Plasma drug levels compared with DNA incorporation of 3'-azido-3'-deoxythymidine (AZT) in adult cynomolgus (Macaca fascicularis) monkeys.

Zidovudine (3'-azido-3'-deoxythymidine, AZT), widely used for the therapy of the Human Immunodeficiency Virus-1 (HIV-1), is a nucleoside analog of thymidine that becomes phosphorylated and incorporated into nuclear and mitochondrial DNA. Levels of AZT incorporation into DNA of humans, monkeys, and mice are highly variable and suggest interindividual variability in phosphorylation pathways. In addition, studies in rhesus monkeys (1) have shown a lack of correlation between levels of unbound AZT in plasma and tissue AZT-DNA. However, the correlation between plasma AZT and tissue AZT-DNA has not been previously examined in the same primate. Here we examine the relationship between AZT-DNA incorporation in leukocytes and multiple organs, and levels of the drug circulating in plasma of adult female cynomolgus (Macaca fascicularis) monkeys. Three monkeys were dosed with 40.0 mg of AZT/day for 30 days by naso-gastric intubation. The average daily dose of 9.9 mg of AZT/kg/body wt was similar to the approximately 8.6 mg of AZT/kg/body wt (600 mg/day) given to adult HIV-1-infected patients. In all three monkeys, at the time of sampling, values for AZT concentrations in plasma were similar and values for AZT incorporation into leukocyte DNA (86.1, 100.0, and 114.1 molecules of AZT/10(6) nucleotides) were also similar. AZT-DNA incorporation was detected in liver, uterus, spleen, and kidney from the three AZT-exposed animals, with values for positive samples ranging from 5.8 to 97.4 molecules of AZT/10(6) nucleotides. In brain cortex and lung DNA from AZT-exposed animals, AZT incorporation was undetectable. The data suggest that organ-specific differences in AZT uptake and/or metabolism may contribute to AZT phosphorylation and subsequent drug incorporation into DNA. In addition, AZT-DNA levels in monkey organs were similar to or lower than values observed in peripheral leukocytes of adult AIDS patients.

Genotoxicity of 3'-azido-3'-deoxythymidine in the human lymphoblastoid cell line, TK6: relationships between DNA incorporation, mutant frequency, and spectrum of deletion mutations in HPRT.

Perinatal treatment with 3'-azido-3'-deoxythymidine (AZT) has been found to reduce the rate of maternal-infant transmission of HIV; however, AZT is genotoxic in mammalian cells in vitro and induces tumors in the offspring of mice treated in utero. The purpose of the present study was to investigate the relationships between incorporation of AZT into DNA, and the frequency and spectrum of mutations at the HPRT locus of the human lymphoblastoid cell line, TK6, following in vitro exposures to AZT. Cells were cultured in medium containing 0 or 300 microM AZT for 1, 3, or 6 day(s) (n = 5/group). The effects of exposure duration on incorporation of AZT into DNA and HPRT mutant frequency were determined using an AZT radioimmunoassay and a cell cloning assay, respectively. AZT accumulated in DNA in a supralinear manner, approaching a plateau at 6 days of treatment (101.9 +/- 14.7 molecules AZT/10(6) nucleotides). After 3 days of AZT exposure, HPRT mutant frequency was significantly increased (1.8-fold, p = 0.016) compared to background (mutant frequency = 3.78 x 10(-6)). Multiplex PCR amplification of genomic DNA was used to determine the frequency of exon deletions in HPRT mutant clones from untreated cells versus AZT-treated cells. Molecular analyses of AZT-induced mutations revealed a significant difference in the frequency of total gene deletions (44/120 vs. 18/114 in controls, p = 0.004 by the Mann-Whitney U-statistic). In fact, the Chi-square test of homogeneity demonstrate that the differences between the control and AZT-treatment groups is attributed mainly to this increase in total gene deletion mutations (p = 0.00001). These data indicate that the primary mechanism of AZT mutagenicity in human TK6 cells is through the production of large deletions which occur as a result of AZT incorporation into DNA and subsequent chain termination. The data imply that perinatal chemoprophylaxis with AZT may put children of HIV-infected women at potential risk for genetic damage.