Flow cytometric evaluation of fas expression in relation to response and resistance to anthracyclines in leukemic cells.

Background: Cell chemosensitivity to cytotoxic drugs has been attributed to their ability to trigger apoptosis. The emergence of resistance in drug-exposed cells is often characterized by the appearance of drug efflux mechanisms including P-gp transport. Nevertheless, mdr1 expression may coexist with other resistance features, in particular those interfering with apoptotic signaling pathways.

Methods: Leukemic cell lines cultured in a progressively toxic environment were analyzed for Fas and P-gp expression by immunostaining and flow cytometry. Their mdr1 mRNA expression level was determined by reverse transcriptase-polymerase chain reaction (RT-PCR), and their apoptotic response was microscopically evaluated. Activation of the Fas pathway was obtained by cross-linking the Fas receptor with the 7C11 anti-Fas agonist.

Results: We demonstrate a dose-dependent Fas overexpression after short-term (18 h) incubation with daunorubicin. The subsequent sensitization to Fas activators led to a significant increase in the apoptotic response induced by 7C11. After long-term exposure to daunorubicin and acquisition of drug resistance, expression of P-gp was accompanied by a decrease in the number of Fas sites at the cell surface with a correlated desensitization to Fas-induced apoptosis. Additional alterations in the Fas signaling pathway can also be hypothesized in the most resistant Jurkat cell line.

Conclusions: The induction of Fas expression could be one of the mechanisms of action of chemotoxic drugs and thus might enhance the cell susceptibility to Fas-mediated apoptosis. On the contrary, the emergence of the multidrug resistance phenotype is associated with a down-regulation of Fas expression and possible defects in the Fas signaling pathway.