BACKGROUND: Leishmaniases are major parasitic diseases caused by protozoans that are obligate intracellular parasites during the mammalian phase of their life cycle. Quantitation of experimental mammalian cell infections is usually performed by time-consuming microscopic examination. In this report a flow cytometry (FCM)-based assay suitable for studying in vitro infections by L.amazonensis is presented. METHODS: Intense fluorescence staining of the amastigote forms with a stage- and species-specific monoclonal antibody was obtained after permeabilization of both the host-cell cytoplasmic membrane and the parasitophorous vacuole membrane by saponin treatment. RESULTS: Upon flow cytometry (FCM) analysis, parasitized cells separated sharply from the auto-fluorescence of the mammalian host cells, giving the assay a high degree of sensitivity and specificity. Ninety to 98% of cells in the more fluorescent population harbored parasites visible by phase-contrast and UV-light microscopy, while no parasites were observed in more than 95% of the cells in the population with background fluorescence. Comparisons of the FCM results with those from microscope counting and analysis of various dilutions of parasitized cells confirmed the reliability of the method. CONCLUSIONS: The FCM assay provided rapid quantitation of Leishmania infection either in mouse macrophages, the natural host cell in murine leishmaniasis, or in Chinese hamster ovary (CHO) cells, a non-macrophage cell line proposed as an in vitro model for studying host-parasite interactions. The protocol described here should be adaptable to studies involving other parasites residing in nucleated cells. Copyright 2000 Wiley-Liss, Inc.
BACKGROUND:Leishmaniases are major parasitic diseases caused by protozoans that are obligate intracellular parasites during the mammalian phase of their life cycle. Quantitation of experimental mammalian cell infections is usually performed by time-consuming microscopic examination. In this report a flow cytometry (FCM)-based assay suitable for studying in vitro infections by L.amazonensis is presented. METHODS: Intense fluorescence staining of the amastigote forms with a stage- and species-specific monoclonal antibody was obtained after permeabilization of both the host-cell cytoplasmic membrane and the parasitophorous vacuole membrane by saponin treatment. RESULTS: Upon flow cytometry (FCM) analysis, parasitized cells separated sharply from the auto-fluorescence of the mammalian host cells, giving the assay a high degree of sensitivity and specificity. Ninety to 98% of cells in the more fluorescent population harbored parasites visible by phase-contrast and UV-light microscopy, while no parasites were observed in more than 95% of the cells in the population with background fluorescence. Comparisons of the FCM results with those from microscope counting and analysis of various dilutions of parasitized cells confirmed the reliability of the method. CONCLUSIONS: The FCM assay provided rapid quantitation of Leishmania infection either in mouse macrophages, the natural host cell in murineleishmaniasis, or in Chinese hamster ovary (CHO) cells, a non-macrophage cell line proposed as an in vitro model for studying host-parasite interactions. The protocol described here should be adaptable to studies involving other parasites residing in nucleated cells. Copyright 2000 Wiley-Liss, Inc.