Establishing a model for assessing DNA damage in murine brain cells as a molecular marker of chemotherapy-associated cognitive impairment |
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Authors: | Evgeny Krynetskiy Natalia Krynetskaia Diana Rihawi Katarzyna Wieczerzak Victoria Ciummo Ellen Walker |
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Affiliation: | 1. Department of Pharmaceutical Sciences, Temple University School of Pharmacy, Philadelphia, PA 19140, United States;2. Temple University College of Science and Technology, Philadelphia, PA 19140, United States |
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Abstract: | AimsChemotherapy-associated cognitive impairment often follows cancer chemotherapy. We explored chemotherapy-induced DNA damage in the brain cells of mice treated with 5-fluorouracil (5FU), an antineoplastic agent, to correlate the extent of DNA damage to behavioral functioning in an autoshaping-operant mouse model of chemotherapy-induced learning and memory deficits (Foley et al., 2008).Main methodsMale, Swiss-Webster mice were injected once with saline or 75 mg/kg 5FU at 0, 12, and 24 h and weighed every 24 h. Twenty-four h after the last injection, the mice were tested in a two-day acquisition and the retention of a novel response task for food reinforcement. Murine brain cells were analyzed for the presence of single- and double-strand DNA breaks by the single cell gel electrophoresis assay (the Comet assay).Key findingsWe detected significant differences (p < 0.0001) for all DNA damage characteristics (DNA “comet” tail shape, migration pattern, tail moment and olive moments) between control mice cohort and 5FU-treated mice cohort: tail length – 119 vs. 153; tail moment – 101 vs. 136; olive moment – 60 vs. 82, correspondingly. We found a positive correlation between increased response rates (r = 0.52, p < 0.05) and increased rate of errors (r = 0.51, p < 0.05), and DNA damage on day 1. For all 15 mice (saline-treated and 5FU-treated mice), we found negative correlations between DNA damage and weight (r = − 0.75, p < 0.02).SignificanceOur results indicate that chemotherapy-induced DNA damage changes the physiological status of the brain cells and may provide insights to the mechanisms for cognitive impairment after cancer chemotherapy. |
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Keywords: | Acquisition Autoshaping Chemotherapy Cognition DNA damage 5-Fluorouracil |
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