Toxicological evaluation of pomegranate seed oil.

In this manuscript, the toxicology and safety of pomegranate seed oil (PSO) was evaluated by in vitro (Ames, chromosomal aberration), and in vivo toxicity tests (acute toxicity and 28-day toxicity in Wistar rats). No mutagenicity of PSO was observed in the absence and presence of metabolic activation up to precipitating concentrations of 5000 microg/plate (Ames test) or 333 microg/ml (chromosome aberration test). The acute oral toxicity study revealed no significant findings at 2000 mg PSO/kg body weight. In the 28-day dietary toxicity study PSO was dosed at concentrations of 0, 10,000, 50,000 and 150,000 ppm, which resulted in a mean intake of 0-0, 825-847, 4269-4330 and 13,710-14,214 mg PSO/kg body weight per day in males-females, respectively. At 150,000 ppm dietary exposure to PSO, a much higher dose than the level of PSO that elicits antidiabetic and anti-inflammatory efficacy, increased hepatic enzyme activities determined in plasma (aspartate, alanine aminotransferase and alkaline phosphatase) and increased liver-to-body weight ratios were observed. However, these effects might be the result of a physiological response to exposure to a very high level of a fatty acid which is not part of the normal diet, and are most likely not toxicologically relevant. The no observable adverse effect level (NOAEL) was 50,000 ppm PSO (=4.3 g PSO/kg body weight/day).

Industrial Genotoxicology Group collaborative trial to investigate cell cycle parameters in human lymphocyte cytogenetics studies.

Human lymphocyte cultures have been used for many years for assessing the in vitro clastogenic potential of test substances. In these assays the harvest time should be based on the cell cycle time in order to ensure that cells are sampled at an appropriate time for the detection of clastogenic effects. The sources of variation in the cell cycle time in routine cytogenetic assays have not been well studied. Consequently 13 laboratories, all members of the Industrial Genotoxicology Group, participated in a collaborative study to measure the variation in cell cycle time in cultured human peripheral blood lymphocytes under various conditions. The study was performed in two phases, spaced 6 months apart. The average generation time (AGT) was measured by the incorporation of bromodeoxyuridine. Very similar AGTs were found in the presence and absence of S9 mix. The mean AGT (mean of four donors) in each laboratory varied from 11.2 to 17.1 h, indicating there is significant variability in cell cycle times of human peripheral blood lymphocytes between laboratories. There was greater variation between laboratories than within laboratories. A comparison of AGT values at 72 h performed in experiments at least 6 months apart indicated good reproducibility in most laboratories. The study indicates that a 24 h post-treatment harvest may result in the analysis of very few first division cells unless very significant cell cycle delay is induced by the test substance. It was also found that a post-harvest time equivalent to 1.5 cell cycles will result in an approximately equal mixture of first and second division cells and therefore should by suitable for assessing both the induction of chromosome aberrations and polyploidy.