The isolated, perfused head of the marine teleost fish,Myoxocephalus octodecimspinosus: Hemodynamic effects of epinephrine

Summary An isolated, perfused-head preparation utilizing the marine teleost (Myoxocephalus octodecimspinosus) was developed, and the hemodynamic effects of epinephrine on this preparation were studied.The isolated head of the sculpin was found to have a relatively long-term viability as measured by stable perfusion pressures (±4.03 Torr for the first hour of perfusion) and responsiveness to epinephrine for over three hours (Fig. 1). This catecholamine induced a net decrease in the resistance of the vasculature of the head along with an increase in the dorsal aortic blood flow, and a concomitant decrease in a venous flow from the peritoneal cavity and cut muscle mass (Fig. 2, Table 1). Blocking beta adrenergic receptors during epinephrine application produced an increase in the vascular resistance and the dorsal aortic to venous flow ratio (Table 2); beta receptor stimulation was followed by a decrease in the resistance and no change in efferent flow rates (Table 3).It is concluded that alpha adrenergic receptors induce the constriction of the branchial arterio-venous anastomoses and are responsible for the efferent flow rate changes. However, beta adrenergic receptors, presumably at the level of the lamellar arterioles, appear to be the dominant factor in the control of net branchial resistance.     

Cholinergic and adrenergic effects on diffusional water flux in the toadfish, Opsanus beta

Intraperitoneal injections of adrenaline resulted in increased tritiated water efflux rate in the toadfish, Opsanus beta. Adrenaline-stimulated water flux was inhibited by the beta-adrenergic blocker, propranolol, but not by the alpha-adrenergic blocker, phentolamine. Propranolol on its own had no effect but phentolamine significantly stimulated water flux; this action was attributed to a beta-mimetic effect of the drug. The cholinergic neurotransmitter acetylcholine, had no effect while the parasympathico-mimetic carbachol, significantly stimulated water flux. Arguments were advanced to explain the similarity in the effects of the adrenergic and cholinergic drugs although they are both known to produce opposing vascular haemodynamic effects in fish gills. Adrenaline substantially stimulated tritiated water flux in the toadfish, Opsanus beta. The adrenaline-stimulated water flux exhibited a linear dose-response curve up to an adrenaline dosage of 750 micrograms kg-1; wt. At higher doses there was apparently a desensitization of the beta-adrenergic receptor sites. The adrenaline effect was inhibited by the beta-blocker propranolol, but not by the alpha-blocker, phentolamine. This suggests that the adrenaline-stimulated water flux was due predominantly to beta-receptor site stimulation. Stimulation of water flux by phentolamine on its own could be due to the stimulation of endogenous catecholamine release by the drug. We have proposed that the beta-stimulated water efflux could be due to an increase in surface area of the branchial epithelium, a decrease in water to blood diffusion distance, a direct metabolic effect or any combination of these effects by adrenaline. Carbachol caused an increase in tritiated water efflux. The carbachol-stimulated water flux was inhibited by atropine thus suggesting that the drug acts via muscarinic receptor sites. We have suggested that the action of the drug on hydraulic water conductivity, water to blood diffusion distance, hydrostatic pressure or a direct effect on membrane diffusion coefficient.     

Cholinergic- and Adrenergic-Stimulated Inositide Hydrolysis in Brain: Interaction, Regional Distribution, and Coupling Mechanisms

Carbachol and norepinephrine were used as agonists to compare and contrast cholinergic and adrenergic stimulation of inositide breakdown in rat brain slices. Carbachol acts through a muscarinic (possibly M1) receptor and norepinephrine acts through an alpha 1 adrenoceptor. Studies in cerebral cortical slices indicated that both agonists stimulated the production of inositol-1-phosphate and glycerophosphoinositol. Although the initial rates for the stimulation of inositol phosphate release were similar for the two ligands, the response to norepinephrine continued for 60 min and was larger compared with carbachol which plateaued at 30 min. The presence of carbachol did not affect the ED50 for norepinephrine. Concentrations of carbachol near the ED50 in combination with norepinephrine resulted in an additive response whereas maximal concentrations of carbachol and norepinephrine resulted in a less than additive response in the cortex. This negative interaction was also seen in the hippocampus and hypothalamus but not in the striatum, brainstem, spinal cord, olfactory bulb, or cerebellum. Norepinephrine had a larger response than carbachol in the hippocampus, striatum, and spinal cord, but the reverse was true in the olfactory bulb. Manganese (1 mM) stimulated the incorporation of [3H]inositol into phosphatidylinositol (PtdIns) four- to fivefold but not into polyphosphoinositides. The stimulation by manganese of PtdIns labelling increased the nonstimulated release of inositol phosphates but did not affect the stimulated release of inositol phosphates by carbachol or norepinephrine.(ABSTRACT TRUNCATED AT 250 WORDS)     

Different sensitivities of arteries and veins to vasoactive drugs in a hagfish, Eptatretus cirrhatus

We used myography on five different arteries and three veins of the hagfish, Eptatretus cirrhatus, to test the response of vessels to vasoactive drugs. Concentration-response curves were generated for carbachol, endothelin-1, arginine vasotocin and the adrenergic agonists, phenylephrine and isoprenaline. pEC50 values indicated that veins were more sensitive to endothelin-1 than were arteries, but the arteries were more sensitive to the cholinergic agonist, carbachol. Segmental arteries did not react to arginine vasotocin, but all other vessels did, and on a molar basis it was the most potent agonist tested. That ventral and dorsal aortas were more sensitive to arginine vasotocin than smaller vessels might indicate that this neurohypophysial peptide has the potential to exert a profound influence on branchial vascular resistance and cardiac output in hagfishes. The results also demonstrate the potential for a variety of endogenous peptides to contribute to central venous tone.     

Adenosine/nitric oxide crosstalk in the branchial circulation of Squalus acanthias and Anguilla anguilla

The potent vasomodulator adenosine (AD), thanks to the interaction with by A(1) and A(2) receptors, dilates systemic, coronary and cerebral vasculatures but exert a constrictor action in several vessels of respiratory organs. Recent investigations suggest that nitric oxide (NO) contributes to AD effects. In fish, both NO and AD induce atypical effects compared to mammals. Since there is very little information on the role of NO and its involvement in mediating the actions of AD in fish, we have analysed this question in the branchial vasculature of the elasmobranch Squalus acanthias and the teleost Anguilla anguilla using an isolated perfused head and a branchial basket preparation, respectively. In both dogfish and eel, AD dose-response curves showed a biphasic effect: vasoconstriction (pico to nanomolar range) and vasodilation (micromolar range). Both effects were abolished by the classic xanthine inhibitor theophylline (Theo) and also by specific antagonists of A(1) and A(2) receptor subtypes. To analyse the involvement of the NO/cGMP system in the AD responses, we tested a NOS inhibitor, l-NIO, and a specific soluble guanylate cyclase (sGC) blocker, ODQ. In both dogfish and eel preparations l-NIO abrogated all vasomotor effects of AD, whereas ODQ blocked the AD-mediated vasoconstriction without affecting the vasorelaxant response. This indicates that only AD-induced vasoconstriction is mediated by a NO-cGMP-dependent mechanism. By using the NO donor SIN-1, we showed a dose-dependent vasoconstrictory effect which was completely blocked by ODQ. These results provide compelling evidence that the vasoactive role of AD in the branchial circulation of S. acanthias and A. anguilla involves a NO signalling.     

On the haemodynamic effects of biogenic amines in isolated fish gills

The effects of histidine and histamine on branchial vascular haemodynamics were studied using the isolated, perfused gill of the tropical cichlid, Oreochromis (Sarotherodon) niloticus. Histidine had no vasoactive effect while histamine induced vasodilatation. Histamine-induced vasodilatation was irreversibly inhibited by the H1 and H2 receptor antagonists, piriton and cimetidine, respectively. This suggests a possible involvement of the non-neurogenic histaminergic system, acting directly via H1 and H2 histamine receptors, in the regulation of branchial vascular haemodynamics in teleosts.     

Physical and adrenergic factors affecting systemic vascular resistance in the rainbow trout: a comparison with branchial vascular resistance.

The passive distensibility and adrenergic reactivity of the systemic vascular resistance (Rs) in Salmogairdneri have been studied using perfused trunk preparations, and the data compared with previous results on the branchial resistance (Rg). At normal levels of efferent blood pressure, Rs is relatively more distensible than Rg in response to afferent pressure increases, but this difference may not be important in vivo. alpha-adrenegic constrictory receptors predominate in Rs, in contrast to beta-adrenergic dilatory receptors in Rg; a significant alpha-adrenergic tone in Rs is lost during perfusion. Rs is far less sensitive than Rg to circulatory catecholamine levels. It is suggested that the sympathetic nervous system, rather than plasma catecholamines, provides the effective adrenergic control of Rs in vivo.     

Carbachol activates IkappaB kinase in isolated canine gastric parietal cells.

IkappaB kinase (IKK) is a recently discovered kinase complex composed of the kinases IKKalpha and beta, which plays a crucial role in the activation of NF-kappaB. In this study we examined the regulation of IKK by carbachol in isolated gastric parietal cells. IKKalpha and beta activities were measured by immune complex kinase assay. Carbachol induced both IKK alpha and beta in a time-dependent fashion, with a maximal stimulatory effect detected after 5 min of incubation. The action of carbachol was inhibited by the intracellular Ca(++) chelator BAPTA-AM, the PKC inhibitor GF109203X, and the NF-kappaB inhibitor PDTC. Carbachol also induced degradation of IkappaBalpha, which was reversed by addition of both GF109203X and PDTC and stimulated the activity of a NF-kappaB-luciferase reporter gene plasmid in COS-7 cells stably expressing the human M3 muscarinic receptor. In conclusion, carbachol induces IKK in the parietal cells via intracellular Ca(++)- and PKC-dependent signaling pathways. This observation represents a novel mechanism for the regulation of NF-kappaB through the activation of seven transmembrane G-protein-coupled receptors.     

大鼠脑室内注射氨甲酰胆碱对肾钠,钾,水排出的影响

在麻醉大鼠侧脑室注射胆碱能激动剂氨甲酰胆碱（ＣＢＣ）引起显著的促钠排泄、促钾排泄和利尿反应（Ｐ＜０．０５）,其中促钠排泄反应与剂量之间呈量效关系（ｒ＝０．９９９７,Ｐ＜０．０５）。由脑室注射ＣＢＣ（２．７４×１０－３μｍｏｌ）引起的上述反应可以被胆碱能Ｍ受体阻断剂阿托品或Ｎ受体阻断剂六甲双胺预处理完全阻断（Ｐ＜０．０５）。同样,ＣＢＣ的肾脏效应也可被肾上腺素能α受体阻断剂酚妥拉明预处理所部分阻断（Ｐ＜０．０５）。上述结果表明脑室注射ＣＢＣ引起的促钠排泄、促钾排泄和利尿反应是刺激了脑胆碱能Ｍ或Ｎ受体,有部分效应可能继发刺激去甲肾上腺素能α受体。     

Adrenergic innervation of the gills, pulmonary arterial plexus, and dorsal aorta in the neotenic salamander, Ambystoma tigrinum

The presence of adrenergic innervation was investigated in four different vascular segments of the neotenic tiger salamander, Ambystoma tigrinum, by histofluorescent staining for catecholamines. The segments were the respiratory section of the gill, the branchial shunt vessels, a vascular plexus in the pulmonary artery, and the dorsal aorta. No adrenergic fibers were detected in the respiratory section of the gill or the pulmonary arterial plexus. In contrast, the branchial shunt vessels contained both adrenergic varicosities and catecholamine-containing cell bodies. These cells resemble Type I cells of the mammalian carotid body and amphibian carotid labyrinth. Adrenergic innervation of the dorsal aorta was sparse and restricted to the adventitia. The results suggest that adrenergic nerves may directly regulate blood flow in the gill, and thus gas exchange, by controlling vascular resistance of the branchial shunts. The contractile state of the dorsal aorta may also be under adrenergic control. In addition, it is suggested that the adrenergic cells of the branchial shunts may serve a receptor function in being sensitive to arterial blood gases.     

Adrenergic activity of the avian oviduct in vivo

The effect of noradrenaline or isoproterenol, alone or in the presence of an alpha (phenoxybenzamine) or beta (propranolol) adrenergic blocking drugs on the oviducts of anesthetized laying hens was investigated. The results show that both alpha and beta adrenergic activity is present in the avian oviduct with the exception of the uterus which does not appear to have alpha excitatory activity. Norepinephrine induced a strong contraction followed by a brief relaxation period in the infundibulum, magnum and is thmus; administration of phenoxybenzamine blocked this response in all the three segments, indicating the presence of alpha adrenergic receptors. The uterus, however, exhibited an inhibitory response in the majority of the hens and this response was not affected by the administration of phenoxybenzamine. Isoproterenol always induced relaxation in all the four segments of the oviduct. This response was blocked by propranolol, a beta adrenergic blocker, indicating the presence of beta adrenergic receptors. The role of autonomic nerves innervating the reproductive tract in the regulation of reproduction is discussed.     

Phosphoinositide 3-kinase contributes to diabetes-induced abnormal vascular reactivity in rat perfused mesenteric bed

Phosphatidylinositol 3-kinase (PI3K) is a signaling enzyme that plays key roles in vascular growth, proliferation, and cellular apoptosis and is implicated in modulating vascular smooth muscle contractility. The aim of this study was to determine whether PI3K contributes to development of diabetes-induced abnormal vascular reactivity to selected vasoactive agonists. The effect of 2-(4-morpholinyl)-8-phenyl-4H-1-benzopyran-4-one (LY294002), a selective PI3K inhibitor, on isolated perfused mesenteric vascular bed from streptozotocin (STZ)-diabetic rats was investigated. Changes in perfusion pressure, which reflected peripheral resistance, were measured using isolated perfused mesenteric vascular beds. Our results showed that STZ treatment produced an increase in the vasoconstrictor response to norepinephrine (NE), angiotensin II (Ang II) and endothelin-1 (ET-1), and an attenuated vasodilator response to carbachol and histamine in the isolated perfused mesenteric vascular bed from STZ-diabetic animals. Chronic inhibition of PI3K with LY294002 resulted in prevention of diabetes-induced abnormal vascular reactivity to the vasoactive agonists. However, the high blood glucose levels were not normalized. Results of this study indicate that selective inhibition of PI3K can attenuate the development of diabetes-induced abnormal vascular responsiveness in the isolated perfused mesenteric vascular bed.     

Sex-dependent thermogenesis,differences in mitochondrial morphology and function,and adrenergic response in brown adipose tissue

Gender-related differences in brown adipose tissue (BAT) thermogenesis of 110-day-old rats were studied by determining the morphological and functional features of BAT. The adrenergic control was assessed by studying the levels of beta(3)- and alpha(2A)-adrenergic receptors (AR) and by determining the lipolytic response to norepinephrine (beta(1)-, beta(2)-, beta(3)-, and alpha(2)-AR agonist), isoprenaline (beta(1)-, beta(2)-, and beta(3)-AR agonist), and CGP12177A (selective partial beta(3)-AR agonist but beta(1)- and beta(2)-AR antagonist) together with post-receptor agents, forskolin and dibutyryl cyclic AMP. The female rats that had greater oxygen consumption showed higher UCP1 content, a higher multilocular arrangement, and both longer cristae and higher cristae dense mitochondria in BAT indicating heightened thermogenic capacity and activity; this picture is accompanied by a more sensitive beta(3)-AR to norepinephrine signal (EC(50) 10-fold lower for CGP12177A) and a lower expression of alpha(2A)-AR than male rats. Taken together, our results support the idea that the BAT hormonal environment could be involved in the control of different elements of lipolytic and thermogenic adrenergic pathways. Gender dimorphism is both at receptor (changing alpha(2A)-AR density and beta(3)-AR affinity) and post-receptor (modulating the links involved in the adrenergic signal transduction) levels. These changes in adrenergic control could be responsible, at least in part, both for the important mitochondrial recruitment differences and functional and morphological features of BAT in female rats under usual rodent housing temperatures.     

Nervous control of the branchial vascular resistance of the Atlantic cod,Gadus morhua

Summary The effects on branchial vascular resistance of electrical stimulation of the nervous supply to the gills of the Atlantic cod were studied in constant pressure perfused gill preparations.Stimulation of the right sympathetic chain immediately anterior to the coeliac ganglion produces either a -adrenoceptor mediated decrease in branchial vascular resistance of the gill arches on the right side, or an -adrenoceptor mediated increase which is reversed by phentolamine to a -adrenoceptor mediated decrease in branchial vascular resistance.Stimulation of the entire vago-sympathetic nerve trunk to the third isolated gill arch produces an increase in branchial vascular resistance, which in some preparations can be reversed by atropine to a -adrenoceptor mediated decrease. A second type of constrictory innervation of vagal origin (non-adrenergic, non-cholinergic) may be concluded from the lack of blocking capacity of cholinergic and adrenergic antagonists.It is concluded that the branchial vascular bed of the cod is controlled by both sympathetic (dilatory and sometimes also constrictory) and parasympathetic (constrictory) fibres. The site of action of the nerve supply on the various effectors of the complex vasculature of the gills is not known. An autonomic innervation with its direct, rapid and restricted effects may reinforce the more general effects of circulating vaso-active substances.     

Adrenergic control of coronary arteries

This review of adrenergic control of coronary arteries is based on studies conducted on isolated vessels. Both alpha- and beta-adrenergic receptors are present in the coronary vasculature but with different distributions. The large coronary arteries have a larger percentage of alpha receptors, which mediate contraction, whereas the small coronary arteries are equipped almost exclusively with beta receptors, which mediate relaxation. The beta receptors are of the subclass beta 1. Both alpha 1 and alpha 2 receptors are present in the large coronaries. The alpha 2 receptors are prejunctional and inhibit neuronal release of norepinephrine (NE), and are also postjunctional and mediate contraction of the vascular smooth muscle. Evidence is reviewed suggesting that coronary alpha and beta receptors may be different conformational states of the same parent macromolecule in which the alpha state predominates at lower temperatures. Contrary to these results we have observed that whereas the response of the large coronary artery to NE at 39 C is predominantly constriction, it is predominantly dilation at 29 C. The characteristic of the adrenergic receptor is clearly temperature dependent.     

Analysis of responses to sympathetic nerve stimulation in the feline pulmonary vascular bed

The adrenergic receptor subtypes mediating the response to sympathetic nerve stimulation in the pulmonary vascular bed of the cat were investigated under conditions of controlled blood flow and constant left atrial pressure. The increase in lobar vascular resistance in response to sympathetic nerve stimulation was reduced by prazosin and to a lesser extent by yohimbine, the respective alpha 1- and alpha 2-adrenoceptor antagonists. Moreover, in animals pretreated with a beta-adrenoceptor antagonist to prevent an interaction between alpha- and beta 2-adrenoceptors, responses to nerve stimulation were reduced by prazosin, but yohimbine had no significant effect. On the other hand, in animals pretreated with a beta-adrenoceptor antagonist, yohimbine had an inhibitory effect on responses to tyramine and to norepinephrine. Propranolol had no significant effect on the response to nerve stimulation, whereas ICI 118551, a selective beta 2-adrenoceptor antagonist, enhanced responses to nerve stimulation and injected norepinephrine. The present data suggest that neuronally released norepinephrine increases pulmonary vascular resistance in the cat by acting mainly on alpha 1-adrenoceptors and to a lesser extent on postjunctional alpha 2-adrenoceptors but that this effect is counteracted by an action on presynaptic alpha 2-receptors. The present studies also suggest that neuronally released norepinephrine acts on beta 2-adrenoceptors and that the response to sympathetic nerve stimulation represents the net effect of the adrenergic transmitter on alpha 1-, alpha 2-, and beta 2-adrenoceptors in the pulmonary vascular bed.     

Prostaglandins--modulation of adrenergic nervous system.

Prostaglandins (PGs) affect vascular tone by a direct action on the vascular smooth muscle and by influencing vascular reactivity to adrenergic simuli and several vasoactive substances. Thus, in the isolated Tyrode's perfused rabbit renal, mesenteric and splenic vasculature PGE2 inhibited adrenergically induced vasoconstriction. Since the vasoconstrictor responses to renal nerve stimulation were enhanced by the blockade of PG synthesis and were reduced by stimulation of PG synthesis with arachidonic acid, this suggests that PGE2 functions as an inhibitory modulator of the adrenergic nervous system. However, our demonstration that PGE2 enhanced adrenergically induced vasoconstriction in the renal and mesenteric vasculature of the rat, but had opposite effects in the rat splenic vasculature indicates that the modulatory-effect of PGE-compounds on the adrenergic neuromuscular junction is species dependent and varies in different vascular beds within the same species. Prostaglandins, the release of which is evoked by several vasoactive substances including angiotensins, kinins, and adenine nucleotides, may also contribute to the regulation of vascular tone by either opposing or amplifying the vascular actions of vasoactive substances.     

Evidence for the presence of cholinergic muscarinic receptors negatively linked to adenylate cyclase in the iris-ciliary body

Adenylate cyclase activity can be stimulated in the rabbit iris-ciliary body directly by forskolin or through receptor-mediated mechanisms by vasoactive intestinal peptide (VIP) and the β-adrenoreceptor agonists isoproterenol and salbutamol. Increases in the level of c-AMP observed following application of forskolin, isoproterenol and VIP are decreased by carbachol in a dose-dependent manner. The carbachol response is blocked by pertussis toxin and is insensitive to the phosphodiesterase inhibitor theophyline suggesting the involvement of a Gi-protein. Carbachol attenuation of elevated c-AMP levels can be inhibited by the muscarinic antagonist atropine but not by the specific muscarinic receptor antagonist pirenzepine. This is in contrast to carbachol stimulation of inositol phosphate accumulation, where both atropine and pirenzepine inhibit the muscarinic response. Thus there exist two distinct muscarinic receptors in the iris-ciliary body, one linked to adenylate cyclase and the other to the hydrolysis of phosphoinositides.     

Involvement of adrenergic receptors in skeletal muscle metabolism of the cold-adapted rat

Hind-limb perfusion was used to investigate alterations of alpha and beta receptor-mediated metabolic effects in cold-adapted (CA) rats. The response to beta receptor stimulation by isoproterenol in the isolated hind-limbs of CA rats was slightly diminished. Oxygen consumption and lactate production were reduced in CA rats after beta receptor stimulation. Noradrenalin infusion caused less vasoconstriction in CA rats than in the controls (CO). Desensitization of alpha and beta receptors due to chronic sympathetic overstimulation may be the underlying cause of these observations. Compared with the controls, metabolism was enhanced in perfused hind-limbs of CA rats with an active nervous system. Decreased vascular resistance due to the lower perfusion pressure in CA rats might contribute to this increased metabolism.     

A point mutation in the seventh hydrophobic domain of the alpha 2 adrenergic receptor increases its affinity for a family of beta receptor antagonists.

Previous studies have shown that differences in subtype-specific ligand binding between alpha 2 and beta 2 adrenergic receptors are largely determined by the seventh hydrophobic domain. Here, we report that a single amino acid substitution (Phe412----Asn) in the seventh hydrophobic domain of the alpha 2 adrenergic receptor reduces affinity for the alpha 2 antagonist yohimbine by 350-fold and increases affinity for beta antagonist alprenolol by 3000-fold. The affinity of this mutant receptor alpha 2F----N for several alpha and beta adrenergic receptor agonists and antagonists was determined. Beta adrenergic receptor antagonists containing an oxygen atom linking the amino side chain with the aromatic ring bound to alpha 2F----N with high affinity, while the beta receptor antagonist sotalol, which lacks this oxygen, bound with low affinity. These data suggest that the Asn residue is involved in conferring specificity for binding to a specific class of beta receptor antagonists.