Peculiarities of changes in a functional condition of pro-oxidant and antioxidant systems in guinea pigs’ lungs in experimental allergic alveolitis under the conditions of immobilization stress
DOI:
https://doi.org/10.12775/JEHS.2024.53.017Keywords
experimental allergic alveolitis, immobilization stress, peroxide lipid oxidation, antioxidant systemAbstract
We have analyzed the results of investigation of alterations in indices of pro-oxidant (conjugated diene and malondialdehyde) and antioxidant (superoxide dismutase, ceruloplasmin, catalase) systems in guinea pigs’ lungs in experimental allergic alveolitis in the dynamics of EAA development under the conditions of immobilization stress. The investigation was conducted on 62 female guinea pigs weighing 180-220 g, divided into 4 groups: I – intact guinea pigs (n=20), II – guinea pigs (n=14) with EAA under the conditions of IS (1st day); III – guinea pigs (n=14) with EAA under the conditions of IS (2nd day); IV – guinea pigs (n=14) with EAA under the conditions of IS (34th day). The results of experimental investigation showed that a significant increase in conjugated diene level in animals’ lungs was observed at all stages of EAA development under the conditions of immobilization stress as compared with control group, indicating activation of this marker. The same changes occurred with MDA content, indicating excessive accumulation of this lipid peroxidation product in lung tissue. Intensive synthesis of free radical compounds caused activation of some components of enzymatic system of antioxidant defense. In particular, a moderate decrease in superoxide dismutase activity in lung tissue is observed in response to increased level of LOPs at early stages of EAA and immobilization stress development as compared with the indices in intact animals. The same situation is observed with catalase and ceruloplasmin activity in the lungs of guinea pigs with modeled AA and IS.
References
Avdeyev S.N., Avdeyeva O.Ye., Chuchalin A.G. (2007) Ekzogennyy allergicheskiy al'veolit. RMZH (Russkiy meditsinskiy zhurnal), 6: 20–32. [in Rusian]
Gavrisyuk V.K., Strafun O.V. (2016) Gipersensitivnyy pnevmonit. Zdorov’ya Ukraí̈ni, 2(34): 22–23. [in Rusian]
Campbell J.M. (1932) Acute symptoms following work with hay. Br. Med. J., 2: 1143–1144.
Lacasse Y., Selman M., Costabel U. et al.; for the HP Study Group (2003) Clinical diagnosis of hypersensitivity pneumonitis. Am. J. Respir. Crit. Care Med., 168: 952–958.
Reed C.E., Barbee R.A. (1965) Pigeon-breeders’ lung: a newly observed interstitial pulmonary disease. JAMA, 193: 261–265.
Gavrisyuk V.K. (2017) Printsipy lecheniya bol'nykh idiopaticheskim legochnym fibrozom. Zdorov’ya Ukraí̈ni, 1 (38) : 20–22. [in Rusian]
Mukhin N.A. (red.) (2007) Interstitsial'nyye bolezni legkikh. Litterra, Moskva, 434 s.
Makap'yants N.N., Shmelev Ye.I. (2012) Novyye skhemy terapii pri ostrykh, podostrykh i khronicheskikh variantakh ekzogennogo allergicheskogo al'veolita. Vest. Ros. akad. med. nauk, 11: 39–44. [in Rusian]
Khanningkheyk G., Richerson KH. (2002) Ekzogennyy allergicheskiy al'veolit. From Harrison’s Principles of Internal Medicine. 14thed. [in Rusian]
Sharry C., Anderson K., Bourke S.J., Boyd G. (2002) Takes your breath away — the immunology of allergic alveolitis. Clin. Exp. Immunol., 128: 3–9.
Salvaggio J.E., De Shazo R.D. (1986) Pathogenesis of hypersensitivity pneumonitis. Chest, 89: 190S.
Salvaggio J.E. (1991) Immune reactions in allergic alveolitis. EUR Respir. J.Suppl., 13: 47s–59s.
Semenzato G., Agostini C., Zambello R. et al.(1986) Lung T cells in hypersensitivity pneumonitis: phenotypic and functional analyses. J. Immunol., 137(4): 1164–1172.
Khasky A.D., Smith J.C. Stress, relaxation states, and creativity. Percept. Mot. Skills. 2000,88 (22), 409416.
Karanth J., Jeevaratnam K. Oxidative stress and antioxidant status in rat blood, muscle: effect of dietary lipid, carnitine and exercise //bit. J. Vitam. Nutr. Res. - 2005. -V. 75, No5.-P 333-339.
Orekhov O. O. Patomorfologiya legkikh i mikrotsirkulyatornogo rusla malogo kruga krovoobrashcheniya pri khronicheskom eksperimental'nom allergicheskom al'veolite / O. O. Orekhov, YU. A. Kirilov // Arkhiv patologii.– 1985.– № 10.– S. 54–61. [in Rusian]
Gorizontov P. D. Stress i sistema krovi / P. D. Gorizontov, O. I. Belousova, M. I. Fedotov // M.: Meditsina, 1983. – 338 s. [in Rusian]
Gavrilov A.B., Myshkorudnaya M.I. Spektrofotometricheskoye opredeleniye soderzhaniya gidroperekisey lipidov v plazme. Laboratornaya diagnostika ishemicheskoy bolezni serdtsa, - K.: Zdorov'ya, 1989,170-171[in Rusian]
Korobeynikov E.N. Modifikatsiya opredeleniya produktov POL v reaktsii s tiobarbiturovoy kislotoy Lab. delo 1989,7,8-10[in Rusian]
Fried, R. (1975). Enzymatic and non-enzymatic assay of super oxide dismutase. Biochemie, (57), 65, 657-660.
Holmes, R. & Masters, C. (1970). Epigenetic interconversions of the multiple forms of mouse liver catalase. FEBS Lett.,(11), 1, 45-48.
Kolb V. G. Opredeleniye aktivnosti tseruloplazmina v krovi / V. G. Kolb, V. S. Kamyshnikov // Spravochnik po klinicheskoy khimii.– Minsk: Bela rus', 1982.– S. 290–291. [in Rusian]
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