Anxiety in rats exposed to vital stress in association with delayed trauma reminder
Arina S. Vorobeva , Maria V. Timusheva , Margarita T. Absalyamova , Gleb V. Beznin , Natalia K. Apraksina , Sergey G. Tsikunov
Medical academic journal ›› 2024, Vol. 24 ›› Issue (3) : 69 -77.
Anxiety in rats exposed to vital stress in association with delayed trauma reminder
BACKGROUND: Modeling intrusive memories of psychologically traumatic event in post-traumatic stress disorder and assessing the development of mental disorders in the long-term period is relevant in order to understand the mechanisms of vital stress caused. Pathological anxiety may reflect the experienced feeling of fear and helplessness and intrusive traumatic memories in post-traumatic stress disorder.
AIM: The purpose of the study was to assess the level of anxiety and exploratory activity of male rats in the Elevated Plus Maze test after experiencing vital stress in association with twice repeated trauma reminders in a delayed period.
MATERIALS AND METHODS: The study was performed on mature male Wistar rats weighing 300–350 g (n = 34). Mental trauma was modeled by the circumstances of experiencing the situation of partner’s death from the action of a predator and the threat to their own life when placing rats in a terrarium with a tiger python. In rats, the behavior in the Elevated Plus Maze test was analyzed two months after an exposure to stress.
RESULTS: In the delayed period after vital stress, the Elevated Plus Maze test showed an increase in anxiety and a decrease in exploratory activity of male rats. When placed twice in a traumatic environment, male rats with previously received psychogenic trauma maintained an increased level of anxiety and suppression of exploratory activity in the long-term period.
CONCLUSIONS: Two months after vital stress, male rats show increased anxiety and reduced exploratory activity. The traumatic event reminder leads to worsening of behavioral disorders caused by psychogenic trauma, indicating a stable, long-lasting development of post-traumatic stress disorder.
anxiety / post-traumatic stress disorder / vital stress / reminder of traumatic events / delayed period / male rats
| [1] |
Maercker A, Cloitre M, Bachem R, et al. Complex post-traumatic stress disorder. Lancet. 2022;400(10345):60–72. doi: 10.1016/S0140-6736(22)00821-2 |
| [2] |
Maercker A., Cloitre M., Bachem R., et al. Complex post-traumatic stress disorder // Lancet. 2022. Vol. 400, N 10345. P. 60–72. doi: 10.1016/S0140-6736(22)00821-2 |
| [3] |
Avaliani TV, Apraksina NK, Tsikunov SG. The effect of vital stress on the bioelectric activity of the brain and the behavior of female rats. Medical Academic Journal. 2022;22(1):43–50. EDN: PQZVPT doi: 10.17816/MAJ90520 |
| [4] |
Авалиани Т.В., Апраксина Н.К., Цикунов С.Г. Биоэлектрическая активность мозга и поведение крыс в отдаленном периоде после витального стресса // Медицинский академический журнал. 2022. Т. 22, № 1. C. 43–50. EDN: PQZVPT doi: 10.17816/MAJ90520 |
| [5] |
Apraksina NK, Avaliany TV, Tsikunov SG. Changes in electrocortiographic indicators in rats in situations of real threats to life in a vital stress model. Neurosci Behav Physiol. 2022;52(5):739–746. doi: 10.1007/s11055-022-01298-0 |
| [6] |
Apraksina N.K., Avaliany T.V., Tsikunov S.G. Changes in electrocortiographic indicators in rats in situations of real threats to life in a vital stress model // Neurosci Behav Physiol. 2022. Vol. 52, N 5. P. 739–746. doi: 10.1007/s11055-022-01298-0 |
| [7] |
Chang SH, Yu YH, He A, et al. BDNF Protein and BDNF mRNA expression of the medial prefrontal cortex, amygdala, and hippocampus during situational reminder in the PTSD animal model. Behav Neurol. 2021;2021:6657716. doi: 10.1155/2021/6657716 |
| [8] |
Chang S.H., Yu Y.H., He A., et al. BDNF Protein and BDNF mRNA expression of the medial prefrontal cortex, amygdala, and hippocampus during situational reminder in the PTSD animal model // Behav Neurol. 2021. Vol. 2021. P. 1–13. doi: 10.1155/2021/6657716 |
| [9] |
Dawson GR, Tricklebank MD. Use of the elevated plus maze in the search for novel anxiolytic agents. Trends Pharmacol Sci. 1995;16(2):33–36. doi: 10.1016/S0165-6147(00)88973-7 |
| [10] |
Dawson G.R., Tricklebank M.D. Use of the elevated plus maze in the search for novel anxiolytic agents // Trends Pharmacol Sci. 1995. Vol. 16, N 2. P. 33–36. doi: 10.1016/S0165-6147(00)88973-7 |
| [11] |
Nikulcheva NG, Klyueva NN, Parfenova NS, et al. Lipid profile after a psychogenic stress in experiment on male rats long term change. Neurocomputers. 2016;5:56–58. EDN: WBEZUR |
| [12] |
Никульчева Н.Г., Клюева Н.Н., Парфенова Н.С. и др. Исследование влияния психогенного стресса на липидный обмен крыс-самцов в отдаленном периоде // Нейрокомпьютеры: разработка, применение. 2016. № 5. С. 56–58. EDN: WBEZUR |
| [13] |
Nazarevych M, Ohonovskyi R, Pohranychna K, et al. Frequency and nature of disorders in psycho-emotional and autonomic systems in patients with middle facial injury. Wiad Lek. 2022;75(1 pt 2):197–202. doi: 10.36740/WLek202201209 |
| [14] |
Nazarevych M., Ohonovskyi R., Pohranychna K., et al. Frequency and nature of disorders in psycho-emotional and autonomic systems in patients with middle facial injury // Wiad Lek. 2022. Vol. 75, N 1 pt 2. P. 197–202. doi: 10.36740/WLek202201209 |
| [15] |
Boelen PA. Peritraumatic Distress and dissociation in prolonged grief and posttraumatic stress following violent and unexpected deaths. J Trauma Dissociation. 2015;16(5):541–550. doi: 10.1080/15299732.2015.1027841 |
| [16] |
Boelen P.A. Peritraumatic distress and dissociation in prolonged grief and posttraumatic stress following violent and unexpected deaths // J Trauma Dissociation. 2015. Vol. 16, N 5. P. 541–550. doi: 10.1080/15299732.2015.1027841 |
| [17] |
Freh FM. PTSD, depression, and anxiety among young people in Iraq one decade after the american invasion. Traumatology. 2016;22(1):56–62. doi: 10.1037/trm0000062 |
| [18] |
Freh F.M. PTSD, depression, and anxiety among young people in Iraq one decade after the american invasion // Traumatology. 2016. Vol. 22, N 1. P. 56–62. doi: 10.1037/trm0000062 |
| [19] |
Tceilikman VE, Tceilikman OB, Feklicheva IV, et al. Psychological, neurobiological and neuro-endocrine features of the syndrome posttraumatic stress disorders. Bulletin of the South Ural State University. Ser. Psychology. 2018;11(4);73–86. EDN: YRJMDZ doi: 10.14529/psy180408 |
| [20] |
Цейликман В.Э., Цейликман О.Б., Фекличева И.В. и др. Психологические, нейробиологические и нейроэндокринологические особенности синдрома посттравматических стрессовых расстройств // Вестник Южно-Уральского государственного университета. Серия Психология. 2018. Т. 11, № 4. С. 73–86. EDN: YRJMDZ doi: 10.14529/psy180408 |
| [21] |
Fastovtsov GA, Sokolova EA. PTSD and comorbid psychiatric disorders. Russian Journal of Psychiatry. 2012;3:77–82. EDN: PBYNUB |
| [22] |
Фастовцов Г.А., Соколова Е.А. ПТСР и коморбидные психические расстройства // Российский психиатрический журнал. 2012. № 3. С. 77–82. EDN: PBYNUB |
| [23] |
Zenko MY, Rybnikova EA. The role of glucocorticoid hormones in hypoxic postconditioning stress-protective effects in models of depression and post-traumatic stress disorder in rats. Zhurnal vysshei nervnoi deyatelnosti imeni IP Pavlova. 2020;70(6):825–836. EDN: RVTGGL doi: 10.31857/S0044467720060131 |
| [24] |
Зенько М.Ю., Рыбникова Е.А. Роль глюкокортикоидных гормонов в стресс-протективных эффектах гипоксического посткондиционирования в моделях депрессии и посттравматического расстройства у крыс // Журнал высшей нервной деятельности им. И.П. Павлова. 2020. Т. 70, № 6. С. 825–836. EDN: RVTGGL doi: 10.31857/S0044467720060131 |
| [25] |
Mason JW, Wang S, Yehuda R, et al. Marked lability in urinary cortisol levels in subgroups of combat veterans with posttraumatic stress disorder during an intensive exposure treatment program. Psychosom Med. 2002;64(2):238–246. doi: 10.1097/00006842-200203000-00006 |
| [26] |
Mason J.W., Wang S., Yehuda R., et al. Marked lability in urinary cortisol levels in subgroups of combat veterans with posttraumatic stress disorder during an intensive exposure treatment program // Psychosom Med. 2002. Vol. 64, N 2. P. 238–246. doi: 10.1097/00006842-200203000-00006 |
| [27] |
Hurlemann R, Maier W, Scheele D. Interactions of noradrenaline and cortisol and the induction of indelible memories. Behav Brain Sci. 2016;39:e213. doi: 10.1017/S0140525X15001843 |
| [28] |
Hurlemann R., Maier W., Scheele D. Interactions of noradrenaline and cortisol and the induction of indelible memories // Behav Brain Sci. 2016. Vol. 39. P. e213. doi: 10.1017/S0140525X15001843 |
| [29] |
Dyuzhikova NA, Skomorokhova EB, Vaido AI. Epigenetic mechanisms in post-stress states. Progress in physiological science. 2015;46(1):47–75. (In Russ.) EDN: TOESOZ |
| [30] |
Дюжикова Н.А., Скоморохова Е.Б., Вайдо А.И. Эпигенетические механизмы формирования постстрессорных состояний // Успехи физиологических наук. 2015. Т. 46, № 1. С. 47–75. EDN: TOESOZ |
| [31] |
Silkis IG. The possible mechanism of the appearance of nightmares in post-traumatic stress disorder and approaches to their prevention. Neurochemical Journal. 2019;36(4):275–291. EDN: SKTPBY doi: 10.1134/S1027813319030129 |
| [32] |
Силькис И.Г. Возможный механизм появления ночных кошмаров при посттравматическом стрессовом расстройстве и подходы к их предотвращению // Нейрохимия. 2019. Т. 36, № 4. С. 275–291. EDN: SKTPBY doi: 10.1134/S1027813319030129 |
| [33] |
Berntsen D, Rubin DC. Emotionally charged autobiographical memories across the life span: the recall of happy, sad, traumatic, and involuntary memories. Psychol Aging. 2002;17(4):636–652. doi: 10.1037//0882-7974.17.4.636 |
| [34] |
Berntsen D., Rubin D.C. Emotionally charged autobiographical memories across the life span: the recall of happy, sad, traumatic, and involuntary memories // Psychol Aging. 2002. Vol. 17, N 4. P. 636–652. doi: 10.1037//0882-7974.17.4.636 |
| [35] |
de Oliveira Crisanto K, de Andrade WM, de Azevedo Silva KD, et al. The differential mice response to cat and snake odor. Physiol Behav. 2015;152(Pt A):272–279. doi: 10.1016/j.physbeh.2015.10.013 |
| [36] |
de Oliveira Crisanto K., de Andrade W.M., de Azevedo Silva K.D., et al. The differential mice response to cat and snake odor // Physiol Behav. 2015; Vol. 152, N Pt A. P. 272–279. doi: 10.1016/j.physbeh.2015.10.013 |
| [37] |
Mendes-Gomes J, Motta SC, Passoni Bindi R, et al. Defensive behaviors and brain regional activation changes in rats confronting a snake. Behav Brain Res. 2020;381:112469. doi: 10.1016/j.bbr.2020.112469 |
| [38] |
Mendes-Gomes J., Motta S.C., Passoni Bindi R., et al. Defensive behaviors and brain regional activation changes in rats confronting a snake // Behav Brain Res. 2020. Vol. 381. P. 112469. doi: 10.1016/j.bbr.2020.112469 |
| [39] |
Staples LG, Hunt GE, Cornish JL, McGregor IS. Neural activation during cat odor-induced conditioned fear and ‘trial 2’ fear in rats. Neurosci Biobehav Rev. 2005;29(8):1265–1277. doi: 10.1016/j.neubiorev.2005.04.009 |
| [40] |
Staples L.G., Hunt G.E., Cornish J.L., McGregor I.S. Neural activation during cat odor-induced conditioned fear and ‘trial 2’ fear in rats // Neurosci Biobehav Rev. 2005. Vol. 29, N 8. P. 1265–1277. doi: 10.1016/j.neubiorev.2005.04.009 |
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