At the Washington International Workshop on Genotoxicity Test Procedures (March 25–26, 1999), the current methodologies and data for the in vitro micronucleus test were reviewed. From this, guidelines for the conduct of specific aspects of the protocol were developed. Because there are a number of important in vitro micronucleus validation studies in progress, it was not possible to design a definitive, internationally harmonized protocol at this time. Agreement was achieved on the following topics: Cells. The choice of cells is flexible, yet the choice of cell type should be justified and take into consideration doubling time, spontaneous frequency of micronuclei, and genetic background. Slide preparation. A fixation method that preserves the cytoplasm and cytoplasmic boundaries, and minimizes clumping should be used. Use of fluorescent DNA‐specific dyes is encouraged for better detection of small micronuclei. Analysis. Micronuclei should have a diameter less than one‐third of the main nucleus, and should be clearly distinguishable from the main nucleus. In the cytokinesis‐block method, binucleated cells selected for analysis should have two clearly distinguishable main nuclei. Cells where the main nucleus(ei) is undergoing apoptosis should not be scored for micronuclei because the assumed micronuclei may have been the result of nuclear fragmentation during the apoptotic process. Toxicity. Cytotoxicity can be measured by various methods including cell growth, cell counts, nucleation (i.e., percent binucleated), division/proliferation index, confluence. A majority of the group recommended that the highest concentration should induce at least 50% cytotoxicity (by whatever measure is selected). Cytochalasin B. There is much debate regarding the use of cytochalasin B. For human lymphocytes, the use of cytochalasin B (6 μg/ml [lymphocytes cultured from whole blood cells] and 3–6 μg/ml [isolated lymphocyte cultures]) is recommended. For cell lines, because there were no definitive data showing a clear advantage or disadvantage of the use of cytochalasin B for a variety of chemicals, the majority opinion of the group was that at this time, the use of cytochalasin B for cell lines is considered optional. Further studies (many chemicals of a variety of potencies, tested both with and without cytochalasin B) are clearly needed to resolve this issue. Number of doses. At least three concentrations should be scored for micronuclei. Treatment/harvest times. At this time, there are not enough data to define the most appropriate treatment/harvest times. Following the principles of the in vitro metaphase assay (with or without metabolic activation), it was agreed that there was a need for a short treatment followed by a recovery time in the absence of test chemical, there was a need for a long treatment (maybe with and without recovery time), and ideally, treatment should cover cells in different cell cycle stages. Environ. Mol. Mutagen. 35:167–172, 2000 © 2000 Wiley‐Liss, Inc.
Microarray technology allows the simultaneous analysis of mRNA expression levels of thousands of genes. In the field of toxicogenomics, this technology could help to identify potentially unsafe compounds based on the changes in mRNA expression patterns they induce. Rodent in vivo and in vitro systems are currently the experimental models of choice for predictive toxicology, especially in early phases of development. This study characterizes several hepatic in vitro systems based on mRNA expression profiles, comparing them to gene expression in liver tissue. The in vitro systems investigated comprise two rat liver cell lines (BRL3A and NRL clone 9), primary hepatocytes in conventional monolayer or in sandwich culture, and liver slices. The results demonstrate that liver slices exhibit the strongest similarity to liver tissue regarding mRNA expression, whereas the two cell lines are quite different from the whole liver. We were able to identify genes with strong changes in expression levels in all or at least one of the in vitro systems relative to whole liver. In particular, for some cytochrome P450s the differences observed on the mRNA expression level were paralleled by protein expression and enzymatic activity. In addition, the effect of time in culture was assessed. We were able to show a profound effect of the duration of culture. Expression patterns change most rapidly soon after cell isolation and culture initiation and stabilize with time in culture. The findings are discussed with respect to the usefulness of the various hepatic in vitro systems for microarray-based toxicological testing of compounds.
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In the past decade several studies comparing the in vitro chromosome aberration test (CAT) and the in vitro micronucleus test (MNT) were performed. A high correlation was observed in each of the studies (>85%); however, no formal validation for the micronucleus in vitro assay had been carried out. Therefore, a working group was established by the European Centre for the Validation of Alternative Methods (ECVAM) to perform a retrospective validation of the existing data, in order to evaluate the validity of the in vitro MNT on the basis of the modular validation approach. The primary focus of this retrospective validation was on the evaluation of the potential of the in vitro MNT as alternative to the standard in vitro CAT. The working group evaluated, in a first step, the available published data and came to the conclusion that two studies [German ring trial, von der Hude, W., Kalweit, S., Engelhardt, G. et al. (2000) In-vitro micronucleus assay with Chinese hamster V79 cells: results of a collaborative study with 26 chemicals. Mutat. Res., 468, 137–163, and SFTG International Collaborative Study, Lorge, E., Thybaud, V., Aardema, M., Oliver, J., Wataka, A., Lorenzon, G. and Marzin, D. (2006) SFTG International Collaborative Study on in-vitro micronucleus test I. General conditions and overall conclusions of the study. Mutat. Res., 607, 13–36] met the criteria for a retrospective validation according to the criteria previously defined by the working group. These two studies were evaluated in depth (including the reanalysis of raw data) and provided the information required for assessing the reliability (reproducibility) of the test. For the assessment of the concordance between the in vitro MNT and the in vitro CAT, additional published data were considered. Based on this retrospective validation, the ECVAM Validation Management Team concluded that the in vitro MNT is reliable and relevant and can therefore be used as an alternative method to the in vitro CAT. Following peer review, these conclusions were formally endorsed by the ECVAM Scientific Advisory Committee.
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