The metabolic microenvironment of solid tumors is characterized by an oxygen deficiency and increased anaerobic glycolysis leading to extracellular acidosis and ATP depletion, which in turn may affect other energy-dependent cellular pathways. Since many tumors overexpress active drug transporters (e.g. the p-glycoprotein) leading to a multidrug-resistant phenotype, this study analyzes the impact of the different aspects of the extracellular microenvironment (hypoxia and acidosis) on the activity and expression of the p-glycoprotein (pGP) in the human colon carcinoma cell line LS513. For up to 24 h cells were exposed to hypoxia (pO2<0.5 mmHg), an acidic extracellular environment (pH 6.6), or the combination of hypoxia and acidosis. Under hypoxic conditions (at a normal pH), the pGP activity (measured by the daunorubicin efflux) and the pGP expression were not markedly altered. Under acidic conditions, however, the pGP-mediated drug efflux was increased, an effect which was even more pronounced when the cells were exposed to hypoxia and acidosis simultaneously (increasing the pGP-activity by 70%). The cellular pGP expression remained almost constant under these conditions, indicating that the increased transport rate results from a functional modulation. The findings of the present study indicate that the parameters of the tumor microenviroment (especially extracellular acidosis) can increase the pGP-mediated drug efflux, an effect which may explain the reduced cytotoxicity of chemotherapeutic agents in hypoxic/acidic tumors.