Micronucleus test using cultured new born rat astrocytes.
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Micronuclei is induced in cytoplasm as a consequence of the formation of chromosomal fragments or remaining chromosomes during cell division by the cause of clastogens or spindle poisons, and is used as an indicator of genotoxicity screening tests. There are few short-term genotoxicity screening tests using brain cells. We attempted to establish a new in vitro micronucleus test (MN test) system by use of central nervous system cells. Primary cultured astrocytes were prepared from newborn male Sprague-Dawley (SD) rats. In growth curve of astrocytes, doubling time was determined to be 31 h. In time study, the highest frequency of micronuclei was observed at 48 h, 72 h and 6 h-exposure-66 h-recovery by vincristine (VCR), mitomycin C (MMC) without metabolic activation system and cyclophosphamide (CPM) with metabolic activation system, respectively. Dose-response relationships between micronucleus frequency and concentrations of MMC, VCR and CPM were observed, respectively. It is suggested that the in vitro MN test using new born rat-astrocytes could be used as a screening test of environmental and occupational genotoxic chemicals in the central nervous system cells. (+info)
Immunosurgical studies on cytological and cytogenetic toxicity analysis of rat blastocysts after in vivo exposure to cyclophosphamide.
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AIM: To establish immunosurgery and indices of cytogenetic assessment for blastocyst and its inner cell mass (ICM), and to evaluate the toxic effects after in vivo exposure to cyclophosphamide. METHODS: Modified immunosurgery was established by preparation of rabbit-anti-rat spleen antiserum and induction of diluted rat mixed serum as complement. Pregnant rats on d 3 of gestation were injected i.p. cyclophosphamide (10, 20, and 40 mg.kg-1). On d 4, immunosurgery was performed on rat blastocysts. The cell number and the micronuclei of blastocyst and ICM were evaluated respectively. RESULTS: In the cyclophosphamide-treated rats, decreases of cell number (35 +/- 3, 32 +/- 1, 30 +/- 1, and 14 +/- 2, 11 +/- 1, 9 +/- 2) and increases of frequency of micronuclei (1.81%, 2.27%, 3.14%, and 2.53%, 2.98%, 4.75%) in blastocysts and ICM were observed in a dose-related manner. The changes of blastocyst were, however, not parallel to those of ICM which were more serious. CONCLUSION: Modified immunosurgery, an objective and elegant technique, was used on rat blastocysts. In vivo could cyclophosphamide injured ICM more than blastocysts. (+info)
Micronuclei formation and aneuploidy induced by Vpr, an accessory gene of human immunodeficiency virus type 1.
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Vpr, an accessory gene of HIV-1, induces cell cycle abnormality with accumulation at G2/M phase and increased ploidy. Since abnormality of mitotic checkpoint control provides a molecular basis of genomic instability, we studied the effects of Vpr on genetic integrity using a stable clone, named MIT-23, in which Vpr expression is controlled by the tetracycline-responsive promoter. Treatment of MIT-23 cells with doxycycline (DOX) induced Vpr expression with a giant multinuclear cell formation. Increased micronuclei (MIN) formation was also detected in these cells. Abolishment of Vpr expression by DOX removal induced numerous asynchronous cytokinesis in the multinuclear cells with leaving MIN in cytoplasm, suggesting that the transient Vpr expression could cause genetic unbalance. Consistent with this expectation, MIT-23 cells, originally pseudodiploid cells, became aneuploid after repeated expression of Vpr. Experiments using deletion mutants of Vpr revealed that the domain inducing MIN formation as well as multinucleation was located in the carboxy-terminal region of Vpr protein. These results suggest that Vpr induces genomic instability, implicating the possible role in the development of AIDS-related malignancies. (+info)
Ordering of ceramide formation, caspase activation, and mitochondrial changes during CD95- and DNA damage-induced apoptosis.
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To evaluate the role of ceramide (Cer) in apoptosis signaling, we examined Cer formation induced by CD95, etoposide, or gamma-radiation (IR) in relation to caspase activation and mitochondrial changes in Jurkat T cells. The Cer response to all three stimuli was mapped in between caspases sensitive to benzoyloxycarbonyl-VAD-fluoromethylketone (zVAD-fmk) and acetyl-DEVD-aldehyde (DEVD-CHO). Cer production was independent of nuclear fragmentation but associated with the occurrence of other aspects of the apoptotic morphology. Caspase-8 inhibition abrogated Cer formation and apoptosis induced by CD95 but did not affect the response to etoposide or IR, placing CD95-induced Cer formation downstream from caspase-8 and excluding a role for caspase-8 in the DNA damage pathways. CD95 signaling to the mitochondria required caspase-8, whereas cytochrome c release in response to DNA damage was caspase-independent. These results indicate that the caspases required for the Cer response to etoposide and IR reside at or downstream from the mitochondria. Bcl-2 overexpression abrogated the Cer response to etoposide and IR and reduced CD95-induced Cer accumulation. We conclude that the Cer response to DNA damage fully depends on mitochondrion-dependent caspases, whereas the response to CD95 partially relies on these caspases. Our data imply that Cer is not instrumental in the activation of inducer caspases or signaling to the mitochondria. Rather, Cer formation is associated with the execution phase of apoptosis. (+info)
Micronuclei formation with chromosome breaks and gene amplification caused by Vpr, an accessory gene of human immunodeficiency virus.
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Vpr, an accessory gene of human immunodeficiency virus, induces cell cycle abnormality by accumulating cells at the G2-M phase. We reported recently that Vpr caused both micronuclei formation and aneuploidy. Here, we show that Vpr also induced chromosome breaks and gene amplification. Expression of Vpr induced more than 10-fold increase of colonies resistant to N-(phosphonacetyl)-L-aspartate, an inhibitor of pyrimidine de novo synthesis. Fluorescence in situ hybridization analysis detected that 4 of 10 N-(phosphonacetyl)-L-aspartate resistant clones studied had intrachromosomal amplification of carbamyl-phosphate synthetase/aspartate transcarbamoylase/dihydroorotase gene. Another single clone had dicentrics. Data suggested that the Vpr-induced chromosome breaks leading to gene amplification, followed by bridge-breakage-fusion cycle, were one of the possible mechanisms of Vpr-induced genomic instability. (+info)
The fungicide carbendazim induces meiotic micronuclei in the spermatids of the rat testis.
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Whether the fungicide carbendazim affects the meiotic spermatocytes and consequently induces chromosome aberrations in the spermatids was determined in the adult rat testis using the micronucleus test. Round spermatids containing micronuclei (MN) were significantly increased in number at stages I and V on days 1 and 4.5 after treatment with carbendazim (100 mg/kg), respectively (p<0.05). Immunocytochemistry indicated that approximately 68% of the carbendazim-induced MN contained kinetochores. These results suggest that carbendazim induces chromosome aberrations in spermatids with a high incidence of aneuploidy. (+info)
CREST staining of micronuclei from free-living rodents to detect environmental contamination in situ.
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In this work immunofluorescent antikinetochore (CREST) staining was used to analyse bone marrow micronuclei (MN) from free-living animals belonging to four different rodent species. Yellow-necked mice (Apodemus flavicollis) and bank voles (Clethrionomys glareolus) were trapped in the Czech Republic, Algerian mice (Mus spretus) in Spain and house mice (Mus musculus domesticus) in Italy. Animals were collected in areas displaying low or high environmental pollution in order to investigate the sensitivity of CREST analysis on bone marrow MN as a biomarker of environmental stress in situ. Differences in total MN frequencies between animals collected in control or contaminated areas were statistically significant for two species, whereas the differences in CREST+ MN were statistically significant for three species. Interestingly, the percentages of CREST+ MN in animals collected in the control areas were very low (3. 2-8.7%), suggesting that activities inducing alterations in the distribution of chromosomes are very rare in natural conditions. The increased frequencies of CREST+ MN observed in areas with high environmental impact indicate that activities producing loss of chromosomes at mitosis may be characteristic of anthropogenic environments such as industrial settlements around petrochemical factories. Our data suggest that the analysis of CREST+ MN may represent a sensitive end-point for the detection of environmental contamination by genotoxic xenobiotics, offering the advantage of providing information on the mechanism of action of environmental contaminants. (+info)
Change in centromeric and acentromeric micronucleus frequencies in human populations after chronic radiation exposure.
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Acute radiation exposure of humans was observed to induce various forms of cytogenetic damage, including increased frequencies of micronuclei and chromosomal aberrations. However, the cytogenetic effects of chronic low dose radiation exposure in vivo needs further characterization. Sixteen subjects with chronic low dose rates of gamma-radiation exposure from 60Co-contaminated steel in radioactive buildings were compared with seven non-exposed reference subjects for micronucleus frequencies after they relocated. By in situ hybridization using a digoxigenin-labeled anti-alpha all human centromere probe, the exposed subjects were shown to have a significant increase in cytochalasin B-modulated micronucleus (CBMN) frequencies, as well as a significant increase in centromere-positive (C+) CBMN, centromere-negative (C-) CBMN, total C+signals, single C+ MN signals and multiple C+ signals/1000 binucleated cells (BN). However, decreases in the ratios C+MN/C- MN and C+MN/total CBMN (%) were also noted in the exposed subjects. By mixed effects analysis, considering individuals from the same families, the C- MN and single C+ MN/1000 BN were both positively and moderately associated with previous cumulative exposure. When the time period of relocation post-exposure (relocation time or RT) was considered, total C+MN and multiple C+MN/1000 BN were negatively and significantly associated with RT. Moreover, the C+MN, C- MN, C+MN/C- MN ratio and single C+MN/1000 BN were all negatively and moderately associated with RT, but not with exposure dose. This suggested that acentromeric and single or multiple centromeric CBMN cytogenetic damage seems to disappear differentially in human subjects post chronic low dose radiation exposure. (+info)