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1Academic Journal
Authors: V. N. Shuvaeva, O. P. Gorshkova, В. Н. Шуваева, О. П. Горшкова
Contributors: Работа поддержана средствами федерального бюджета в рамках государственного задания Института физиологии имени И.П. Павлова РАН (№1021062411784-3-3.1.8).
Source: Vestnik Moskovskogo universiteta. Seriya 16. Biologiya; Том 79, № 1 (2024); 3-11 ; Вестник Московского университета. Серия 16. Биология; Том 79, № 1 (2024); 3-11 ; 0137-0952
Subject Terms: гладкомышечные клетки сосудов, pial arteries, vasodilation, acetylcholine, calcium-activated potassium channels of large conductance, vascular smooth muscle cells, пиальные артерии, вазодилатация, ацетилхолин, кальций-активируемые калиевые каналы большой проводимости
File Description: application/pdf
Relation: https://vestnik-bio-msu.elpub.ru/jour/article/view/1331/660; Мадьянова В.В. Болезни системы кровообращения у пожилых в России: динамика показателей заболеваемости и смертности. Пробл. стандарт. здравоохр. 2020;(11–12):44–52.; Chennupati R., Lamers W.H., Koehler S.T., De Mey G.R. Endothelium-dependent hyperpolarization-related relaxations diminish with age in murine saphenous arteries of both sexes. Br. J. Pharmacol. 2013;169(7):1486–1499.; Carvalho-de-Souza J.L., Varanda W.A., Tostes R.C., Chignalia A.Z. BK Channels in cardiovascular diseases and aging. Aging Dis. 2013;4(1):38–49.; Tykocki N.R., Boerman E.M., Jackson W.F. Smooth muscle ion channels and regulation of vascular tone in resistance arteries and arterioles. Compr. Physiol. 2017;7(2):485–581.; Tanaka Y., Koike K., Toro L. Maxi K channel roles in blood vessel relaxations induced by endothelium-derived relaxing factors and their molecular mechanisms. J. Smooth Muscle Res. 2004;40(4–5):125–153.; Jackson W.F. Calcium-dependent ion channels and the regulation of arteriolar myogenic tone. Front. Physiol. 2021;12:770450.; Hofmann F., Bernhard D., Lukowski R., Weinmeister P. cGMP regulated protein kinases (cGK). Handbook of Experimental Pharmacology, vol. 191. Eds. H.H.H.W. Schmidt, F. Hofmann and J.P. Stasch. Berlin; Heidelberg: Springer; 2009:137–162.; Serviente C., Berry C.W., Kenney W.L., Alexander L.M. Healthy active older adults have enhanced K+ channel- dependent endothelial vasodilatory mechanisms. Am. J. Physiol. Regul. Integr. Comp. Physiol. 2020;319(1):R19–R25.; Schmid J., Müller B., Heppeler D., Gaynullina D., Kassmann M., Gagov H., Mladenov M., Gollasch M., Schubert R. The unexpected role of calcium-activated potassium channels: limitation of NO-induced arterial relaxation. J. Am. Heart Assoc. 2018;7(7):e007808.; Shuvaeva V.N., Gorshkova O.P. Contribution of IKCachannels to dilatation of pial arteries in young rats after ischemia/ reperfusion. J. Evol. Biochem. Physiol. 2022;58(6):1926–1936.; Sandow S.L., Senadheera S., Grayson T.H., Welsh D.G., Murphy T.V. Calcium and endothelium-mediated vasodilator signaling. Adv. Exp. Med. Biol. 2012;740:811–831.; Шуваева В.Н., Горшкова О.П. Модуляция тонуса церебральных артерий ацетилхолином у крыс разных линий. Росс. физиол. журн. им. И.М. Сеченова. 2018;104(7):807–816.; Davis C.M., Siler D.A., Alkayed N.J. Endothelium- derived hyperpolarizing factor in the brain: influence of sex, vessel size and disease state. Womens Health (Lond.). 2011;7(3):293–303.; Shuvaeva V.N., Gorshkova O.P. AgeRelated Changes in the contribution of nitric oxide and potassium channels to dilation of rat pial arteries. J. Evol. Biochem. Physiol. 2021;57(6):1408–1418.; Beleznai T.Z., Yarova P.L., Yuill K.H., Dora K.A. Smooth muscle Ca2+-activated and voltagegated K+ channels modulate conducted dilation in rat isolated small mesenteric arteries. Microcircul. 2011;18(6):487–500.; Черваев А.А., Буцких М.Г., Галагудза М.М. Механизмы нейрососудистого сопряжения. Рег. кровообр. микроциркул. 2023;22(2):67–73.; Zuccolo E., Lim D., Kheder D.A., Perna A., Catarsi P., Botta L., Rosti V., Riboni L., Sancini G., Tanzi F., D’Angelo E., Guerra G., Moccia F. Acetylcholine induces intracellular Ca2+ oscillations and nitric oxide release in mouse brain endothelial cells. Cell Calcium. 2017;66:33–47.; Gorshkova O.P. Age-related changes in the indices of cerebral blood flow velocity in rats. J. Evol. Biochem. Physiol. 2022;58(3):894–900.; Gorshkova O.P. Changes in rat cerebral blood flow velocities at different stages of aging. J. Evol. Biochem. Physiol. 2023;59(2):569–576.; Krüger-Genge A., Blocki A., Franke R.P., Jung F. Vascular endothelial cell biology: An update. Int. J. Mol. Sci. 2019;20(18):4411.; Mitchell J.A., Kirkby N.S. Eicosanoids, prostacyclin and cyclooxygenase in the cardiovascular system. Br. J. Pharmacol. 2018;176(8):1038–1050.; Иванов А.Н., Попыхова Э.Б., Терешкина Н.Е., Степанова Т.В., Злобина О.В., Норкин И.А. Вазомоторная функция эндотелия. Усп. физиол. наук. 2020;51(4):82–104.; Lang M.G., Paterno R., Faraci F.M., Heistad D.D. Mechanisms of adrenomedullin-induced dilatation of cerebral arterioles. Stroke.1997;28(1):181–185.; Sobey C.G., Heistad D.D., Faraci F.M. Potassium channels mediate dilatation of cerebral arterioles in response to arachidonate. Am. J. Physiol. 1998;275(5):H1606–H1612.; Behringer E.J., Shaw R.L., Westcott E.B., Socha M.J., Segal S.S. Aging impairs electrical conduction along endothelium of resistance arteries through enhanced Ca2+-activated K+ channel activation. Arterioscler. Thromb. Vasc. Biol. 2013;33(8):1892–1901.; Behringer E.J., Segal S.S. Tuning electrical conduction along endothelial tubes of resistance arteries through Ca2+-activated K+ channels. Circ. Res. 2012;110(10):1311–1321.