Electrophysiological effects of neurotransmitters on pacemaker cells in guinea pig left ventricular outflow tract.
- Author:
Lan-Ping ZHAO
1
;
Xiao-Yun ZHANG
;
Yan-Jing CHEN
;
Jian-Dong LI
;
San-Ming ZHANG
;
Xue-Fang WANG
;
Fu-Gui GE
Author Information
1. Department of Physiology, Hebei North University, Zhangjiakou 075000, China.
- Publication Type:Journal Article
- MeSH:
Action Potentials;
drug effects;
Animals;
Aorta, Thoracic;
cytology;
physiology;
Electrophysiological Phenomena;
Female;
Guinea Pigs;
Heart Ventricles;
cytology;
Male;
Microelectrodes;
Neurotransmitter Agents;
physiology;
Receptors, Adrenergic, alpha;
physiology;
Receptors, Adrenergic, beta;
physiology;
Receptors, Muscarinic;
physiology;
Ventricular Function, Left;
physiology
- From:
Acta Physiologica Sinica
2005;57(5):593-598
- CountryChina
- Language:Chinese
-
Abstract:
This study was designed to explore the innervation of autonomic nervous system and the distribution of receptors on pacemaker cell membrane in guinea pig left ventricular outflow tract (aortic vestibule). By using conventional intracellular microelectrode technique to record action potentials, autonomic neurotransmitters and antagonists were used to investigate the electrophysiological features and regularities of spontaneous activity of left ventricular outflow tract cells. Electrophysiological parameters examined were: maximal diastolic potential (MDP), amplitude of action potential (APA), maximal rate of depolarization (V(max)), velocity of diastolic depolarization (VDD), rate of pacemaker firing (RPF), 50% and 90% of duration of action potential (APD(50) and APD(90)). The results are listed below: (1) Perfusion with 100 mumol/L isoprenaline (Iso) resulted in a significant increase in V(max) (P <0.05), VDD, RPF, and APA (P <0.01), a notable decrease in MDP (P<0.05), and also a marked shortening in APD(50) (P<0.01). Pretreatment with Iso (100 mumol/L), propranolol (5 mumol/L) significantly decreased RPF and VDD (P<0.01), decreased APA, MDP and V(max) (P<0.01) notably, prolonged APD(50) (P<0.01) and APD(90) (P<0.05) markedly. (2) Application of 100 mumol/L epinephrine (E) resulted in a significant increase in VDD (P<0.05), RPF (P<0.001), V(max) (P<0.05) and APA (P<0.001), and a notable shortening in APD(50) and APD(90) (P<0.05). (3) Perfusion with 100 mumol/L norepinephrine (NE) led to a significant increase in VDD, RPF, APA and V(max) (P<0.05), and a marked shortening in APD(50) (P<0.05). Pretreatment with NE (100 mumol/L), phentolamine (100 mumol/L) significantly decreased RPF and VDD, MDP and APA (P<0.01), decreased V(max) notably (P<0.05), prolonged APD(50) and APD(90) markedly (P<0.01). (4) During perfusion with 10 mmol/L acetylcholine (ACh), VDD and RPF slowed down notably (P<0.05), APA decreased significantly (P<0.001), V(max) slowed down notably (P<0.01), APD50 shortened markedly (P<0.05), Atropine (10 mmol/L) antagonized the effects of ACh (10 mumol/L) on APD(50) (P<0.05). These results suggest that there are probably alpha-adrenergic receptor (alpha-AR), beta-adrenergic receptor (beta-AR) and muscarinic receptor (MR) on pacemaker cell membrane of left ventricular outflow tract in guinea pig. The spontaneous activities of left ventricular outflow tract cells are likely regulated by sympathetic and parasympathetic nerves.
