Markers of pathology in serum of rats after “mild” stress

Authors

  • Ya. Yuzkiv Ukrainian Research Institute for Medicine of Transport

DOI:

https://doi.org/10.12775/JEHS.2025.84.65126

Keywords

stress, pathology markers, proteolysis, peroxidation

Abstract

Background. Stress occurs as a result of the action of a very large number of factors. "Mild" stress occurs with moderate action of a stress-inducing factor, however, repeated action of such a factor can cause a number of diseases: cardiovascular, neuro-endocrine, neurotrophic, metabolic.

The aim of our work was to study the state of pathology under the influence of "mild" stress by such biochemical markers as casein hydrolysis, BAEE hydrolysis (benzoyl-arginine ethyl ether) and ascorbic acid

Methods. “Mild” stress was induced in rats by holding the animals at −20 °C for 5 minutes. After 5 and 24 hours, blood serum was obtained and proteolysis activity (substrate casein, pH 7.6), BAEE-esterase activity (substrate benzoyl-arginine ethyl ether), and peroxidation activity (substrate ascorbic acid) were determined in it.

Results. An increase in proteolysis activity was found already 5 hours after stress and an almost twofold increase after 24 hours. On the contrary, peroxidation activity decreases after 5 hours and returns to normal after 24 hours. BAEE-esterase activity does not change after “mild” stress.

Conclusion. Activation of proteolysis in the blood serum of rats under conditions of "mild" stress was detected. The level of oxidative processes in the blood serum of rats under conditions of "mild" stress is briefly reduced.

References

1. Levitsky AP, Malinovskii VA. Structural classification of vitamins P. Journal of Education, Health and Sport. 2025;83:64284. https://dx.doi.org/10.12775/JEHS.2025.83.64284.

2. Lambert GP. Stress-induced gastrointestinal barrier dysfunction and its inflammatory effects. J Anim Sci. 2009;87(14):E101-108. doi: 10.2527/jas.2008-1339.

3. Gorbenko NI, Ivanova OV, Borikov AJu. Oxidative stress as a pathophysiological mechanism of development of diabetic macroangiopathies and prospects for its correction with flavonoids (literature review and own results). Problems of endocrine pathology. 2016;3:91-99. https://doi.org/10.21856/j-PEP.2016.3.10. (in Russian).

4. Ndrepepa G. A bridge linking inflammation and oxidative stress with cardiovascular disease. Clin Chim Acta. 2019;493:36-51. doi: 10.1016/j.cca.2019.02.022.

5. Rodney G, Swanson A. The effect of a series of flavonoids on hyaluronidase and some other related enzymes. J.Biol.Chem.1950;183:789. DOI:10.1016/S0021-9258(19)51199-1.

6. Middleton JrE, Kandaswami C, Theoharides TC. The effects of plant flavonoids on mammalian cells: implications for inflammation, heart disease, and cancer. Pharmacol Rev. 2000;52(4):673-751.

7. Bacchetti T, Turco I, Urbano A [and others]. Relationship of fruit and vegetable intake to dietary antioxidant capacity and markers of oxidative stress: A sex-related study. Nutrition. 2019:61:164-172. doi: 10.1016/j.nut.2018.10.034.

8. Gorchakova NO, Shumejko OV, Klimenko OV [and others]. Anti-stress and antioxidant properties of herbal medicines. Proceedings of the scientific congress “NATO: comprehensive complementary and alternative interventions for persons injured during military events, military personnel, their families, during the period of physical and medical rehabilitation”, June 13-14, 2024, Kyiv: 141-142. (in Ukrainian).

9. Ray PD, Huang BW, Tsuji Y. Reactive Oxygen Species (ROS) Homeostasis and Redox Regulation in Cellular Signaling. Cellular Signalling. 2012;24:981-990. https://doi.org/10.1016/j.cellsig.2012.01.008.

10. Arkelius K, Wendt TS, Andersson H [and others]. LOX-1 and MMP-9 Inhibition Attenuates the Detrimental Effects of Delayed rt-PA Therapy and Improves Outcomes After Acute Ischemic Stroke. Circulation Research. 2024;134(8):954-969. https://doi.org/10.1161/CIRCRESAHA.123.323371.

11. Маkаrеnkо O, Levitsky A. Biochemical Mechanisms of Therapeutic and Prophylactic Effects of Bioflavonoids. Journal of Pharmacy and Pharmacology. 2016;4 (8):451-456. DOI:10.17265/2328-2150/2016.08.013.

12. Moharram HA, Youssef MM. Methods for Determining the Antioxidant Activity: A Review. Alex. J. Fd. Sci. & Technol. 2014;11(1):31-42. doi: 10.12816/0025348.

13. Maksjutina NP, Mojbenko AA, Mohort NA. [and others]. Bioflavonoids as organoprotectors (quercetin, corvitin, quertin). Kiyv: Naukova dumka, 2012: 274. (in Russian).

14. Gorchakova NO, Bjelenichev IF, Buhtijarova NV [and others]. Anti-aging effects of antioxidants from the bioflavonoid group. In the book "Synthesis of theory and practice in educational, methodological and clinical support of a healthy lifestyle." Materials of the scientific congress. Kyiv. 2022:141-142. (in Ukrainian).

Journal of Education, Health and Sport

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Published

2025-08-28

How to Cite

1.
YUZKIV, Ya. Markers of pathology in serum of rats after “mild” stress. Journal of Education, Health and Sport. Online. 28 August 2025. Vol. 84, p. 65126. [Accessed 11 November 2025]. DOI 10.12775/JEHS.2025.84.65126.

Issue

Vol. 84 (2025)

Section

Medical Sciences

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Copyright (c) 2025 Ya. Yuzkiv

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