3-OXYPIRIDINES PREVENT THE MITOCHONDRIAL DYSFUNCTION DUE TO THE INFLUENCE OF THE MICRO-DOSES OF POLYCYCLIC AROMATIC HYDROCARBONS
Abstract and keywords
Abstract (English):
Antiradical, antioxidant and anti-toxic properties of 3-hydroxypyridine derivatives (3-OP), in particular N-acetylcysteine 2-ethyl-6-methyl-3-hydroxypyridine (3-OP), were studied. High values of antiradical activity of this preparation are shown. In model experiments, the drug prevented the activation of lipid peroxidation in the membranes of rat liver mitochondria and pea seedlings mitochondria in the concentration range 10-6 - 10-16M. He reduced the intensity of LPO up to control values under conditions of treatment animals with a gas-air mixture, containing polycyclic aromatic hydrocarbons PAH, which caused a 6-fold increase in fluorescence intensity of LPO products in membranes of liver mitochondria. Averting of LPO contributed to the preservation of the functional activity of mitochondria Possessing antiradical and antioxidant activity, the preparation prevented the induction of cytochrome P-450 in liver tissue in case of processing animals with polycyclic aromatic hydrocarbons (PAHs), indicating the presence at him of detoxification properties.

Keywords:
3-hydroxypyridine derivatives, polycyclic aromatic hydrocarbons, mitochondria, LPO
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References

1. Pshenin V.N. Transport kak istochnik policiklicheskih aromaticheskih uglevodorodov v okruzhayuschey srede. Nauka, tehnika i upravlenie. Transport, M.: VINITI, 1995, s. 27-42. [Pshenin V.N. Transport as a source of polycyclic aromatic hydrocarbons in the environment. Science, technology and management. Transport, M.: Institute of Scientific and Technical Information, 1995, pp. 27-42. (In Russ.)]

2. Proctor R.N. Tobacco and Health. Journal of Philosophy. Science& Law, 2004, no. 4, pp. 2-32.

3. Estabrook R., Lanirigan Ph., Cohn V. [et al.] Polycyclic Aromatic Hydrocarbons: Evolution of Sources and Effects, Washington: National Academy Press, 1983, 476 p.

4. Zilov A. Gidrobiologiya i vodnaya ekologiya. Organizaciya, funkcionirovanie i zagryaznenie vodnyh ekosistem, Irkutsk: Irkut. un-t, 2008, 138 s. [Zilov A. Hydrobiology and water ecology. Organization, functioning and pollution of aquatic ecosystems, Irkutsk: Irkut. University, 2008, 138 p. (In Russ.)]

5. Larin S.A., Gromov K.G., Mun S.A. Vklad prioritetnyh kancerogenov v razvitii zlokachestvennyh novoobrazovaniy sredi naseleniya g. Kemerovo. Fundamental'nye i prikladnye issledovaniya v medicine, 1-8 okt. 2005g., Lutraki (Greciya): Nauka, 2005, s. 235-236. [Larin S.A., Gromov K.G., Moon S.A. Fundamental and applied research in medicine, October 1-8, 2005, Loutraki (Greece): Science, 2005, pp. 235-236. (In Russ.)]

6. Nebert D.W., Roe A.L., Dieter M.Z., Solis W.A., Yang Y., DaltonT.P. Role of the aromatic hydrocarbon receptor and [Ah] gene battery in the oxidative stress response, cell cycle control and apoptosis. Biochem. Pharmacol., 2000, vol. 59, pp. 65-85.

7. Burczynski M.E, Penning T.M. Genotoxic polycyclic aromatic hydrocarbon ortho-quinones generated by aldo-keto reductases induce CYP1A1 via nuclear translocation of the aryl hydrocarbon receptor. Cancer Res., 2000, vol. 60, pp. 908-915.

8. Kucenko S.A. Osnovy toksikologii. SPb.: Foliant, 2002, 720 s. [Kutsenko S.A. Fundamentals of Toxicology. St. Petersburg: Folio, 2002, 720 p. (In Russ.)]

9. Ying Yin, Haixia Jia, Yuanyuan Sun, Hongxia Yu, Xiaorong Wang, Jichun Wu, Yuqun Xue. Bioaccumulation and ROS generation in liver of Carassius auratus, exposed to phenanthrene. Comparative Biochemistry and Physiology Part C: Toxicology & Pharmacology, 2007, vol. 145, iss. 2, pp. 288-293.

10. Zhigacheva I.V., Burlakova E.B., Evseenko L.S., Krivosheeva L.V., Bulanova E.G., Nikonova M.F., Litvina M.M., Hristianovich D.S., Voronkov M.G. Gumoral'nyy immunitet. Policiklicheskie aromaticheskie uglevodorody i nitrozaminy. DAN, 2002, t. 383, № 6, c. 834-837. [Zhigacheva I.V., Burlakova E.B., Evseenko L.S., Krivosheeva L.V., Bulanova Ye.G., Nikonova M.F., Litvina M.M., Khristianovich, D.S., Voronkov M.G. Doklady Akademii Nauk, 2002, vol. 383, no. 6, pp. 834-837. (In Russ.)]

11. Vladimirov Yu.A., Olenev V.I., Suslova T.V., Cheremisina Z.V. Lipid peroxidation in mitochondrial membrane. Adv. Lipid Res., 1980, vol. 17, no. 1, pp. 173-249.

12. Proskurnina, E.V., Vladimirov Yu.A. Svobodnye radikaly kak uchastniki regulyatornyh i patologicheskih processov. Biofizicheskie medicinskie tehnologii. M: MAKS Press, 2015, s. 38-71. [Proskurnina, E.V., Vladimirov Yu.A. Free radicals as participants in regulatory and pathological processes. Biophysical medical technologies. M: MAX Press, 2015, p. 38-71. (In Russ.)]

13. Zaridpze D.G. Epidemiologiya, mehanizmy kancerogeneza i profilaktika raka. Arhiv patologiy, 2002, № 2, s. 53-61. [Zaridze D. G. Epidemiology, mechanisms of carcinogenesis and cancer prevention. Archives of pathology, 2002, no. 2, s. 53-61. (In Russ.)]

14. Zaridze D.G. Kancerogenez. M.: Medicina, 2004, 500 s. [Zaridze D.G. Carcinogenesis. M.: Medicine, 2004, 500 p. (In Russ.)]

15. Popov V.N., Ruge E.K., Starkov A.A. Vliyanie ingibitorov elektronnogo transporta na obrazovanie aktivnyh form kisloroda pri okislenii sukcinata mitohondriyami goroha. Biohimiya, 2003, t. 68, № 7, s. 910-916. [Popov VN, Ruge E.K., Starkov A.A. Effect of inhibitors of electronic transport on the formation of reactive oxygen species during the oxidation of succinate by pea mitochondria. Biochimia (Biochemistry), 2003, vol. 68, no. 7, pp. 910-916. (In Russ.)]

16. Mokhova E.N., Skulachev V.P., Zhigacheva I.V. Activation of external pathway of NADH oxidation in liver mitochondria of old adapted rats. BBA, 1977, vol. 501, pp. 415-423.

17. Fletcher B.I., Dillard C.D., Tappel A.L. Measurement of fluorescent lipid peroxidation products in biological systems and tissues. Anal. Biochem., 1973, vol. 52, pp. 1-9.

18. Shlyapintoh V.Ya., Karpuhin O.N., Postnikov L.M., Zaharov I.V., Vichutinskiy A.A., Cepalov V.F. Hemilyuminescentnye metody issledovaniya medlennyh himicheskih processov. M.: Nauka, 1966, 300 s. [Shlyapintok V.Ya., Karpukhin O.N., Postnikov L.M., Zakharov I.V., Vichutinsky A.A., Tsepalov V.F. Chemiluminescent methods for studying slow chemical processes. Moscow: Nauka, 1966, 300 p. (In Russ.)]

19. Solhaug A, Refsnes M., Låg M.T, Schwarze P. E., Husøy T., Holme J. A. Polycyclic aromatic hydrocarbons induce both apoptotic and anti-apoptotic signals in Hepa1c1c7 cells. Carcinogenesis, 2004, vol. 25, no. 5, pp. 809-819.

20. Hiura T.S., Li N., Kaplan R., Horwitz M., Jean-Clare Seagrave, Nel A.E. The Role of a Mitochondrial Pathway in the Induction of Apoptosis by Chemicals Extracted from Diesel Exhaust Particle. The Journal of Immunology, 2000, vol. 165, pp. 2703-2711.

21. Reed L.K, Carroll J. R, McGirk M. E, Stabenau E.K. Mitochondrial oxygen consumption and ATP content in control and pyrene-exposed frogs. Journal of Environmental Science and Health, part A, 2006, vol. 43, no. 6, pp. 576-583.


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