Clinical, Biological, and Biochemical Effects of Pyrazofurin

Extensive conversion of Pyrazofurin to the 5 -PO, and higher phosphorylated derivatives occurs in naturally sensitive (Walker 256 carcinosarcoma) and resistant (L5178Y leukemia) tumors. A similar degree of conversion to phosphorylated derivatives was seen in acute myelogenous leukemic cells from patients. The insensitivity of the L5178Y leukemia may result from its greater capacity to utilize uridine in the presence of Pyrazofurin. Further more, L5178Y cells in culture can survive uridine depriva tion for much longer periods than can the Walker 256 tumor. Although intracellular concentrations of both uri dine triphosphate and cytidine triphosphate are depleted in culture, only a transient decrease is seen in the concen tration of cytidine triphosphate in L5178Y ascites cells from mice. The reductions in pyrimidine nucleotide pools may be responsible for the synergistic growth-inhibitory effects observed when Pyrazofurin is combined with 5fluorodeoxyuridine or 1-AŸ-D-arabinofuranosylcytosine. In patients, blockade of the metabolism of [carboxy/-14C]orotate was greater than 99% 15 min and 24 hr after a single i.v. dose of Pyrazofurin (200 mg/sq m). In 17 patients given weekly i.v. therapy, no complete remissions or major regressions of tumor masses were seen. Antitumor effect was observed in two of three patients with acute myelogenous leukemia and in one patient each with erythroleukemia, mycosis fungoides, and psoriasis. The limiting toxicity was oral mucositis; depression or erythropoiesis was apparent in all patients treated for more than 4 weeks.

[1]  J. Roboz,et al.  Pharmacological and biochemical effects of pyrazofurin in humans. , 1977, Cancer research.

[2]  P. Plagemann,et al.  Inhibition of de novo pyrimidine nucleotide and DNA synthesis and growth of cultured Novikoff rat hepatoma cells and other cell lines by pyrazofurin (NSC 143095). , 1976, Cancer research.

[3]  R. Hamill,et al.  BIOCHEMISTRY AND BIOLOGICAL EFFECTS OF THE PYRAZOFURINS * (PYRAZOMYCINS): INITIAL CLINICAL TRIAL , 1975, Annals of the New York Academy of Sciences.

[4]  A. Wolf,et al.  A general method of tritium labeling utilizing microwave discharge activation of tritium gas. Methodology and application to biological compounds. , 1973, The Journal of biological chemistry.

[5]  Chumakova My,et al.  Schedule dependence of the lethal effects of 6-azauridine and cytosine arabinoside on murine leukemia cells (L5178Y) in culture , 1973 .

[6]  G. Stark,et al.  Aspartate transcarbamylase. Interaction with the transition state analogue N-(phosphonacetyl)-L-aspartate. , 1971, The Journal of biological chemistry.

[7]  M. Chu,et al.  The incorporation of 3H-cytosine arabinoside and its effect on murine leukemic cells (L5178Y). , 1968, Biochemical pharmacology.

[8]  Handschumacher Re,et al.  METHODS FOR DETERMINATION OF PERMEABILITY OF CELLS TO DRUGS. , 1964 .

[9]  R. Handschumacher,et al.  METHODS FOR DETERMINATION OF PERMEABILITY OF CELLS TO DRUGS. , 1964, Methods in medical research.

[10]  E. Freireich,et al.  Correlations of the biochemical and clinical effects of 6-azauridine in patients with leukemia , 1962 .

[11]  H. Fallon,et al.  Summary of current information on 6-azauridine. , 1962, Cancer chemotherapy reports.

[12]  P. Calabresi,et al.  Alterations in human pyrimidine metabolism as a result of therapy with 6-azauridine. , 1961, Cancer research.