Genome response of hippocampal cells to stress in male rats with different excitability of the nervous system

Q3 Agricultural and Biological Sciences Biological Communications Pub Date : 2022-05-04 DOI:10.21638/spbu03.2022.102
V. Shcherbinina, A. Vaido, D. Khlebaeva, N. Dyuzhikova, E. Daev
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Abstract

Changes of genome stability in hippocampal cells of male rats with hereditary high and low thresholds of nervus tibialis response to electric stimuli (HT and LT strains, respectively) were studied in unstressed and stressed animals. HT and LT originated from Wistar strain, males of which were also used as a control. The comet assay was used after prolonged emotional painful stressor action. There were no interstrain differences in the spontaneous percentage of DNA in comet tails (tDNA). However, the prolonged emotional pain stressor induced genome instability differently in animals of different strains. The highest level of DNA damage in hippocampal cells was shown in highly sensitive animals of LT strain. Males of Wistar strain had intermediate levels of tDNA, while HT animals had the lowest stress reactivity.
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不同神经系统兴奋性雄性大鼠海马细胞对应激的基因组反应
在无应激和应激动物中,研究了具有遗传性胫神经对电刺激(分别为HT和LT菌株)反应的高阈值和低阈值雄性大鼠海马细胞基因组稳定性的变化。HT和LT来源于Wistar品系,其雄性也被用作对照。彗星试验是在长期的情绪痛苦压力作用后使用的。彗星尾部DNA的自发百分比(tDNA)在星系间没有差异。然而,在不同菌株的动物中,长期的情绪疼痛应激源不同程度地诱导基因组不稳定。LT株高敏感动物海马细胞DNA损伤程度最高。Wistar品系的雄性具有中等水平的tDNA,而HT动物具有最低的应激反应性。
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来源期刊
Biological Communications
Biological Communications Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)
CiteScore
1.70
自引率
0.00%
发文量
21
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