Acta Naturae

2075-8251

Acta Naturae Ltd

10683

10.32607/20758251-2011-3-2-103-112

Articles

Статьи

Research Article

The Effects of P 2-Adrenoreceptor Activation on the Contractility, Ca-Signals and Nitric Oxide Production in the Mouse Atria

Odnoshivkina

Yu G

Petrov

A M

fysio@rambler.ruZefirov

A L

Kazan State Medical University, Federal Agency for Health Care and Social Development

15062011

VOL 3, NO2 (2011)

ТОМ 3, №2 (2011)

10311217012020

2011

Odnoshivkina Y.G., Petrov A.M., Zefirov A.L.

https://creativecommons.org/licenses/by/4.0

https://actanaturae.ru/2075-8251/article/view/10683

The effects of the selective P 2-adrenoreceptor agonist (fenoterol) on the functioning of mouse atrial were studied using both tensometry and fluorescent methods. It has been demonstrated that with the use of a high concentration of fenoterol (in the range of 1-50 μM), there is a more significant positive inotropic effect observed within a shorter period of time. In the case of relatively low doses of fenoterol (1 and 5 μM), its contractility effects are observed 20 min after the application of agonist, whereby in the case of high concentrations (25, 50 and 300 μM), the effects appear within the first minutes. During the first 10-15 min, 5 μM fenoterol causes an increase in the amplitude of Ca-signals in cardiomyocytes (this indicates an increase in the concentration of Ca ions during systole) and the activation of NO synthesis. However, after 20 min, the production of NO decreases; while the amplitude of Ca-signals remains high. The application of 50 μM fenoterol leads to a rapid increase in the amplitude of Ca-signals: at the same time, it causes a decrease in the production of NO, which we found to begin to increase after 10 min of agonist application. It is suggested that the dynamics of the positive inotropic effect occurring under pharmacological stimulation of β 2-adrenoreceptors depend on the rate of increase in the amplitude of Ca-signals and on the degree of NO synthesis.

β -adrenoreceptorfenoterolcalciumnitrico xidecontractilityatrial cardiomyocytes

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