Salmonella typhimurium Lacking Ribose Chemoreceptors Localize in Tumor Quiescence and Induce Apoptosis

RW Kasinskas, NS Forbes - Cancer research, 2007 - AACR
RW Kasinskas, NS Forbes
Cancer research, 2007AACR
The effectiveness of most chemotherapeutics is limited by their inability to penetrate deep
into tumor tissue and their ineffectiveness against quiescent cells. Motile Salmonella
typhimurium, which are specifically attracted to compounds produced by quiescent cancer
cells, could overcome this therapeutic barrier. We hypothesized that individual
chemoreceptors target S. typhimurium to specific tumor microenvironments. To test this
hypothesis, we used time-lapse fluorescent microscopy and tumor cylindroids to quantify the …
Abstract
The effectiveness of most chemotherapeutics is limited by their inability to penetrate deep into tumor tissue and their ineffectiveness against quiescent cells. Motile Salmonella typhimurium, which are specifically attracted to compounds produced by quiescent cancer cells, could overcome this therapeutic barrier. We hypothesized that individual chemoreceptors target S. typhimurium to specific tumor microenvironments. To test this hypothesis, we used time-lapse fluorescent microscopy and tumor cylindroids to quantify the accumulation of chemotaxis machinery knockouts, including strains lacking individual cell surface chemoreceptors, chemotaxis signal transduction pathway enzymes, and the flagella and motor assemblies. To measure the extent of apoptosis induced by individual bacterial strains, caspase-3 activity was measured as a function of time. Our results showed how chemoreceptors directed bacterial chemotaxis within cylindroids: the aspartate receptor initiated chemotaxis toward cylindroids, the serine receptor initiated penetration, and the ribose/galactose receptor directed S. typhimurium toward necrosis. In addition, strains lacking proper flagella constructs, signal transduction proteins, or active motor function did not chemotax toward tumor cylindroids, indicating that directed chemotaxis is necessary to promote accumulation in tumors. By deleting the ribose/galactose receptor, bacterial accumulation localized to tumor quiescence and had a greater individual effect on inducing apoptosis than wild-type S. typhimurium. This new understanding of the mechanisms of Salmonella migration in tumors will allow for the development of bacterial therapies with improved targeting to therapeutically inaccessible regions of tumors. [Cancer Res 2007;67(7):3201–9]
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