Here we report the expression of major pyrimidine metabolising enzymes in pancreatic cancer cell lines, chronic pancreatitis tissue and human pancreatic cancer and the in vitro uptake of 3'-[(18)F]fluoro-3'-deoxythymidine ([(18)F]FLT). The expression of pyrimidine metabolising enzymes was evaluated with real-time PCR, Western blot and immunostaining. Thymidine kinase 1 (TK-1) activity was measured with a fluorocytometric assay. The cellular uptake and intracellular metabolism of [(18)F]FLT were evaluated in pancreatic lobules and in transformed cancer cell lines. TK-1 and thymidine synthetase mRNA were increased in six pancreatic cancer cell lines, while mRNA levels of thymidine kinase 2 and deoxycytidine kinase were down-regulated. High TK-1 activity was confirmed in all cell lines. Furthermore, TK-1 was overexpressed in human pancreatic cancer as compared with normal pancreatic tissue and samples from patients with chronic pancreatitis. The cellular uptake of [(18)F]FLT was 18.4%+/-3.6% and 5.2%+/-1.4% of the applied radioactivity after 240 min in SW-979 and BxPc-3 cells, respectively, while uptake of [(18)F]fluorodeoxyglucose ([(18)F]FDG) was only 0.6%+/-0.04% (SW-979) and 0.3%+/-0.13% (BxPc-3) after 240 min of incubation. In contrast, cellular uptake of [(18)F]FLT in isolated pancreatic lobules and growth-arrested HT1080 cells was lower as compared with the uptake of [(18)F]FDG and with the malignant pancreatic cancer cell lines. HPLC analysis of the perchloric acid-soluble cell fraction demonstrated the phosphorylation of [(18)F]FLT to the respective monophosphate in both cell lines. Furthermore, 0.8%+/-0.12% (BxPc-3) and 1.3%+/-0.38% (SW-979) of the applied radioactivity was detected in the perchloric acid-insoluble cell fraction, indicating the incorporation of [(18)F]FLT into the DNA. Our results demonstrate the cellular uptake, intracellular trapping and incorporation into the DNA of [(18)F]FLT in pancreatic cancer cells in vitro. TK-1, as the rate-limiting enzyme of [(18)F]FLT metabolism, is overexpressed in pancreatic cancer cell lines and in human pancreatic cancer. Thus, we propose [(18)F]FLT as a promising tracer for positron emission tomography that might overcome current limitations in the diagnosis of pancreatic cancer.
Sodium butyrate inhibited initiation of viral and cellular DNA replication in polyoma virus-infected mouse kidney cells. Ongoing viral or cellular DNA replication, however, was not affected by the presence of the substance. Butyrate had no effect on T-antigen synthesis and on the stimulation of transcription, one of the earliest reactions of the infected cells to the appearance of T-antigen, nor did it inhibit expression of late viral genes (synthesis of viral capsid proteins). In addition to blocking the onset of DNA synthesis, butyrate also inhibited stimulation of the activities of enzymes involved in DNA synthesis. When butyrate was removed, viral and cellular DNA syntheses were induced in parallel after a lag period of approximately 4 h. At the same time, the activities of enzymes involved in DNA synthesis increase. If protein synthesis was inhibited during part of the lag period, the initiation of DNA synthesis was retarded for the same time interval, suggesting that the proteins involved in the initiation of DNA replication had to be made. We have developed an in vitro system for measuring DNA synthesis in crude nuclear preparations which mimics the status of DNA replication in intact cells and may help in future experiments to study the requirements for initiation of cellular and viral DNA synthesis and the possible involvement of T-antigens in this reaction.
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