ABSTRACT
In the present study we have tried to add some new results to those data previously obtained by Natarajan et al. (1983) and Darroudi and Natarajan (1985), where they have used in vivo metabolization and cytogenetic testing for in vitro analysis of xenobiotic compounds. Sprague-Dawley rats were treated intraperitoneally with 2.5, 5.0, 10.0 and 20.0 mg/kg b.w. of cyclophosphamide in order to obtain plasma containing active metabolites of the drug. The mutagenic activity was assessed by estimating the frequencies of sister-chromatid exchanges (SCE) in human and rat lymphocytes. No influence of animal age was observed on the metabolism of cyclophosphamide, which could be detected by SCE analysis. The increase in SCE frequencies in both human and rat lymphocytes was dependent on the doses applied. SCE frequencies are highly variable among individuals, showing statistically significant differences. The same effect, but to a lesser extent, was also found in rats. Rat lymphocytes can be assumed to be good biological material for chemical mutagenesis, as the animals can be maintained at almost constant experimental conditions. However, rat lymphocytes do not grow well in in vitro cultures. These data contribute to the preview proposal that combining metabolism in vivo and chromosome SCE analysis in vitro can be regarded as an important and very sensitive system to detect the mutagenic activity of low-dose exposure to chemical compounds requiring metabolic activation.
