Background:To better characterize the function of the ABCG2 transporter in vitro, we generated three cell lines (MXRA, MXRG, and MXRT) stably expressing ABCG2 after transfection of wild-type ABCG2 and two mutants (R482G and R482T), respectively. Methods: ABCG2 expression and function were analyzed by flow cytometry using monoclonal antibodies, a variety of fluorescent substrates, and a series of potential inhibitors of the transporter. Results: ABCG2 expression was detected in all cell lines. The cell lines effluxed mitoxantrone (MXR), but only the mutants effluxed rhodamine 123 (Rho123), SYTO13, doxorubicin, and daunorubicin. After incubation with MXR, intracellular accumulations were 9-and 22-fold higher in MXRA than in MXRT and MXRG cells, respectively, suggesting that ABCG2 also modulates the influx rate of the drug. Flow cytometry kinetic studies of MXR
Background: The Side Population (SP) has become an important hallmark for the definition of the stem cell compartment, especially in the detection of these cells and in their physical isolation by fluorescence-activated cell sorting (FACS). SP cells are CD34neg and were discovered using ultraviolet excitation based on the efflux of Hoechst 33342 (Ho342). Although the method works as originally described, we believe that this method is difficult for most investigators. First, because the ability to discriminate SP cells is based on the differential retention of Ho342 during a functional assay; second, because of the difficulties in setting the right experimental and acquisition conditions; and third, because the analysis of the acquired data requires an extensive expertise on flow cytometry to accurately detect the SP events. Methods: First of all and mainly for the SP application, the laser beam paths were exhaustively checked to ensure the lowest coefficients of variation. Blood suspensions were prepared by erythrocyte lysis with ammonium chloride and hematopoietic cells were labeled with Ho342. Results: The Ho342 concentration and the staining procedure are critical for the optimal resolution of the SP cells. Although UV laser alignment is very important to resolve the dim tail that outlines the SP, the problem with Ho342 excitation is not the Hoechst Blue emission, but rather the Hoechst Red's (because of the weak emission). Conclusions: Each laboratory must establish its own expected ranges based on its instrument and results may vary slightly due to instrument differences such as the narrowness of the band pass filters, laser power, laser emission wavelength, nozzle type, differential of pressure, light collection system (cuvette versus jet-in-air) and beam shaping optics.
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