aphidicolin and Precursor-Cell-Lymphoblastic-Leukemia-Lymphoma

It has been reported that thymidylate synthase (TS) is a component of a multienzyme complex associated with DNA replication based on observations that enzyme activity was decreased when cells were treated with various DNA synthesis inhibitors (Plucinski, T. M., Fager, R. S., and Reddy, G. P. V. (1990) Mol. Pharmacol. 38, 114-120). The veracity of the TS assay (known as the tritium release assay) employed in these experiments may be compromised, however, because it requires the S phase-specific enzyme thymidine kinase (TK) to phosphorylate the substrate [5-3H]dUrd. In our study, this problem was further illustrated as the phosphorylated products of [14C]dCyd and [6-3H]dUrd were simultaneously quantitated to determine the activities of TS, TK, and dCyd kinase in intact CCRF-CEM cells. TS and dCyd kinase were unaffected by aphidicolin, hydroxyurea, and 1-beta-D-arabinofuranosylcytosine, whereas TK was strongly inhibited by these agents. Elevation of the cellular dTTP pool that accompanied drug treatment was not the primary mechanism affecting TK activity because incubation of cells with dCyd elevated the dTTP pool to similar levels, but did not inhibit TK to the same extent as did the drugs. Furthermore, after cells were washed from aphidicolin, [6-3H]dCyd incorporation, which primarily labels dTMP in DNA, proceeded at a linear rate, whereas a lag period of 15 min was observed before [3H]dThd was incorporated at a linear rate. These results suggest that TK activity is affected by more than one mechanism in intact cells. Because the activities of dCyd kinase and dCMP deaminase do not fluctuate as much as that of TK in response to changes in DNA synthesis activity and cell cycle, dCyd incorporation appears to be a more reliable assay of TS in intact cells than does dUrd incorporation. Our findings also imply that [3H]dThd incorporation assays may overestimate inhibition of DNA synthesis.

Topics: Aphidicolin; Carbon Radioisotopes; Cell Cycle; Cytarabine; Deoxycytidine; Deoxyuridine; DNA Replication; DNA, Neoplasm; Hydroxyurea; Kinetics; Precursor Cell Lymphoblastic Leukemia-Lymphoma; Thymidine Kinase; Thymidylate Synthase; Time Factors; Tritium; Tumor Cells, Cultured

New information is revealed concerning the frequency of expression and distribution of aphidicolin-induced fragile sites in eight leukaemic patients, namely, four chronic myeloid leukaemic patients (CML), three acute lymphocytic leukaemic (ALL) patients, and one acute myeloid leukaemic (AML) patient. The cytogenetic data demonstrate a statistically significant (p less than 10(-6] increase in the frequency of aphidicolin-induced fragile sites in seven of the eight leukaemic patients compared with healthy age-matched and sex-matched controls. The chromosomal band locations of the aphidicolin-induced fragile sites from 400 metaphase spreads of these leukaemic patients reveal a nonrandom distribution in the karyotype. Some aphidicolin-induced fragile sites in these leukaemic patients were located at chromosome bands known to be induced specifically by folic acid, distamycin A, bromodeoxyuridine or azacytidine. The cross-induction of fragile sites in the leukaemic patients may be indicative of shared molecular homology in the sequence composition of nonrandom chromosomal DNA.

Topics: Aphidicolin; Cells, Cultured; Chromosome Fragile Sites; Chromosome Fragility; Diterpenes; Humans; Leukemia, Myelogenous, Chronic, BCR-ABL Positive; Leukemia, Myeloid, Acute; Male; Precursor Cell Lymphoblastic Leukemia-Lymphoma