THE STATE OF LIPID PEROXIDATION AND ANTIOXIDANT PROTECTION IN EXPERIMENTAL NEOPLASTIC INTOXICATION

Authors

  • P. Ya. Bodnar I. HORBACHEVSKY TERNOPIL NATIONAL MEDICAL UNIVERSITY
  • I. M. Klishch I. HORBACHEVSKY TERNOPIL NATIONAL MEDICAL UNIVERSITY
  • Ya. Ya. Bodnar I. HORBACHEVSKY TERNOPIL NATIONAL MEDICAL UNIVERSITY
  • T. V. Bodnar I. HORBACHEVSKY TERNOPIL NATIONAL MEDICAL UNIVERSITY
  • Yu. V. Soroka I. HORBACHEVSKY TERNOPIL NATIONAL MEDICAL UNIVERSITY

DOI:

https://doi.org/10.11603/mcch.2410-681X.2021.i2.12234

Keywords:

lipid peroxidation, antioxidant protection, neoplastic intoxication

Abstract

Introduction. The question of studying the imbalance between the processes of lipid peroxidation and antioxidant protection is relevant. This imbalance causes metabolic disorders, the formation of peroxides, ketones, aldehydes.   

The aim of the study – to investigate the degree of activation of lipid peroxidation and the state of antioxidant protection in neoplastic intoxication syndrome. An important issue is the study of the imbalance between the processes of lipid peroxidation and antioxidant protection. This imbalance causes metabolic disorders, the formation of peroxi­des, ketones, aldehydes and it is the basis of the pathogeneses of endogenous intoxication. We investigated the degree of activation of lipid peroxidation and the state of antioxidant protection in the syndrome of neoplastic intoxication.

Research Methods. Pharmacological, morphological, methods of mathematical statistics. Experimental pharmacological studies were performed on white rats weighing 170–180 g. The studies were performed in the Central Research Laboratory of I. Horbachevsky Ternopil National Medical University of the Ministry of Health of Ukraine (certificate No. 023/13 of May 05, 2020) in accordance with the methodological recommendations of the State Expert Center of the Ministry of Health of Ukraine. We studied the following blood biochemical parameters: the level of diene and triene conjugates, medium molecular weight peptides (at wavelengths of 254 and 280 nm), active pro­ducts of thiobarbituric acid, superoxide dismutase and catalase activity. Rats included in the study were divided into 2 groups: 1 – control group and 2 – positive pathology; the study lasted 30 days. Modeling of pathological processes and withdrawal of animals from the experiment was carried out in compliance with the requirements of bioethics, rules of good laboratory practice and ethical standards of the “European Convention for the protection of vertebrate animals used for experimental or other scientific purposes”.

Results and Discussion. The study showed an increase in biochemical parameters of diene and triene conjugates, active products of thiobarbituric acid, which indicates the activation of the peroxidation process. When evaluating the indicators of superoxide dismutase, it was found that its level was fluctuating and by the end of the experiment decreased by 16.5 %. The level of catalase increased during the experiment. When studying the indicators of MMM254 and MMM280, their growth was revealed, which indicates an increase in the manifestations of endo­genous intoxication.

Conclusion. With the syndrome of neoplastic intoxication in the blood there is a gradual excessive formation of products of free radical oxidation in combination with compensatory activation of enzyme units of the antioxidant system.

References

Bodnar, P. Y., & Lisnychuk, N.Y. (2020). Otsinka biokhimichnykh pokaznykiv i stanu zhortalnoi krovi shchuriv za umov khronichnoi neoplastychnoi intoksyka­tsii [Assessment of biochemical indices and condition of coagulated blood system in chronic neoplastic intoxication]. Medychna i klinichna khimiia – Medical and Clinical Chemistry, (4), 83-88. Retrieved from: https://doi.org/10.11603/mcch.2410-681X.2019.v.i4.10843 [in Ukrainian].

Lototska, O.V. (2013). Perekysne okysnennia lipidiv ta antyoksydantnyi zakhyst v orhanizmi piddos­lidnykh tvaryn pid vplyvom subtoksychnykh doz midi na foni vzhyvannia pytnoi vody z riznym vmistom stearatu kaliiu [Lipid peroxidation and antioxidant protection in experimental animals under the influence of subtoxic doses of copper on the background of drinking water with different content of potassium stearate]. Aktualni prob­lemy transportnoi medytsyny – Current Problems of Transport Medicine, 3 (33), 139-145 [in Ukrainian].

Bondarenko, Yu.V. (2008). Stan perekysnoho okysnennia lipidiv ta antyoksydantnoi systemy pislia operatyvnykh vtruchan z pryvodu mekhanichnoi zho­vtianytsi [The state of lipid peroxidation and the antioxidant system after surgical interventions for mechanical jaundice]. Praktyka i dosvid – Practice and Experience, 4, 52-54 [in Ukrainian].

Regeda, M.S., & Kovalska, M.Y. (2018). Vplyv korvitynu na pokaznyky perekysnoho okysnennia lipidiv ta antyoksydantnu systemu v leheniakh u dynamitsi rozvytku eksperymentalnoho alerhichnoho alveolitu v umovakh stresu [Effect of corvitin on lipid peroxidation and the antioxidant system in the lungs in the dynamics of experimental allergic alveolitis under stress]. Visnyk naukovykh doslidzhen – Bulletin of Scientific Research, (1), 118-122. Retrieved from: https://doi.org/10.11603/2415-8798.2018.1.8746 [in Ukrainian].

Mudra, U.O., & Andreichyn, S.M. (2019). Endohenna intoksykatsiia, peroksydne okysnennia lipidiv ta antyoksydantna systema orhanizmu v khvorykh na podahru na tli nealkoholnoho steatohepatytu [Endogenous intoxication, lipid peroxidation and antioxidant system in gout patients with non-alcoholic steatohepatitis]. Medychna ta klinichna khimiia – Medical and Clinical Che­mistry, 3, 64-70 [in Ukrainian].

Bobronnikova, L.R. (2008). Systema POL-AOZ za komorbidnoho poiednannia khronichnoho bezka­mianoho kholetsystytu ta hipertonichnoi khvoroby [POL-AOZ system for comorbid combination of chronic calculous cholecystitis and hypertension]. Suchasna hastro­enterolohiia – Modern Gastroenterology, (2) 40, 14-16 [in Ukrainian].

Zviahintseva, T.D., & Hrydnieva, S.V. (2005). Suchasni pidkhody do diahnostyky khronichnykh za­khvoriuvan kyshechnyku [Modern approaches to the diagnosis of chronic intestinal diseases]. Ukrainskyi terapevtychnyi zhurnal – Ukrainian Therapeutic Journal, (2), 44-48 [in Ukrainian].

Stefanov, O.V. (2001). Doklinichni doslidzhennia likarskykh zasobiv: metodychni rekomendatsii [Preclinical studies of drugs: guidelines]. Kyiv: Avitsena [in Ukrainian].

Council of Europe. (1993). European Convention for the Protection of Vertebrate Animals used for Experimental and other Scientific Purposes: explanatory report on the convention opened for signature on 18 March 1986. Council of Europe Press.

Buzlama, V.S., Reckij, M.I., Meshherjakov, N.P., & Rogacheva, T.E. (1997). Metodicheskoe posobie po izucheniyu protsessov perekisnogo okisleniya lipidov i sistemy antioksidantnoy zashchity organizma u zhivotnykh [Methodological manual for the study of lipid peroxidation processes and the antioxidant defense system of animals]. Voronezh [in Russian].

Kolesova, O.E., Markin, A.A., & Fedorova, T.N. (1984). Perekisnoe okislenie lipidov i metody opredeleniya produktov lipoperoksidatsii v biologicheskikh sredakh [Lipid peroxidation and methods for the determination of lipid peroxidation products in biological media]. Laboratornoe delo – Laboratory Business, (9), 540-546 [in Russian].

Gabrijeljan, N.I., Levickij, Je.R., & Dmitriev, A.A. (1985). Skriningovyy metod opredeleniya srednikh molekul v biologicheskikh zhidkostyakh. Metodicheskie rekomendatsii [Screening method for the determination of medium molecules in biological fluids. Guidelines]. Moscow [in Russian].

Popov, T., & Nejkovskaja, L. (1971). Metod opredeleniya peroksidaznoy aktivnosti krovi [Method for determination of blood peroxidase activity]. Gigiena Sanitariya – Hygiene and Sanitary, 10, 89-91 [in Russian].

Koroljuk, M.A., Ivanova, L.K., Majorova, I.G., & Tokareva, V.A. (1988). Metod opredeleniya aktivnosti katalazy [Method for determination of catalase activity]. Laboratornoe delo – Laboratory Business, (4), 44-47 [in Russian].

Nikolajchik, V.V., Kirkovskij, V.V., & Moin, V.M. (1989). «Srednie molekuly»-obrazovanie i sposoby opredeleniya [“Medium molecules” – formation and methods of determination]. Laboratornoe delo – Laboratory Business, (8), 31 [in Russian].

Li, W., Liu, H., Zhou, J.S., Cao, J.F., Zhou, X.B., Choi, A.M., ... & Shen, H.H. (2012). Caveolin-1 inhibits expression of antioxidant enzymes through direct interaction with nuclear erythroid 2 p45-related factor-2 (Nrf2). Journal of Biological Chemistry, 287 (25), 20922-20930.

Moskalenko, V.F. (Ed.). (2009). Biostatystyka: pidruchnyk [Biostatistics: a textbook]. Kyiv: Knyha plius [in Ukrainian].

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Published

2021-08-04

How to Cite

Bodnar, P. Y., Klishch, I. M., Bodnar, Y. Y., Bodnar, T. V., & Soroka, Y. V. (2021). THE STATE OF LIPID PEROXIDATION AND ANTIOXIDANT PROTECTION IN EXPERIMENTAL NEOPLASTIC INTOXICATION. Medical and Clinical Chemistry, (2), 22–27. https://doi.org/10.11603/mcch.2410-681X.2021.i2.12234

Issue

No. 2 (2021)

Section

ORIGINAL INVESTIGATIONS

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