Comparative analysis of micronuclei and DNA damage induced by Ochratoxin A in two mammalian cell lines.

The fungal toxin, Ochratoxin A (OTA), is a common contaminant in human food and animal feed. The present study evaluated micronucleus (MN) induction by OTA in comparison with its ability to induce cytotoxicity and DNA damage in two mammalian cell lines, CHO-K1-BH(4) Chinese hamster ovary cells and TK6 human lymphoblastoid cells. Micronuclei were evaluated by flow cytometry, cytotoxicity was estimated by relative population doubling (RPD), while direct DNA damage and oxidative DNA damage were measured with the Comet assay, performed without and with digestion by formamidopyrimidine-DNA glycosylase (fpg). For the MN and cytotoxicity measurements, the cell lines were treated for 24h (CHO cells) or 27h (TK6 cells) with 5-25μM OTA in the absence of exogenous metabolic activation. The OTA treatments resulted in concentration-responsive increases in cytotoxicity, with higher concentrations of the agent being more cytotoxic in CHO cells than TK6 cells. 15μM OTA produced positive responses for MN induction and hypodiploid events (a measure of aneugenicity) in both cell lines; this concentration of OTA also produced cytotoxicity near to the recommended limit for the assay (45±5% RPD). A time course assay with TK6 cells indicated that at least 4h of OTA treatment were required to produce a positive MN response. For the Comet assay DNA damage assessments, the cell lines were treated with 5-50μM OTA for 4h. Direct DNA damage was detected in TK6 cells, but not CHO cells, while concentration-related increases in fpg-sensitive sites were detected for both cell lines. The consistent association of oxidative DNA damage with OTA exposure suggests its involvement in producing OTA-induced clastogenicity and aneugenicity; however, based on its detection in TK6 cells direct DNA damage could be involved in any human risk posed by OTA exposure.

Ali R ，Mittelstaedt RA ，Shaddock JG ，Ding W ，Bhalli JA ，Khan QM ，Heflich RH ... -  《-》

Ochratoxin A: induction of (oxidative) DNA damage, cytotoxicity and apoptosis in mammalian cell lines and primary cells.

Kamp HG ，Eisenbrand G ，Schlatter J ，Würth K ，Janzowski C ... -  《TOXICOLOGY》

The mycotoxin ochratoxin A inhibits DNA topoisomerase II and induces polyploidy in cultured CHO cells.

Cosimi S ，Orta L ，Mateos S ，Cortés F ... -  《-》

Ochratoxin a causes DNA damage and cytogenetic effects but no DNA adducts in rats.

Mally A ，Pepe G ，Ravoori S ，Fiore M ，Gupta RC ，Dekant W ，Mosesso P ... -  《CHEMICAL RESEARCH IN TOXICOLOGY》

Involvement of p53 function in different magnitude of genotoxic and cytotoxic responses in in vitro micronucleus assays.

In in vitro micronucleus (MN) assays the sensitivity to MN induction or cytotoxicity can vary depending on the kind of cells employed. This study was conducted to examine the involvement of the p53 function in the different sensitivities between Chinese hamster lung (CHL) cells and human lymphoblastoid TK6 cells in MN assays. MN induction and cytotoxicity were compared using MN-inducing chemicals reported as DNA reactive clastogens, non-DNA reactive clastogens or aneugens. The study revealed that the maximum levels of MN induction in p53-compromised CHL cells were higher than those in p53-competent TK6 cells, but MN were significantly induced in TK6 cells at lower concentrations than in CHL cells. Most of the test chemicals produced a more severe cytotoxicity in TK6 cells, suggesting TK6 cells are more sensitive for cytotoxicity than CHL cells. An additional experiment with 9 MN inducers revealed that the magnitude of MN induction and cytotoxicity were comparable between p53-competent TK6 cells and its p53-null mutant NH32 cells at the same concentrations. Furthermore, the MN frequencies induced by methylmethane sulfonate, aphidicolin and hydroxyurea in NH32 cells were identical to those in TK6 cells at different recovery times. From these results, it is suggested that the p53 abrogation does not explain the difference in sensitivity to MN induction or cytotoxicity between CHL and TK6 cells. In this regard, p53 abrogated NH32 cells can be an option for the in vitro MN assay.

Hashimoto K ，Nakajima Y ，Uematsu R ，Matsumura S ，Chatani F ... -  《-》