Glucocorticosteroid-induced behavioral changes during endotoxinemia in rats
Elena Ya. Lebedeva , Ekaterina S. Kukushkina , Tatiana V. Tyutunnik , Victoria A. Maystrenko
Medical academic journal ›› 2025, Vol. 25 ›› Issue (1) : 82 -89.
Glucocorticosteroid-induced behavioral changes during endotoxinemia in rats
BACKGROUND: Experimental endotoxemia, based on the injection of lipopolysaccharide, is used to study systemic inflammation. Glucocorticosteroids, such as methylprednisolone and dexamethasone, play a key role in modulating inflammation. They affect inflammatory mediators and cellular components, penetrating the blood-brain barrier. However, the cerebral effects of glucocorticosteroids are not well studied. The assessment of behavioral changes induced by lipopolysaccharide and glucocorticosteroids using the “open field” test will help explore the neurobiological mechanisms of inflammation and stress.
AIM: Study of the effect of glucocorticosteroids on behavioral and physiological changes induced by experimental endotoxinemia in rats.
METHODS: Six groups of Wistar rats, 10 males in each group, were used in the experiment. The first group was injected once intraperitoneally with physiological solution, the second group was injected with lipopolysaccharide (1 mg/kg), the 3rd group was injected with i/p dexamethasone, 2 mg/kg; the 4th group was injected with i/p dexamethasone, 2 mg/kg, 2 h before lipopolysaccharide injection; the 5th group was injected with i/p methylprednisolone, 2 mg/kg; the 6th group was injected with i/p methylprednisolone, 2 mg/kg, 2 h before lipopolysaccharide injection. During the first 4 h of the experiment, deep body temperature of the rats was measured every 30 min and after 24 h to construct a temperature curve. At several time points, the behavior and locomotor activity of the rats were evaluated in the open-field test.
RESULTS: The results obtained demonstrate that lipopolysaccharide administration causes changes in behavioral patterns such as stance, minking, locomotion, act of grooming and frizzing. No differences were found in the effects of glucocorticosteroid depending on the drug. Application of glucocorticosteroid promotes restoration of motor activity of animals, elimination of negative effects of lipopolysaccharide.
CONCLUSION: The studied glucocorticosteroid drugs dexamethasone and methylprednisolone had comparable anti-inflammatory effect in terms of severity, caused normalization of body temperature and eliminated behavioral changes caused by lipopolysaccharide.
lipopolysaccharide / glucocorticosteroid / neuroinflammation / open field test / rat behavioral patterns
| [1] |
Skrzypczak-Wiercioch A, Sałat K. Lipopolysaccharide-induced model of neuroinflammation: mechanisms of action, research application and future directions for its use. Molecules. 2022;27(17):5481. doi: 10.3390/molecules27175481 |
| [2] |
Skrzypczak-Wiercioch A., Sałat K. Lipopolysaccharide-Induced model of neuroinflammation: mechanisms of action, research application and future directions for its use // Molecules. 2022. Vol. 27, N 17. P. 5481. doi: 10.3390/molecules27175481 |
| [3] |
Suleymanova AM, Kulichenko TV. Safety of application of short courses of glucocorticosteroids: literature review. Pharmateka. 2017;11(344):6–13. EDN: ZFVJEZ |
| [4] |
Сулейманова А.М., Куличенко Т.В. Безопасность применения коротких курсов глюкокортикостероидов: обзор литературы // Фарматека. 2017. Т. 11, № 344. С. 6–13. EDN: ZFVJEZ |
| [5] |
Severyukhin YS, Lalkovičová M, Utina DM, et al. Comparative analysis of behavioral reactions and morphological changes in the rat brain after exposure to ionizing radiation with different physical characteristics. Cell Mol Neurobiol. 2023;43(1):339–353. doi: 10.1007/s10571-021-01187-z |
| [6] |
Severyukhin Y.S., Lalkovičová M., Utina D.M., et al. Comparative analysis of behavioral reactions and morphological changes in the rat brain after exposure to ionizing radiation with different physical characteristics // Cell Mol Neurobiol. 2023. Vol. 43, N 1. P. 339–353. doi: 10.1007/s10571-021-01187-z |
| [7] |
Chudova AS, Alekhina NA, Gladysheva AO, et al. Determination of individual-typological features of behavior in Wistar rats in the open field test. Trends in the development of science and education. 2022;(88(1)):130–133. EDN: NHDQHI doi: 10.18411/trnio-08-2022-38 |
| [8] |
Чудова А.С., Алехина Н.А., Гладышева А.О. и др. Определение индивидуально-типологических особенностей поведения у крыс линии Wistar в тесте открытое поле // Тенденции развития науки и образования. 2022. № 88(1). С. 130–133. EDN: NHDQHI doi: 10.18411/trnio-08-2022-38 |
| [9] |
Gevorkyan VS. Study of the impact of the same stress factors on the behavior of rats of different species and lines. Electronic scientific edition Almanac Space and Time. 2017;15(1):1–5. EDN: ZXYVFB |
| [10] |
Геворкян В.С. Исследование воздействия одних и тех же стресс-факторов на поведение крыс разных видов и линий // Электронное научное издание Альманах Пространство и Время. 2017. Т. 15, № 1. С. 1–5. EDN: ZXYVFB |
| [11] |
Bobyntsev II, Korobova VN, Vorvul’ AO, et al. Correlation of heart rate variability and behavioural indicators in wistar rats. Humans and their health. 2023;26(4):72–87. EDN: KEYOHB doi: 10.21626/vestnik/2023-4/07 |
| [12] |
Бобынцев И.И., Коробова В.Н., Ворвуль А.О. и др. Взаимосвязь вариабельности сердечного ритма и поведенческих показателей крыс Вистар // Человек и его здоровье. 2023. Т. 26, № 4. С. 72–87. EDN: KEYOHB doi: 10.21626/vestnik/2023-4/07 |
| [13] |
Cherepovskaya NA, Zhunusov NS, Miller ES. Study of behavioral activity in the test “open field”. Scientific electronic journal Meridian. 2020;(4):75–77. (In Russ.) EDN: USBXDY |
| [14] |
Череповская Н.А., Жунусов Н.С., Миллер Э.С. Изучение поведенческой активности в тесте «открытое поле» // Научный электронный журнал Меридиан. 2020. № 4(38). С. 75–77. EDN: USBXDY |
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