We assessed the chromosomal response of insect (mosquito, Aedes albopictus)
and mammalian (Chinese hamster ovary, CHO) cells to streptonigrin (SN). Bo
th types of cells were pulse-treated for 20 min with increasing doses of SN
and the frequency of chromosome aberrations and sister chromatid exchanges
(SCEs) for each SN dose was determined. Our results show that the SN doses
inducing remarkable chromosome damage (expressed as frequency of aberratio
ns per cell and per chromosome) in CHO cells fail to produce a significant
increase of aberrations in mosquito chromosomes. Moreover, CHO cells exhibi
ted a dose-dependent increase in SCEs which was not observed in mosquito ce
lls. Our results show that while mammalian cells are very sensitive, insect
cells are very resistant to SN at the chromosome level. It is possible tha
t variations in the chromatin Fibril structure and in the intracellular ant
ioxidant pool may be responsible for the differential response of insect an
d mammalian chromosomes to SN. Environ. Mel. Mutagen. 32:331-335, 1998 (C)
1998 Wiley-Liss, Inc.