycobacterial activities of compounds. However, each has one or more drawbacks for high-throughput screening, including the need to add a dye or a substrate to test the viability of the bacteria, a step which both increases labor and decreases safety.Fluorometric assays based on the Aequorea victoria gfp gene encoding a green fluorescent protein (GFP) or its mutants have been used widely in prokaryotes (8,10,11,24) due to several properties of gfp that are advantageous for use as a reporter for bacterial viability and growth, including the low level of toxicity, continuous production during replication, and easy imaging and quantification (11,25). Previous studies with mycobacteria exclusively used the hsp60 promoter, which has been fused to gfp in a variety of investigations (8,11,26). Collins et al. (6) demonstrated that a recombinant M. tuberculosis strain carrying pFPV2, an hsp60::gfp construct, could be used to assess the MICs of known antimycobacterial compounds. However, the low level of the fluorescence signal and the relatively high background autofluorescence of the medium precluded the establishment of a robust assa...
