Multidrug resistance modifies polyamines uptake in P388 murine lymphoma cells: experimental and modeling approach. |
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Authors: | V Berlaimont P Bogaerts J Dubois R Hanus M Hanocq |
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Affiliation: | Department of Bioanalytical Chemistry, Toxicology and Applied Physical Chemistry, Université Libre de Bruxelles, Belgium. valerie.berlaimont@wanadoo.fr |
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Abstract: | Polyamines (putrescine, spermidine and spermine) are ubiquitous compounds, essential for cell growth. This paper compares the polyamine transport between sensitive P388 murine lymphoma cells and two multidrug resistant P388 sublines with the assistance of an experimental model. This new model allows the characterisation of the whole polyamines uptake and efflux. Three parameters are identified by the model: two rate constants (K+ for the uptake and K- for the efflux) which are considered as physical constants specific to the transport of one polyamine in one cell type, and Ci(o) which represents the initial intracellular concentration. This model well describes our experimental results of polyamine transport across the P388 cell plasma membrane. Multidrug resistant P388 cells exhibit spermine uptake significantly higher than that of sensitive cells when on the opposite, putrescine enters more rapidly into the sensitive P388 cells. In conclusion, comparison of polyamine transport between sensitive and multidrug resistant P388 phenotypes shows large and significant differences. |
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