The reciprocal character of the muscarinic and nicotinic cholinergic mechanisms interaction in the systemic hemodynamics regulation



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Abstract

On anesthetized cats following M-cholinoreceptors blockade acetylcholine injection caused, in contrast with intact animals, the increasing of the arterial pressure, cardiac output, total peripheral resistance, heart rate and myocardial contractility. After acetylcholine injection in the condition of the N-cholinoreceptors blockade the systemic hemodynamic parameters decreased more, comparing with the intact animals. Thus, N-mimetic effects of acetylcholine are augmented following M-cholinoreceptors blockade; meanwhile M-mimetic effects of acetylcholine on the heart and vessels are increased following N-cholinoreceptors blockade. After the blockade of muscarinic or nicotinic receptors adrenaline injection caused more evaluated increasing of the systemic hemodynamic parameters comparing with intact animals. However, if we injected adrenalin in cats following M-cholinoreceptors blockade combined with inhibition of acetylcholinesterase by proserine, the systemic hemodynamic parameters increased more, comparing with animals with only M-cholinoreceptors blockade. If we injected adrenalin in cats following N-cholinoreceptors blockade combined with inhibition of acetylcholinesterase, the systemic hemodynamic parameters increased less, than in animals with only N-cholinoreceptors blockade. Thus, we concluded that there is reciprocal interaction between muscarininc and nicotinic cholinergic mechanisms in the processes of the nervous regulation of the systemic circulation.

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About the authors

N A Loseѵ

Institute of Experimental Medicine of the North-West Department Russian Acad. Med. Sci., St. Petersburg

Email: iem@iem.spb.ru

V I Evlakhov

Institute of Experimental Medicine of the North-West Department Russian Acad. Med. Sci., St. Petersburg

L N Shalkovskaya

I. P. Pavlov State Medical University, St. Petersburg

References

  1. Аничков С.В., Сапронов Н.С. Фармакология сердца и сосудов. М.: Медицина, 1984. 192 с.
  2. Иванова О.В., Соболева Г.Н., Карпов Ю.А. Эндотелиальная дисфункция - важный этап развития атеросклеротического поражения сосудов // Тер. арх. 1997. Т. 75. № 6. С. 75-78.
  3. Лосев Н.А. О реципрокности М- и N-холинорецепторов и холинергических механизмов в центральной нервной системе / Достижения современной фармакологии. Л., 1987. С. 90-97.
  4. Мясникова Е.М., Лосев Н.А. Распределение и функциональные характеристики N- и М-холинорецепторов в структурах стриопаллидарного комплекса // Физиол. журн. СССР им. И. М. Сеченова. 1978. Т. 64. № 1. С. 3-9.
  5. Ткаченко Б.И. Системная гемодинамика // Рос. физиол. журн. им. И. М. Сеченова. 1999. Т. 85. № 9. С. 1255-1266.
  6. Ткаченко Б.И., Евлахов В.И., Пуговкин А.П., Таба- ров М.С. Гемодинамика при сочетанных воздействиях. СПб. - Душанбе, 1996. 248 с.
  7. Физиология и патофизиология сердца: В 2-х т. Т. 2: Пер. с англ. / Ред. Н. Сперелакис. 2-е изд. перераб. и доп. М.: Медицина, 1990. 624 с.
  8. Armour J.A. Alpha-adrenergic receptor modulation of the intrathoracic efferent sympathetic nervous system, regulating the canine heart // Canad. J. of Physiol, and Pharmacol. 1989. Vol. 67. № 10. P. 1199-1224.
  9. Bognar I.T., Baretti R., Fisher S., Veldet C., Fuder H. Alpha-adrenoceptor mediated facilitation of acethylcholine release in rat perfused heart // J. Pharmacol. Exp. Therap. 1990. Vol. 254. № 2. P. 702-710.
  10. Brodde O.E., Bruck H., Leineweber K., Seyfarth T. Presence, distribution and physiological function of adrenergic and muscarinic receptor subtypes in the human heart // Basic Res. Cardiol. 2001. Vol. 96. № 6. P. 528-538.
  11. Deck J., Bibevski S., Gnecchi-Ruscone T. et al. Al- pha7-nicotinic acetylcholine receptor subunit is not required for parasympathetic control of the heart in the mouse // Physiol. Genomics. 2005. Vol. 22. № 1. P. 86- 92.
  12. Dhein S., van Koppen C.J., Brodde O.E. Muscarinic receptors in the mammalian heart // Pharmacol. Res. 2001. Vol. 44. №3. P.61-82.
  13. Gales В.J., Gales M.A. Pyridostigmine in the treatment of orthostatic intolerance // Ann. Pharmacother. 2007. Vol. 41. №2. P. 314-318.
  14. Langer S.Z. Presynaptic regulation of the release of the cathecholamines//Pharmacol. Rew. 1980. Vol. 32. № 3. P. 337-362.
  15. Levy M.N. Autonomic interactions in cardiac control / Electrocardiography // Ann. of the New York Acad. Sci. 1990. Vol. 601. № 9. P. 209-221.
  16. Li Y.F., LaCroix C., Freeling J. Specific subtypes of nicotinic cholinergic receptors involved in sympathetic and parasympathetic cardiovascular responses // Neu- rosci Lett. 2009. Vol. 462. № 1. P. 20-23.
  17. Mizuno M., Kamiya A., Kawada T. et al. Accentuated antagonism in vagal heart rate control mediated through muscarinic potassium channels // J. Physiol. Sci. 2008. Vol. 58. № 6. P. 381-388.
  18. Page I.H., McCubbin J.W. Mechanisms by wich gangli- oplegics and atropine enhance cardiovascular responsiveness //Am. J. of Physiol. 1963. ѴЫ. 205. № 1. P. 1-9.
  19. Yalcin M., Savci V, Jochem J. Involvement of the cholinergic system in the central histamine-induced reversal of critical haemorrhagic hypotension in rats // J. Physiol. Pharmacol. 2009. ѴЫ. 60. № 2. P. 133-137.

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