Aggregatibacter (formerly Actinobacillus) actinomycetemcomitans is a pathogen that causes localized aggressive periodontitis and extraoral infections including infective endocarditis. Recently, we reported that A. actinomycetemcomitans is beta-hemolytic on certain growth media due to the production of leukotoxin (LtxA). Based on this observation and our ability to generate random transposon insertions in A. actinomycetemcomitans, we developed and carried out a rapid screen for LtxA mutants. Using PCR, we mapped several of the mutations to genes that are known or predicted to be required for LtxA production, including ltxA, ltxB, ltxD, and tdeA. In addition, we identified an insertion in a gene previously not recognized to be involved in LtxA biosynthesis, ptsH. ptsH encodes the protein HPr, a phosphocarrier protein that is part of the sugar phosphotransferase system. HPr results in the phosphorylation of other proteins and ultimately in the activation of adenylate cyclase and cyclic AMP (cAMP) production. The ptsH mutant showed only partial hemolysis on blood agar and did not produce LtxA. The phenotype was complemented by supplying wild-type ptsH in trans, and real-time PCR analysis showed that the ptsH mutant produced approximately 10-fold less ltxA mRNA than the wild-type strain. The levels of cAMP in the ptsH mutant were significantly lower than in the wild-type strain, and LtxA production could be restored by adding exogenous cAMP to the culture.
Screens for compounds and proteins with anti-cancer activity employ viability assays using relevant cancer cell lines. For leukaemia studies, the human leukaemia cell line, HL-60, is often used as a model system. To facilitate the discovery and investigation of anti-leukaemia therapeutics under physiological conditions, we have engineered HL-60 cells that stably express firefly luciferase and produce light that can be detected using an in vivo imaging system (IVIS). Bioluminescent HL-60luc cells could be rapidly detected in whole blood with a sensitivity of approximately 1000 viable cells/200 microl blood. Treatment of HL-60luc cells with the drug chlorambucil revealed that the bioluminescent viability assay is able to detect cell death earlier than the Trypan blue dye exclusion assay. HL-60luc cells administered intraperitoneally (i.p.) or intravenously (i.v.) were visualized in living mice. The rapidity and ease of detecting HL-60luc cells in biological fluid indicates that this cell line could be used in high-throughput screens for the identification of drugs with anti-leukaemia activity under physiological conditions.
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