Acetazolamide teratogenesis in Wistar rats: potentiation and antagonism by adrenergic agents

Acetazolamide, a carbonic anhydrase inhibitor, induced right forelimb ectrodactyly in rat fetuses when the mothers were treated on late day 10 and early day 11 of gestation. Coadministration of the selective alpha-1-adrenergic agonist phenylephrine significantly increased the incidence of acetazolamide-induced right forelimb ectrodactyly while failing to induce the lesion when administered alone. Pretreatment with the alpha-adrenergic antagonists phenoxybenzamine and prazosin prevented the phenylephrine-induced increase in right forelimb ectrodactyly. In addition, treatment with either phenoxybenzamine or prazosin in the absence of stimulation with phenylephrine significantly decreased the incidence of acetazolamide-induced ectrodactyly. The results suggest an adrenergic component in acetazolamide teratogenesis. Alterations in uterine blood flow are discussed as a plausible mechanism for the modification of the incidence of ectrodactyly by these adrenergic agents.     

Alpha-Adrenergic receptor responsiveness is preserved during prolonged exercise

Our laboratory has previously reported a decline in sympathetic nervous system restraint of skeletal muscle blood flow during prolonged mild-intensity exercise. This decline may be explained by a decrease in alpha(1)- and alpha(2)-adrenergic receptor responsiveness over time. Thus the purpose of the present study was to investigate the effect of exercise duration on alpha(1)- and alpha(2)-adrenergic receptor responsiveness during prolonged constant-load exercise. Mongrel dogs (n = 6) were instrumented chronically with transit-time flow probes on the external iliac arteries and an indwelling catheter in a branch of the femoral artery. On separate days, flow-adjusted doses of selective alpha(1)- (phenylephrine) alpha(2)-adrenergic-receptor (clonidine) agonists, and tyramine (to evoke endogenous norepinephrine release) were infused following 5, 30 and 50 min of mild-intensity treadmill exercise (3 miles/h), with hindlimb blood flow (HBF) and mean arterial pressure (MAP) monitored continuously. Vascular conductance (VC) was calculated as HBF/MAP. While the dogs ran on the treadmill at 3 miles/h, infusion of phenylephrine resulted in similar decreases in VC after 5 [73% (SD 10)], 30 [76% (SD 9)], and 50 [73% (SD 10)] min of exercise. Infusion of the alpha(2)-agonist clonidine also produced similar decreases in VC after 5 [58% (SD 10)], 30 [58% (SD 11)], and 50 [53% (SD 12)] min of exercise. Infusion of tyramine resulted in similar decreases in VC after 5 [55% (SD 15)], 30 [51% (SD 10)], and 50 [50% (SD 7)] min of exercise. These results demonstrate that alpha(1)- and alpha(2)-adrenergic receptor responsiveness to infusion of selective alpha(1)- and alpha(2)-adrenergic-receptor agonists and endogenous norepinephrine release (tyramine) does not decline during prolonged mild-intensity exercise. Thus a decrease in alpha-adrenergic receptor responsiveness over time does not appear to be responsible for the decrease in sympathetic restraint of muscle blood flow during prolonged exercise.     

Potentiation of acetazolamide induced ectrodactyly in Wistar rats by vasoactive agents and physical clamping of the uterus

The vasoactive agents serotonin, ergotamine, and nicotine potentiate acetazolamide induced forelimb ectrodactyly (missing digits) in Wistar rats. These vasoactive agents administered alone do not produce forelimb ectrodactyly and are not known to be inhibitors of carbonic anhydrase. Additionally, physical clamping of the uterine horns in addition to oral acetazolamide administration increases the frequency of forelimb ectrodactyly, suggesting that decreased uterine blood flow can potentiate acetazolamide teratogenesis. Since the vasoactive agents used in this study are reported to possess uterine vasoconstrictive activity, a decrease in uterine blood flow is a plausible mechanism for the potentiative ability of these agents.     

Effects of alpha-1 adrenergic receptor antagonist, terazosin, on cardiovascular functions in anaesthetised dogs

Initially a dose-response curve of phenylephrine was constructed at dose strengths of 1-16 microg/kg in a cumulative manner. Phenylephrine caused a significant rise in the mean arterial pressure, left ventricular systolic pressure, left ventricular contractility, stroke volume and a significant decline in the heart rate. Terazosin was administered in three selected doses of 10, 100 and 300 microg/kg. Following each dose of terazosin, dose-response curve of phenylephrine was constructed. Terazosin, per se, decreased the basal mean arterial pressure, left ventricular systolic pressure, left ventricular contractility and stroke volume significantly in a dose dependent manner with an increase in the heart rate with no significant change in the cardiac output. The baroreflex sensitivity at all the three doses remained unchanged. In conclusion, the present findings support the view that terazosin reduces the blood pressure in a physiologically more favorable manner by maintaining the neural integrity of the cardiovascular system.     

Comparative studies on acetazolamide teratogenesis in pregnant rats, rabbits, and rhesus monkeys

Acetazolamide produces a characteristic forelimb reduction deformity when administered to pregnant rodents. Past studies indicated that non-rodent species (rabbit and monkey) are resistant to this effect. The present studies confirmed this fact and demonstrated that transport of acetazolamide into the rabbit embryo was similar to that in sensitive rat embryos. In monkeys, however, the concentrations of acetazolamide within maternal plasma and embryo were much lower than in rats. Carbonic anhydrase activity was also measured since inhibition of this enzyme is the primary pharmacologic effect of acetazolamide. Again the rabbit embryo had carbonic anhydrase specific activity levels similar to that of the rat. Monkey embryos, on the other hand, contained negligible levels of enzyme activity during the presumed sensitive period of development. Thus the resistance of monkey embryos to acetazolamide teratogenesis may be due to low carbonic anhydrase activity and/or the small amount of drug reaching the embryo. No basis for the resistance of rabbit embryos to acetazolamide teratogenesis was uncovered.     

Interaction of 4-hydroxylated estradiol and potential-sensitive Ca2+ channels in altering uterine blood flow during the estrous cycle and early pregnancy in gilts

This study was conducted to define further the role of catechol estrogens (CE) as intermediates in estrogen-stimulated uterine hyperemia. Previous studies from our laboratory strongly suggest that changes in uterine blood flow (UBF) result from alterations in uterine arterial tone (distensibility) and/or contractility (reactivity to alpha 1-adrenergic agonists). Tone changes appear to set the baseline rate of flow, whereas contractility changes result in short-term reductions in luminal diameter. Changes in uterine arterial tone and contractility result from alterations in Ca2+ uptake through potential-sensitive channels (PSCs) and receptor-operated channels (ROCs), respectively. Uterine and mesenteric arteries were removed from 6 gilts at estrus (Day 0), 9 gilts on Day 13 of gestation (high estrogen, high UBF), and 8 gilts on Day 13 of the estrous cycle (low estrogen, low UBF). Arterial measurements included initial tone (baseline perfusion pressure [BPP] to a constant intraluminal flow) and increased tone after exposure to KCl, the contractility in response to the alpha 1-agonist phenylephrine, and specific uptake of 45Ca before and after exposure to the CE 4-hydroxylated estradiol (4OH-E2). Contractility of uterine arteries from Day 13 nonpregnant (NP) and Day 13 pregnant (P) gilts to phenylephrine were similar and significantly greater (p less than 0.01) than contractility of vessels from estrous gilts. The BPP and responses of uterine arteries from Day 13 NP gilts to KCl were greater (p less than 0.05) than the BPP and responses of arteries from Day 13 P and estrous gilts, which were similar to each other.(ABSTRACT TRUNCATED AT 250 WORDS)     

Evidence for alpha-1 adrenergic receptor regulation of atriopeptin release from the isolated rat heart

Atrial myocardium is the source of a recently described peptide hormone termed atriopeptin. Atriopeptin is thought to have a role in the regulation of systemic arterial pressure, fluid balance and plasma electrolyte homeostasis. Isolated rat hearts release atriopeptin into the coronary effluent, and we have found that this release is stimulated by the administration of norepinephrine, a compound with alpha and beta adrenergic properties. Infusion of the pure beta-receptor agonist, isoproterenol, failed to stimulate the release; however, the alpha-1 receptor agonist phenylephrine induced the release in a dose-dependent manner. The stimulation of atriopeptin release by norepinephrine and phenylephrine was inhibited by alpha-blockade with phentolamine. Administration of BHT-920, a selective alpha-2 agonist, had no effect on atriopeptin release. We conclude that atriopeptin secretion by the atrial myocyte is stimulated by activation of the alpha-1 adrenergic receptor. This finding suggests an involvement of the sympathetic nervous system in the physiologic regulation of the secretion of this hormone.     

Role of cAMP inhibition of p44/p42 mitogen-activated protein kinase in potentiation of protein secretion in rat lacrimal gland

We previously found that addition of cAMP and a Ca(2+)/PKC-dependent agonist causes synergism or potentiation of protein secretion from rat lacrimal gland acini. In the present study we determined whether cAMP decreases p44/p42 mitogen-activated protein kinase (MAPK) activity in the lacrimal gland. Since we know that activation of MAPK attenuates protein secretion stimulated by Ca(2+)- and PKC-dependent agonists, we also determined whether this activation causes potentiation of secretion. Freshly prepared rat lacrimal gland acinar cells were incubated with dibutyryl cAMP (DBcAMP), carbachol (a cholinergic agonist), phenylephrine (an alpha(1)-adrenergic agonist), or epidermal growth factor (EGF). The latter three agonists are known to activate p44/p42 MAPK. p44/p42 MAPK activity and protein secretion were measured. As measured by Western blot analysis, DBcAMP inhibited both basal and agonist-stimulated p44/p42 MAPK activity. Cellular cAMP levels were increased by 1) using two different cell-permeant cAMP analogs, 2) activating adenylyl cyclase (L-858051), or 3) activation of G(s)-coupled receptors (VIP). The cell-permeant cAMP analogs, L-858051, and VIP inhibited basal p44/p42 MAPK activity by 50, 40, and 40%, respectively. DBcAMP and VIP inhibited carbachol- and EGF-stimulated MAPK activity. cAMP, but not VIP, inhibited phenylephrine-stimulated MAPK activity. Potentiation of secretion was detected when carbachol, phenylephrine, or EGF was simultaneously added with DBcAMP. We conclude that increasing cellular cAMP levels inhibits p44/p42 MAPK activity and that this could account for potentiation of secretion obtained when cAMP was elevated and Ca(2+) and PKC were increased by agonists.     

Protein Kinase C and Phospholipase C Mediate α- and β-Adrenoceptor Intercommunication in Rat Hypothalamic Slices

These experiments examined the mechanism by which phenylephrine enhances beta-adrenoceptor-stimulated cyclic AMP formation in rat hypothalamic and preoptic area slices. To this end we manipulated phospholipase C. phospholipase A2, and protein kinase C activity in slices and assessed the effects of these manipulations on phenylephrine augmentation of isoproterenol-stimulated cyclic AMP generation. Since previous work indicated that estrogen enhances the alpha 1-component of cyclic AMP formation, we examined slices from both gonadectomized and estrogen-treated animals. The alpha 1-antagonist prazosin eliminated phenylephrine augmentation of the beta-response, suggesting that alpha 1-adrenergic receptors mediate the potentiation of cyclic AMP formation. Inhibition of protein kinase C by H7 attenuated the alpha 1-augmentation of beta-stimulated cyclic AMP formation. Staurosporine, a more potent protein kinase C inhibitor, completely abolished the alpha 1-augmenting response. In addition, phenylephrine potentiation of the isoproterenol response was not observed if protein kinase C was first stimulated directly with a synthetic diacylglycerol (1-oleoyl-2-acetyl-sn-glycerol) or phorbol ester (phorbol 12,13-dibutyrate). Neomycin, an inhibitor of phospholipase C, decreased alpha 1-receptor enhancement of beta-stimulated cyclic AMP formation, whereas quinacrine, an inhibitor of phospholipase A2, did not. The data suggest that the postreceptor mechanism involved in alpha 1-adrenergic receptor potentiation of cyclic AMP generation in hypothalamic and preoptic area slices includes activation of phospholipase C and protein kinase C.     

Effects of the partial dopamine receptor agonist, terguride, on the field-stimulated vas deferens in the mouse

Transdihydrolisuride (terguride), a 9,10-dihydrogenated analogue of the ergot dopamine agonist lisuride, is characterized as partial dopamine receptor agonist at CNS level. This compound was investigated for its effects on peripheral neurotransmission in the attempt to delineate its pharmacological profile. The contractile responses of field-stimulated mouse vas deferens were slightly inhibited by terguride at very high concentrations (10(-5)-10(-2) M); the selective antagonists for alpha 2-adrenergic and dopamine receptors failed to counteract this effect. Terguride was very effective in blocking the inhibitory effects of LY 171555 (selective DA2 agonist), SK&F 38393 (selective DA1 agonist) and clonidine (selective alpha 2 agonist). In no case the antagonism was competitive: the control dose-response curves were not shifted in a parallel and dose-dependent manner. Therefore terguride displays a mixed DA1, DA2 and alpha 2 antagonistic activity.     

The effects of xylazine and alpha-adrenoreceptor antagonists on bovine uterine contractility in vitro

The effects of alpha-adrenoreceptor antagonists prazosin (alpha-1), yohimbine (alpha-2), and idazoxan (alpha-2) on xylazine-induced bovine uterine contractility were tested in vitro. Uterine strips from proestrous/estrous and diestrous cows were mounted in tissue baths containing Tyrode's solution. Changes in uterine contractility were measured by strain gauge. The following results were observed: 1) Xylazine increased uterine contractility in a dose dependent manner (cumulative concentrations: 10(-8), 3x10(-8), 10(-7), 3x10(-7) and 10(-6)M). 2) Idazoxan (10(-8), 10(-7) and 10(-6)M) and yohimbine (10(-6), 10(-5) and 10(-4)M) antagonized uterine contractility induced by xylazine in a dose-dependent manner. Idazoxan was approximately 50 to 100 times more potent than yohimbine. 3) Prazosin (10(-5)M) did not alter the effect of xylazine on uterine contractility. These results suggested that xylazine-induced uterine contractility in the cyclic cow is directly mediated by myometrial alpha-2 adrenoreceptors.     

突触前α7烟碱受体对海马神经元兴奋性突触传递的调控

采用盲法膜片钳技术观察突触前烟碱受体(nicotinic acetylcholinel receptors,nAChRs)对海马脑片CAl区锥体神经元兴奋性突触传递的调控作用。结果显示,nAChRs激动剂碘化二甲基苯基哌嗪(dimethylphenyl—piperazinium iodide,DMPP)不能在CAl区锥体神经元上诱发出烟碱电流。DMPP对CAl区锥体神经元自发兴奋性突触后电流(spontaneous excitatory postsynaptic current,sEPSC)具有明显的增频和增幅作用,并呈现明显的浓度依赖关系。DMPP对微小兴奋性突触后电流(miniature excitatory postsynaptic current,mEPSC)具有增频作用,但不具有增幅作用。上述DMPP增强突触传递的作用不能被nAChRs拮抗剂美加明、六烃季铵和双氢-β-刺桐丁所阻断,但可被α-银环蛇毒素阻断。上述结果提示,海马脑片CAl区锥体神经元兴奋性突触前nAChRs含有对α-银环蛇毒素敏感的胡亚单位,其激活可增强海马CAl区锥体神经元突触前递质谷氨酸的释放,从而对兴奋性突触传递发挥调控作用。     

Adrenergic-cholinergic interactions in left atria. II. Comparison of the antagonism of inotropic responses to alpha- and beta-adrenoceptor stimulation and BAY K 8644 by carbachol, D-600, and nifedipine

The muscarinic agonist carbachol has previously been shown to reverse positive inotropic responses of rabbit left atrial strips to equiactive doses of the beta-adrenoceptor agonist isoproterenol and to the alpha-adrenoceptor agonist phenylephrine. Responses to phenylephrine were measured in the presence of the beta-blocker timolol. However, carbachol was not able to reverse the increase in tension produced by elevating the extracellular Ca2+ concentration. To gain more information about the nature of the functional interaction of carbachol with alpha- and beta-receptor stimulants in left atria, the interaction of carbachol with these agonists, as well as with elevated Ca2+ and the Ca2+ activator compound BAY K 8644, was compared with that of the Ca2+ antagonists D-600 and nifedipine. The results demonstrate that the Ca2+ antagonists exhibit a selectivity similar to that of carbachol, in that responses to both isoproterenol and phenylephrine plus timolol were blocked by low concentrations of D-600 and nifedipine, which had no effect on positive inotropic responses to elevated Ca2+. Higher concentrations of these antagonists shifted the Ca2+ dose-response curve to the right. In addition, although phenylephrine and BAY K 8644 increased tension to a similar extent, responses to phenylephrine were more sensitive than responses to BAY K 8644 to inhibition by both carbachol and D-600. These similarities between the effects of low concentrations of D-600 and nifedipine and those of carbachol are consistent with the hypothesis that carbachol antagonizes responses to alpha- and beta-receptor stimulation in left atria primarily by blocking increases in Ca2+ influx produced by these agonists.(ABSTRACT TRUNCATED AT 250 WORDS)     

Comparison of the electromechanical responsiveness of alpha-1-adrenoceptor stimulation in ventricles of normal and cardiomyopathic hamsters

Alterations in alpha(1)-adrenoceptor (alpha(1)AR) density and related signal transduction proteins were reported in cardiomyopathic hearts in the failing stage. The electromechanical modification of alpha(1)-adrenergic stimulation in the failing heart is unclear. The present study compares the alpha(1)AR-stimulated electromechanical response in failing ventricles of genetically cardiomyopathic BIO 14.6 hamsters (280-320 days old) with that in age-matched normal Syrian hamsters. The action potential was recorded with a conventional microelectrode technique, and twitch force was measured with a transducer. In the presence of propranolol, phenylephrine increased the contraction and prolonged the action potential duration (APD) to similar values in ventricles of both strains, despite a prolonged basal APD in cardiomyopathic ventricles. The positive inotropism stimulated by phenylephrine was inhibited by staurosporine, and was potentiated by 4 beta-phorbol-12,13-dibutyrate (PDBu) in both strains. The maximum positive inotropic effect of phenylephrine in PDBu-treated ventricles of normal hamsters was significantly greater than that in BIO 14.6 hamsters. The effects of phenylephrine on the ventricular force-frequency relationship and on the mechanical restitution in both normal and BIO 14.6 strain hamsters were examined. The uniform negative force-frequency relationship and the altered mechanical restitution reveal a defect of intracellular Ca(2+) handling in cardiomyopathic BIO 14.6 hamsters. alpha(1)-Adrenergic modulation cannot convert the defective properties in the model of the failing heart. Nevertheless, phenylephrine decreased post-rest potentiation in short rest periods, and enhanced post-rest decay after longer resting periods. The results indicate that alpha(1)-adrenergic action enhances a gradual loss of Ca(2+) from the sarcoplasmic reticulum, although its action in prolonging the APD can indirectly increase the influx of Ca(2+).     

Changes in the response to adrenergic drugs on mouse uterine contractions during pregnancy

The effect of isoproterenol (ISO), norepinephrine (NE) and phenylephrine (PHE) on electrically-induced contractions of mice uterine horns was studied during pregnancy. At the different times of gestation adrenergic agonists always inhibited uterine contractions in the following rank order of potency: ISO greater than NE greater than PHE. Cumulative dose-response curves constructed for the effect of these amines during diestrous, and at days 3-7, 10-15, 17-21 of gestation, showed that EC50 values increased gradually as term approached, which could imply a lower capacity of the uterus to respond to adrenergic drugs. Some likely explanations for this phenomenon are proposed. It is suggested that this lower response to catecholamines at the end of pregnancy could be a cause for the reduced success of beta 2-adrenergic drugs to stop premature labor.     

Role of beta 2-adrenergic receptors on coronary resistance during exercise

The effects of regional alpha- and specific beta 2-adrenergic receptor blockade on measurements of late diastolic coronary resistance (LDCR) and mean coronary blood flow velocity (CBFV) during exercise were examined in 14 conscious adult mongrel dogs. Specific beta 2-adrenergic receptor blockade (ICI 118.551) significantly decreased CBFV and increased LDCR by blockade of beta 2-vasodilator tone independent of alpha-adrenergic receptor-mediated tone and independent of altering myocardial metabolism. alpha-Adrenergic receptor blockade (phentolamine, 1 mg) significantly increased CBFV and decreased LDCR by blocking sympathetically mediated vasoconstrictor tone. There was no significant difference in the magnitude of response between alpha- and beta 2-adrenergic receptor blockade. These results demonstrate that alpha- and beta 2-adrenergic receptors have a significant and evidently equal influence on CBFV and LDCR during exercise. Four weeks of daily exercise and left stellate ganglionectomy (LSGx) prevented phentolamine-induced vasodilation but not ICI 118.551-induced vasoconstriction. This suggests that daily exercise and LSGx significantly decreased the alpha-adrenergic receptor-mediated vasoconstrictor tone on the coronary circulation, resulting in an apparently greater role for the coronary vascular beta 2-adrenergic receptor on the control of CBFV and LDCR during exercise.     

α1A-adrenergic receptor mediated pressor response to phenylephrine in anesthetized rat

To determine which subtype of α₁-adrenergic receptors plays a role in the regulation of blood pressure, with α_1A-adrenergic receptor-mediated vasoconstriction in perfused hindlimb as a control, we compared the inhibitory effects of various α₁-adrenergic receptor selective antagonists on the vasopressure responses to phenylephrine between the mean arterial pressure and hindlimb perfusion pressure in anesthetized rats. In Normotensive Wistar rats, the results showed that the inhibitory effects (dose ratios of ED₅₀, Dr) of α₁-adrenoceptor selective antagonist (prazosin, Dr 13.5 ± 3.6 vs.15.1 ± 4.3, n = 11), α_1A-adrenoceptor selective antagonist (5-methyl-urapidil, Dr 2.4 ± 0.9 vs. 3.7 ± 2.3, n = 12; RS-17053, Dr 3.2 ± 1.6 vs. 4.4 ± 3.3, n = 12) and α_1D-adrenoceptor selective antagonist (BMY7378, Dr 1.9 ± 0.9 vs. 2.2 ± 0.8, n = 8) on phenylephrine-induced increases of perfusion pressure in the autoperfused femoral beds were the same as that in the mean arterial blood pressure in normotensive Wistar rats. The inhibitory effects of antagonists (RS-17053, Dr 3.4 ± 0.6 vs. 4.3 ± 0.9, n = 5; BMY7378, Dr 1.7±0.5 vs. 1.7 ± 0.5, n = 8) in spontaneous hypertensive rats were similar with the Wistar rats. These results suggest that the mean arterial pressure induced by phenylephrine was mainly mediated by α_1A-adrenergic receptor in both the anesthetized Wistar rats and spontaneous hypertensive rats.     

Effects of alpha 1 and alpha 2 activation of adrenergic receptors on aqueous humor dynamics

Effects of phenylephrine (alpha 1-adrenergic agonist), prazosin (alpha 1-adrenergic antagonist), clonidine (alpha 2-adrenergic agonist), and yohimbine (alpha 2-adrenergic antagonist) on aqueous humor (AH) dynamics were studied with a cat eye model. Phenylephrine (130 microgram/ml) inhibited AH outflow (67% at 90 min. period) more than AH formation (26% at the same period) indicating the intraocular pressure (IOP) might be raised by the administration of phenylephrine. Prazosin (0.1 microgram/ml) produced effects opposite to those of phenylephrine (55% reduction of AH formation and 25% reduction of AH outflow at 3 hr. period) suggesting the alpha 1-adrenergic receptor is responsible for increases rather than decreases of IOP. Both clonidine (10 microgram/ml) and yohimbine (0.1-1.0 microgram/ml) inhibited AH formation (60% inhibition) more than AH outflow (no inhibition for clonidine and 40% inhibition for yohimbine) to lower IOP. The conventional theory of receptor antagonism does not seem to function at alpha 2-receptor sites.     

Reduced vascular responsiveness after a single bout of dynamic exercise in the conscious rabbit.

We measured agonist-induced changes in the iliac artery blood flow velocity (IFV) independent of baroreflex-mediated compensatory mechanisms in chronically instrumented New Zealand White rabbits (n = 8). Animals were instrumented with a Doppler flow probe around the right common iliac artery. A Teflon catheter was inserted into the right iliolumbar artery for local infusion of the vasoactive agonists. Another Teflon catheter was inserted in the left femoral artery for the measurement of pulsatile and mean arterial (MAP) blood pressures and heart rate (HR). The alpha-adrenergic receptor agonist phenylephrine (PE, 1.32-10.0 micrograms), the beta 1- and beta 2-adrenergic receptor agonist isoproterenol (IP, 0.022-0.11 micrograms), and the purinergic receptor agonist adenosine (AD, 10.0-100.0 micrograms) were injected into the functionally isolated hindlimb, and dose-response curves were generated. Changes in IFV were obtained without changes in MAP or HR. Exercise increased HR, MAP, and IFV (65.3 +/- 7.1 beats/min, 11.1 +/- 2.2 mmHg, and 2.2 +/- 0.3 kHz, respectively). The maximum responses to PE, AD, and IP were reduced 29.0 +/- 6.7, 50.7 +/- 8.5, and 61.0 +/- 8.1%, respectively, after exercise. In conclusion, exercise attenuated adrenergic and purinergic receptor-mediated vascular responses in the intact conscious rabbit.     

Electroconvulsive Shock and Reserpine: Effects on β-Adrenergic Receptors in Rat Brain

Abstract Electroconvulsive shock (ECS) administered once daily for up to 14 days decreases β-adrenergic receptor binding in the cortex and hippocampus in a time-dependent manner. The decrease in binding in the cortex lasts at least 1 week after the last shock. In the striatum, hypothalamus, or cerebellum, 14 days of ECS did not produce significant changes in β-adrenergic receptor binding. The brain regional pattern of β-adrenergic receptor changes suggests that repeated ECS affects β-adrenergic receptors in brain regions that receive a noradrenergic innervation activated by ECS. The effects of ECS on neurotransmitter receptor binding appear to be highly selective. Of five receptors in the cortex and three receptors in the hippocampus measured, only β-adrenergic receptor binding is decreased. Chronic footshock stress does not alter β-adrenergic receptor binding sites in the cortex, indicating that the effects of ECS are not due to stress alone. The effects of ECS on reserpine-induced alterations in β-adrenergic receptor binding sites were also examined. Ten days of ECS following chronic reserpine injections reverses the increased binding of β-adrenergic receptors