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Query: UMLS:C0043167 (
pertussis
)
19,595
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
1. Bordetella
pertussis
toxin, which catalyses the ADP-ribosylation of certain guanine nucleotide binding proteins (G proteins), thus functionally uncoupling them from associated receptors, was examined to determine whether it modified the antiarrhythmic effect of ischaemic preconditioning in anaesthetized rats. 2.
Pertussis
toxin (25 micrograms kg-1, i.p., 48 h prior to heart isolation) attenuated the negative chronotropic effect of acetylcholine (ACh) in rat isolated Langendorff perfused hearts. ACh (10 microM) reduced heart rate by 4% in hearts taken from
pertussis
toxin-treated animals, compared to a reduction of 57% in hearts taken from animals treated only with vehicle. 3. In anaesthetized rats, ischaemic preconditioning (a single 3 min occlusion of the left main coronary artery followed by 10 min reperfusion) had a pronounced antiarrhythmic effect during a subsequent 30 min period of regional myocardial ischaemia. Compared to hearts receiving only a 30 min period of left
coronary occlusion
, there was a reduced mortality (67% and 0% for control and preconditioned groups, respectively; P < 0.01) and decreased incidences of ventricular tachycardia (VT) and ventricular fibrillation (VF). Pretreatment with
pertussis
toxin (25 micrograms kg-1, i.p., 48 h previously) did not modify the arrhythmias associated with a 30 min period of regional myocardial ischaemia, neither did it modify the reduction in mortality (from 56% to 0%; P < 0.05) associated with preconditioning. Furthermore, the decrease in total ventricular premature beat count induced by preconditioning seen in controls (from 427 +/- 130 to 95 +/- 45) was also seen in
pertussis
toxin-treated rats (from 252 +/- 190 to 57 +/- 25). 4. These results suggest that receptor coupling to
pertussis
toxin-sensitive G proteins is not necessary for the antiarrhythmic effect of ischaemic preconditioning in this model.
...
PMID:Effects of Bordetella pertussis toxin pretreatment on the antiarrhythmic action of ischaemic preconditioning in anaesthetized rats. 777 35
Our goal was to better understand the mechanisms underlying muscarinic receptor actions on the ventricle in vivo. Therefore, we studied the effects of vagal stimulation on ventricular repolarization and of vagal tone on lethal arrhythmias induced by 30 minutes of left anterior descending coronary artery ligation in anesthetized cats. Experimental groups included normal control cats subjected only to coronary ligation and cats pretreated with atropine,
pertussis
toxin (PTX), or propranolol. All cats received bilateral cervical vagal stimulation (Vstim) at 1, 3, and 5 Hz for 1 minute at 10-minute intervals. Before coronary ligation, Vstim slowed sinus rate, prolonged the PR interval, and lowered blood pressure. Most important from the point of view of electrophysiological function was a vagally induced acceleration of ventricular repolarization in paced and unpaced hearts, which could be explained by the effects of acetylcholine (ie, shortening the subepicardial muscle action potentials). The effect on repolarization was blocked by atropine or PTX but not by propranolol. The extent of sinus slowing and acceleration of repolarization was directly related to the level of functional PTX-sensitive G protein (P < .05).
Coronary occlusion
was performed during atrial pacing such that the heart rate in all groups was equal. The incidence of ventricular fibrillation (VF) was 10% in the control group and 50% and 54% in atropine and PTX groups, respectively (P < .05). During atrial pacing before
coronary occlusion
, a vagal index was calculated as percent QTc shortening during Vstim. When the vagal index was 13% to 26%, the incidence of VF during occlusion was zero. When the vagal index was 0% to 12%, VF was 52% (P < .01). Conclusions are as follows: (1) Vstim accelerates ventricular repolarization in cats via a pathway that incorporates a PTX-sensitive G protein and involves an altered gradient between epicardium and endocardium. (2) Removal of vagal tone during ischemia favors VF, as predicted by a vagal index.
...
PMID:Mechanisms for vagal modulation of ventricular repolarization and of coronary occlusion-induced lethal arrhythmias in cats. 792 18
Short periods of ischemia render the myocardium more resistant to a subsequent prolonged
coronary occlusion
resulting in a reduction of infarct size. This cardioprotective mechanism has been called ischemic preconditioning. Acute myocardial ischemia results in a rapid decline of high energy phosphates. After short periods of ischemia the high energy phosphate levels are better preserved and the increase of lactate is slower during the prolonged subsequent ischemia in the preconditioned group compared to control. The duration of ischemia needed for induction of the protective effect is 2.5 min in dogs and 20 min in our swine model. In porcine myocardium the protection is lost about 1 h after induction and a renewal is not possible at that time, but is 24 h later. For rabbits or dogs, but not in pigs, a late protection 24 h after induction or preconditioning has been shown ("second window of protection"). Adenosine or adenosine A1 receptor agonists, muscarinic M2 receptor agonists, alpha 1-receptor agonists and bradykinin B2 receptor agonists as well as opening of the K+ATP-channel substitute for ischemia in the induction of protection. Activation of protein kinase C results in protection in rats and rabbits, but not in dogs or pigs. Inhibition of protein kinase C translocation or kinase activity results in a loss of the protection induced by preceding ischemia. After blockade of the K+ATP-channel the protection induced by adenosine A1 receptor activation is lost. Therefore opening of the K+ATP-channel is a prerequisite for induction of the protective effect. Inhibition of the inhibitory G-protein by
pertussis
toxin has been shown to result in a loss of protection, therefore the Gi-protein seems to be involved in the evolution of protection. In humans during coronary angioplasty anginal pain and lactate production during a second balloon occlusion is diminished without any change in the regional myocardial perfusion. This adaptation is inhibited by blockade of the K+ATP-channel or of the adenosine A1 receptor. Intermittent cross-clamping before a longer occlusion during open-heart surgery results in a better preservation of high energy phosphates compared to controls without preceding short ischemia. These observations support the hypothesis that ischemic preconditioning also occurs in humans. Angina pectoris preceding the myocardial infarction may have preconditioned the human heart against the subsequent myocardial infarction, but studies concerning the influence of angina pectoris on short-term outcome after thrombolysis are conflicting. In the future, ischemic preconditioning or preconditioning with drugs may prolong the duration of ischemia tolerated without necrosis and improve the prognosis of patients by reducing the infarct size.
...
PMID:-Myocardial protection by preconditioning. Experimental and clinical significance-. 865 Sep 86
In order to examine the status of G-proteins in congestive heart failure due to myocardial infarction, the left coronary artery in rats was ligated and animals assessed after 4, 8 and 16 weeks. Sham-operated control and experimental animals were used for the preparation of membranes from the viable (uninfarcted) left and right ventricles. Adenylyl cyclase activities in the presence of
pertussis
toxin and cholera toxin were increased and decreased in left ventricles from all groups, respectively. On the other hand, adenylyl cyclase activities in 8 and 16-week experimental right ventricles were unaltered in the presence of
pertussis
toxin and increased in the presence of cholera toxin. Depression of adenylyl cyclase activities in left ventricles from all groups as well as in the right ventricle at 4 weeks were not evident when enzyme activity was determined in the
pertussis
toxin-treated membranes in the absence or presence of Gpp(NH)p. Cholera toxin-catalyzed ADP ribosylation was decreased in left ventricles from all infarcted groups and increased in the right ventricles at 8 and 16 weeks whereas the
pertussis
toxin-catalyzed ADP ribosylation was increased in all experimental tissues except in the right ventricles at 8 and 16 weeks. G(s alpha)-protein content was decreased in the left ventricle at 16 weeks and increased in the right ventricles at 8 and 16 weeks of myocardial infarction. On the other hand, G(i alpha)-protein content was increased in left ventricles from all infarcted groups and the 4-week right ventricle but was unaltered in 8 and 16-week right ventricles. An increase in mRNA abundance for G(i alpha)-protein was seen in both left and right ventricles following myocardial infarction. A significant increase in mRNA level for G(s alpha)-protein was observed in all left ventricles and 8-week right ventricle following the
coronary occlusion
. These results suggest that changes in Gs- and Gi-proteins in the failing heart due to myocardial infarction are chamber-specific and are dependent upon the stage of congestive heart failure.
...
PMID:Differential alterations in left and right ventricular G-proteins in congestive heart failure due to myocardial infarction. 992 53
It has been demonstrated that brief periods of coronary artery occlusion before a prolonged period of sustained occlusion paradoxically protect the myocardium against infarction. The mechanisms involved in this phenomenon, termed "ischaemic preconditioning" (IPC) are still not clear, although it has been established that opioid receptors are involved. The aim of this study was to probe some of the plausible mechanisms involved in the phenomenon by using an in vivo model of myocardial infarction in intact rat, a model that allows electro-cardiographic and enzymatic in addition to morphometric evaluation of the development of 24-hour myocardial infarction. Selective opioid delta-receptor agonist (DADLE) and antagonist (natrindole), and opioid kappa-receptor agonist (U-50488H) and antagonist (nor-BNI) were used. To clarify some of the mechanisms of IPC, we used selective inhibitors of the anticipated cellular systems involved.
Pertussis
toxin (inhibitor of adenylate cyclase G(I/o) protein), glibenclamide (inhibitor of K(ATP ) channel) and chelerythrine (inhibitor of PKC) were used. Results obtained showed that: Both opioid delta- and kappa-receptors were involved in the beneficial effect of IPC, although we were unable to differentiate between opioid receptor subtypes (delta1, delta2 and kappa1, kappa2). Opioid delta- and kappa-receptors displayed different effects in IPC. After 30 minutes of left
coronary occlusion
and 2-hour reperfusion, opioid delta-receptor agonist DADLE significantly decreased (p < 0.05) the infarct size (by 66%--from % IS/AAR 59.80 in the control, untreated infracted rats to % 20.40), without a significant effect (p > 0.05) on the occurrence of early arrhythmias. Opioid kappa-receptor agonist U-50488H produced mainly antiarrhythmic effects. It decreased % IS/AAR by 44%, reduced the occurrence of early arrhythmias by 77%, and decreased ventricular ectopic beats by 80%. Both opioid delta- and kappa-receptor agonists significantly reduced (p < 0.05 ) early (2-hour) mortality by 22% and 19% respectively. The above opioid delta- and kappa-receptor cardiac effects were abolished by the use of respective specific opioid delta- and kappa-receptor antagonists. The beneficial effects of opioid delta- and kappa-receptor agonists persisted for at least 24 hours post-infarction. It is most likely that both opioid delta- and kappa-receptors act via common cellular mechanisms involving: activation of ATP-sensitive (sarcolemmal) K+ channel via G(I/o) proteins (based on the results of our experiments with K(ATP) channel antagonist, glibenclamide); phosphatidylinositol pathway via activation of protein kinase C (judging from the results of our experiments with the inhibitor of PKC, chelerythrine); and the recently proposed "cross talk" between beta (1)-adrenergic and opioid receptors in cardiac myocytes (involving inhibition of adenylate cyclase by G(I/o) proteins). Exploring the possibility of this signaling pathway will be the next step in our experimental studies.
...
PMID:Mechanisms of opioid delta (delta) and kappa ( kappa) receptors' cardioprotection in ischaemic preconditioning in a rat model of myocardial infarction. 1274 44
