In our previous study we developed two lines of human larynx carcinoma HEp2 cells resistant to cis-diamminedichloroplatinum(II) (CDDP) due to acute (CA3 cells), or continuous (CK2 cells) treatments with increased CDDP concentrations. CA3 line was 2.3-fold resistant, and CK2 line 3.7-fold resistant to CDDP as compared to the parental cells. In this study the sensitivity of CDDP resistant and parental cells to several antitumor drugs was examined using clonogenic survival assay. CK2 cells were 1.7-fold more resistant to vincristine than parental cells, while CA3 cells exhibited resistance to vincristine only at higher concentrations of this drug. Verapamil, an inhibitor of P-glycoprotein, was not able to reverse the resistance of CK2 cells to vincristine, indicating that this cross-resistance did not involve P-glycoprotein. As compared to the parental cells, CK2 cells were 2.1-fold resistant, and CA3 cells 1.7-fold resistant to mitomycin C. CK2 cells were 2-fold more resistant to 5-fluorouracil than the parental cells, while CA3 cells did not exhibit any change in the sensitivity to this drug. CA3 cells were 0.4-fold sensitive to epoxide and 0.53-fold sensitive to doxorubicin, while CK2 cells had the same sensitivity to these drugs as the parental cells. Our results showed that treatment schedule determines the response of CDDP resistant human larynx carcinoma cells to additional drugs, suggesting the complexity of the judicious choice of the drugs in the combined modality treatments of cancer.