STUDYING THE INFLUENCE OF QUERCETIN FLAVONOID ON CONTRACTILITY ACTIVITY OF RAT AORTIC SMOOTH MUSCLE CELLS
| Autor: | Omonturdiev, S., Inomjonov, D., Abdullaev.A., Komilov.B., Gayibov, U., Eshbakova, K., Aripov, T., Usmanov, P. |
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| Jazyk: | angličtina |
| Rok vydání: | 2023 |
| Předmět: | |
| DOI: | 10.5281/zenodo.8146983 |
| Popis: | In this work, the vasorelaxant effect of the quercetine in isometric conditions on the smooth muscles of the rat aortic blood vessel has been studied. In experiments, it was obtained that the vasorelaxant effect of quercetine depends on its concentration and with blockade of CaL2+ - channels in the plasma membrane of smooth muscle cells of blood vessels. References: 1. Catterall W.A. Structure and regulation of voltage – gated Ca2+-channels // Annu. Rev. Cell Dev. Biol. – 2000. – V.16. – P.521–555. 2. Gao B. Functional properties of voltage – dependent calcium channel // J.Biol.Chem. – 2000. – V.275. – P.12237–12242. 3. Hughes A.D. Calcium channels in vascular smooth muscle cells // J.Vasc.Res. –1995. – V.32. – P.353–370. 4. Laporte R., Hui A., Laher I. Pharmacological Modulation of Sarcoplasmic Reticulum Function in Smooth Muscle // Pharmacol. Rev. – 2004. – V.56. – P.439–513. 5. Metchell B.M., Chitaley K.C., Webb P.C. Vascular smooth muscle contraction and relax-ation // In: hypertension Primer: The Essentials of High blood pressure, edited by Izzo JL and Black HR. Dallas, TX: Am. Heart Assoc. – 2003. – P.97-99. 6. Джахангиров Ф.Н., Султанходжаев М.Н., Ташходжаев Б., Салимов Б.Т. Дитерпе-ноидные алкалоиды как новый класс антиаритмических средств. Взаимосвязь структура-активность // Химия природн. соедин. – 1997. – №2. – С. 254. 7. Zaynabiddinov A.E., Salimov B.T., Usmanov P.B. 15-atsetoksiazometin atizin o'simlik alkaloidining kalamush yuragi papillyar muskuli qisqarish faolligiga musbat inotrop ta'siri // O`zbekiston biologiya jurnali – Toshkent, 2015 y. - №2. – 10-13 b. (03.00.00, №5) 8. Gayibov, U., Gayibova, S. N. ., Pozilov, M. K. ., Tuxtaeva, F. S. ., Yusupova, U. R. ., Djabbarova, G. M.-K. ., Mamatova, Z. A. ., Ergashev, N. A. ., & Aripov, T. F. . (2021). Influence of quercetin and dihydroquercetin on some functional parameters of rat liver mitochondria. Journal of Microbiology, Biotechnology and Food Sciences, 11(1), e2924. https://doi.org/10.15414/jmbfs.2924 9. Chalmers S., Olson ML, MacMillan D., Rainbow RD, McCarron JG Ion channels in smooth muscle: Regulation by the sarcoplasmic reticulum and mitochondria. Cell Calcium. - 2007. - 42. - P. 447-466. 10. Омонтурдиев С.З., Кодиров Т.Д., Мирзаева Ю.Т., Зайнобиддинов А.Э. Действие флавоноида кверцетина на гладкомышечные клетки аорты. «Фундаментальная наука и кли-ническая медицина человек и его здоровье».Cанкт-Петербург –2022. С.446-447. 11. Wray S. and Burdyga T. Sarcoplasmic Reticulum Function in Smooth Muscle. Physiol Rev 90: 113–178, 2010/ 12. Wier WG, Morgan KG Alpha-adrenergic signaling mechanism in contraction of resistance arteries. Rev.Physiol.Biochem.Pharmacol. 2003,v.150,91-139. 13. Cribs L. Vascular smooth muscle calcium channels. Circulation Research. 2001, v/89,560-562. 14. McFadzean I, Gibson A.The developing relationship between receptor-operated and store-operated calcium channels in smooth muscle. British Journal of Pharmacology (2002) v.135, 1-13 15. Jackson WF Ion channels and vascular tone. hypertension. 2000, v.35, 173-178/ 16. Taylor C. Regulation of IP3 receptors by cyclic AMP.Cell Calcium. 2017, v.63,48-52. 17. Tykocki NR, Thompson JM, Jackson WF, Watts SWRyanodine receptors are uncoupled from contraction in rat vena cava. Cell Calcium. 2013, v.53(2), P.112-119. 18. Watanabe C., Yamamoto I., Hirano K., Kobayashi S., and Kanaide H. Mechanisms of caffeine-induced contraction and relaxation of rat aortic smooth muscle. J Physiol. October 1992; 456:193–213. |
| Databáze: | OpenAIRE |
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