Drug resistant tumor cells have increased levels of tumor markers for invasion and metastasis.

The association between drug-resistance and three markers for invasive capacity: cathepsin D (Cath D), urokinase type plasminogen activator (uPA) and inhibitor of plasminogen activator type 1 (PAI-1) was examined in nine cervical and laryngeal carcinoma cell lines resistant to different cytostatics. The level of Cath D was measured by solid phase two-site immunoradiometric assay, while uPA and PAI-1 concentrations were determined by use of ELISA. All drug resistant cell lines had increased concentration of cathepsin D. uPA levels were similar in parental and drug resistant cervical carcinoma cells, but significantly higher in all examined drug resistant laryngeal carcinoma cells. In cervical carcinoma cells, PAI-1 concentrations were similar in parental and cisplatin resistant, but significantly higher in doxorubicin resistant cells. In laryngeal carcinoma cells, no increase in concentrations of PAI-1 was determined in the three from five resistant cell lines. There was no uPA in conditioned medium of parental or drug resistant cells. PAI-1 was detected in conditioned medium. Its levels were significantly increased in the medium of two cervical and three laryngeal drug resistant carcinoma cells. Thus, our results suggest that drug-resistance may be accompanied by increased levels of tumor associated proteases and/or its inhibitor.

Diazenes as modificators of drug-resistance in tumor cells.

To overcome the drug resistance, which is the major obstacle in the successful treatment of cancer patients, various compounds have been tested. Glutathione is one of the most promising targets for modulation. In the present study, we examined the influence of five new synthesized compounds--diazenes on the reduction of the intracellular level of GSH. Further, we investigated their ability to increase the cytotoxicity of cisplatin, vincristine and doxorubicin. In experiments human parental cervical (HeLa) and laryngeal (HEp2) carcinoma cells and their drug-resistant cell sublines (HeLaCA and CK2, respectively) were used. Intracellular GSH content was examined spectrophotometrically by the procedure developed by Tietze. The cell sensitivity to drugs was determined using a modified colorimetric MTT assay. Results showed that the rate of reduction of GSH concentration was dependent on the cell type and the type of diazenes. We did not find a correlation between the reduction in GSH level and increased cytotoxicity to selected anticancer drugs. Nevertheless, we found that: a) diazenes LV-35 and VZ-19 increased the cytotoxicity of cisplatin in HEp2 cells, b) diazene MG-19 potentiated the cytotoxicity of vincristine in HEp2 cells, and c) diazene VZ-19 in HeLaCA cells. These data suggest that specific combination of diazene and anticancer drug may be useful in the treatment of certain tumor types.

Single inoculation of replication-defective adenovirus-vectored vaccines at birth in piglets with maternal antibodies induces high level of antibodies and protection against pseudorabies.

In neonates, one limitation of vaccination is its inhibition by maternal antibodies. We show that piglets vaccinated intramuscularly once at birth with recombinant replication-defective adenoviruses developed comparable neutralizing antibody response against pseudorabies virus, independently of the presence or absence of maternal antibodies, and were partially protected against challenge 16 weeks later.