A single corticosterone pretreatment inhibits the hypothalamic-pituitary-adrenal responses to adrenergic and cholinergic stimulation.

The purpose of the present study was to determine whether an increased plasma corticosterone or dexamethasone levels induced by a single corticosterone or dexamethasone injection to conscious rats affects the hypothalamic-pituitary-adrenocortical (HPA) activity induced by adrenergic and cholinergic agonists. Male Wistar rats were pretreated subcutaneously (s.c.) with a single dose of dexamethasone (5 mg/kg) or corticosterone (25 mg/kg) 24 or 48 h before intraperitoneal (i.p.) administration of adrenergic agonists: phenylephrine, an alpha1-adrenergic receptor agonist, clenbuterol, a beta2-adrenergic agonist and noradrenaline acting predominantly on alpha1-adrenoreceptors, and cholinergic agonists: carbachol, a predominant muscarinic receptor agonist and nicotine, a nicotinic receptor agonist. Dexamethasone profoundly decreased the resting ACTH levels in control rats and given 24 h before each of the stimulatory agonist abolished the adrenergic- and cholinergic agonists-induced ACTH and corticosterone responses. Pretreatment with corticosterone of control rats did not substantially alter the resting plasma ACTH and serum corticosterone levels measured 24 and 48 h later. A single pretreatment with corticosterone abolished or powerfully inhibited, perhaps by a feedback mechanism, the ACTH and corticosterone responses induced 24 and 48 h later by all adrenergic and cholinergic agonists used in this study. These results indicate that prolonged administration of corticosterone is not necessary to induce almost complete suppression of the HPA responsiveness to adrenergic or cholinergic stimulation. Chronic treatment with corticosteroids to achieve glucocorticoid receptors desensitization does not seem to be required.     

Responsiveness of canine bronchial vasculature to excitatory stimuli and to cooling

Changes in bronchial vascular tone, in part due to cooling during ventilation, may contribute to altered control of airflow during airway inflammation, asthma, and exercise-induced bronchoconstriction. We investigated the responses of canine bronchial vasculature to excitatory stimuli and cooling. Electrical stimulation evoked contractions in only some (8 of 88) tissues; these were phentolamine sensitive and augmented by N(omega)-nitro-L-arginine. However, sustained contractions were evoked in all tissues by phenylephrine [concentration evoking a half-maximal response (EC(50)) approximately 2 microM] or the thromboxane A(2) mimetic U-46619 (EC(50) approximately 5 nM) and less so by beta,gamma-methylene-ATP or histamine. Cooling to room temperature markedly suppressed ( approximately 75%) adrenergic responses but had no significant effect against U-46619 responses. Adrenergic responses, but not those to U-46619, were accompanied by an increase in intracellular Ca(2+) concentration. Chelerythrine (protein kinase C antagonist) markedly antagonized adrenergic responses (mean maxima reduced 39% in artery and 86% in vein) but had no significant effect against U-46619, whereas genistein (a nonspecific tyrosine kinase inhibitor) essentially abolished responses to both agonists. We conclude that cooling of the airway wall dramatically interferes with adrenergic control of bronchial perfusion but has little effect on thromboxane-mediated vasoconstriction.     

Emergence of beta adrenergic-responsive hepatic glycogenolysis in male rats during post-maturational aging

Adrenergic-stimulated glycogenolysis (estimated as glucose output) was determined in hepatocytes from 7, 14, 20, and 24 mo old male Fischer 344 rats. Glucose output in response to the beta adrenergic agonist isoproterenol was minimal at 7 mo but increased progressively with increasing age. At all ages the isoproterenol response was concentration dependent and was inhibited by the beta adrenergic antagonist propranolol. Stimulation of glucose output by the mixed alpha-beta agonist epinephrine also increased between 7 and 24 mo. Glycogenolytic responses to alpha agonist (assessed in the presence of epinephrine and excess beta antagonist), glucagon, and forskolin did not increase substantially with age and at 24 mo were less than the response to beta agonist. In hepatocyte homogenates adenylate cyclase activation by beta agonist but not glucagon and forskolin increased between 7 and 24 mo. These results suggest that adrenergic stimulation of glycogenolysis, which in young adult male rats is generally attributed to alpha adrenergic-mediated processes, becomes mediated predominantly by beta adrenergic-responsive adenylate cyclase during post-maturational aging.     

Basic properties of beta adrenergic receptors mediating melanosome dispersion of melanophores in a cyprinid fish, Zacco temmincki

In melanophores of a cyprinid fish, Zacco temmincki, receptor mechanisms of melanosome dispersion induced by catecholamines were examined. While possessing a melanosome-aggregating action in higher concentrations, isoproterenol and epinephrine in lower concentrations acted to disperse melanosomes. Norepinephrine, epinine and dopamine altered their action from melanosome aggregation to melanosome dispersion after alpha adrenergic blockade. The catecholamine-induced melanosome dispersion was inhibited by beta adrenergic blocking agents. Mediation of dispersion is regulated through beta adrenergic receptors. The beta adrenergic responses were unaffected by mersalyl, a sulfhydryl inhibitor. A prospective substance acting in dispersing melanosomes appears to be adrenaline, but not noradrenaline.     

Effect of streptozotocin diabetes on motor and inhibitory transmission in rat anococcygeus.

The effect of streptozotocin diabetes of 4-week duration on the adrenergic motor transmission and on the nonadrenergic, noncholinergic, inhibitory transmission in the rat anococcygeus was investigated by recording contractile and relaxant activity of isolated muscle preparations taken from diabetic and age-matched control animals. The neurogenic contractile responses to electrical field stimulation were significantly reduced in the preparations from diabetic rats. The inhibitory transmission remained unaffected in the diabetic rats. Concentration--response curves showed no change in sensitivity of the diabetic anococcygei to noradrenaline. The maximum tension generated was also similar in preparations from diabetic and nondiabetic animals. The contractile responses to electrical field stimulation were significantly greater in preparations from diabetic rats treated for 4 weeks with either sorbinil (20 mg.kg-1.day-1 orally) or myo-inositol (667 mg.kg-1.day-1 orally) when compared with the untreated diabetic controls; the sensitivity to noradrenaline was identical in all three groups. It is concluded that streptozotocin diabetes causes a significant reduction of adrenergic contractile responses of the anococcygeus to electrical field stimulation by a prejunctional mechanism, and the reduction can be prevented by treating the animals with the aldose reductase inhibitor sorbinil or with myo-inositol.     

Blockade of nitric oxide formation impairs adrenergic-induced ACTH and corticosterone secretion.

It has been suggested that adrenergic agents might modulate the L-arginine-NO pathway. Sympathomimetic agonists enhance the basal release of NO, and noradrenaline increases the synthesis of nitric oxide synthase (NOS) in the medial basal hypothalamus in vitro. In the present study possible involvement of NO in central stimulation of the hypothalamic-pituitary-adrenal (HPA) axis by adrenergic agents was investigated in conscious rats. The nitric oxide synthase blocker N(omega)-nitro-L-arginine methyl ester (L-NAME 2 and 10 microg) was administered intracerebroventricularly (i.c.v.) 15 min before the adrenergic agonist given by the same route; 1 h later the rats were decapitated. Plasma levels of ACTH and corticosterone were measured. L-NAME significantly diminished the ACTH and corticosterone response to phenylephrine (30 microg), an alpha1-adrenergic receptor agonist. These hormone responses to clonidine (10 microg), an alpha2-receptor agonist, were dose-dependently suppressed or totally abolished by L-NAME. A significant rise in the ACTH and corticosterone secretion induced by isoprenaline (10 microg), a beta-adrenergic receptor agonist, was only moderately diminished by pretreatment with L-NAME. These results indicate that NOS is considerably involved in central stimulation of the HPA axis by alpha1- and alpha2-adrenergic receptor agonists, and that NO mediates the stimulatory action of these agonists on ACTH and corticosterone secretion. The stimulation induced by beta-adrenergic receptors is only moderately affected by endogenous NO.     

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.     

Altered coronary and cardiac adrenergic response in the failing hamster heart: role of cyclooxygenase derivatives

Although the influence of the adrenergic system has been studied in the presence of heart failure, controversies still exist. Since cyclooxygenase derivatives appear to modulate coronary and cardiac adaptation in the failing heart, we hypothesized that cyclooxygenase derivatives may participate in the altered adrenergic responses in this situation. Isolated hearts from cardiomyopathic (UM-X7.1 subline) and normal hamsters, aged > 240 days, were utilized. Coronary and cardiac response to alpha1-, beta1-, and beta2-adrenergic stimulations was observed before and after pretreatment with indomethacin, a cyclooxygenase inhibitor. Reduction of coronary flow elicited by alpha1-adrenergic stimulation was unchanged in the presence of heart failure, while beta1- and beta2-induced vasodilatations were reduced. Inotropic response to alpha1 and beta1 stimulations were also reduced in failing hearts, while beta2-adrenergic action was unchanged. Pretreatment with indomethacin exacerbated coronary flow reduction observed with alpha1 stimulation in failing hearts only. Beta2-induced coronary vasodilatation and inotropic response to alpha1 and beta2 stimulations were impaired similarly in the presence of indomethacin in normal and failing hearts. The results suggest a complex interaction between adrenergic and cyclooxygenase activation.     

室旁核在剌激猫肾神经传入纤维引起的血压效应中的应用

The purpose of this study is to investigate the role of paraventricular nucleus of the hypothalamus (PVN) and alpha 1 adrenergic receptor of PVN in the pressor responses to stimulation of renal afferent nerve in alpha 1-chloralose-anesthetized cats with carotid sinoaortic denervation and vagotomy. The pressor response to stimulation of renal afferent nerve consisted of a primary and a second components. The primary component response was completely blocked while the second component was not blocked by autonomic blocking agents (hexomethonium and atropine). Bilateral lesions of PVN greatly attenuated the pressor response before and after autonomic blockade. Intracerebroventricular and PVN injection alpha 1, adrenergic antagonist (prazosin) significantly decreased in the pressor response to stimulation of renal afferent nerve. These results indicate that paraventricular nucleus of the hypothalamus and alpha 1 adrenergic receptors in central nervous system, especially in PVN, play an important role in the pressor responses to stimulation of renal afferent nerve.     

Adrenergic control of lipogenesis and lipolysis in the chicken in vitro

The adrenergic inhibition of lipogenesis and stimulation of lipolysis in the avian has been examined using chicken hepatocytes and adipose tissue explants in vitro. Lipogenesis was inhibited by adrenergic agonists: epinephrine (alpha + beta) greater than isoproterenol (beta 1/beta 2) greater than norepinephrine (alpha 1/alpha 2, beta 1) greater than metaproterenol (beta 2), phenylephrine (alpha 1). Dobutamine (beta 1 agonist) and dopamine (dopaminergic agonist) did not significantly affect [14C]acetate incorporation into lipid, while clonidine and para-aminoclonidine (alpha 2 agonists) were slightly stimulatory. Lipolysis in young and adult chicken adipose tissue was stimulated by epinephrine, isoproterenol, phenylephrine, dobutamine and metaproterenol, but was inhibited by clonidine and para-aminoclonidine. Both the antilipogenic and lipolytic effects of epinephrine were partially blocked by phentolamine (alpha 1 = alpha 2 antagonist) or propranolol (beta 1 = beta 2 antagonist), but completely inhibited by phentolamine and propranolol administered together.     

Alterations in cardiovascular responsiveness and adrenoceptor binding during catecholamine infusion hypertension in rats.

Chronic continuous infusion of norepinephrine in rats causes alterations in biochemical and physiologic responses of the cardiovascular system and in cardiovascular adrenoceptor number. The response of cardiac and aortic ornithine decarboxylase (ODC) activity to stimulation by norepinephrine was decreased in rats receiving norepinephrine infusion. These responses are due to stimulation of beta- and alpha-adrenergic receptors, respectively. Additionally, there was reduced stimulation of aortic ODC activity by angiotensin II and vasopressin. The cardiac ODC response to angiotensin II was decreased, but the response to vasopressin was not affected. The decreased ODC response is accompanied by decreased pressor responses to the alpha-adrenergic agonist phenylephrine. Decreased numbers of alpha- and beta-adrenoceptor binding sites (as measured by the binding of [3H]prazosin and [125I]pindolol) might mediate, in part, the altered responses to adrenergic agonists. The decreased cardiovascular responsiveness measured in these animals after several days of norepinephrine infusion hypertension contrasts with the increased responses found in most other forms of hypertension. This provides a useful model in which to examine the consequences of prolonged adrenergic receptor stimulation.     

alpha(2)-Adrenergic receptors in NTS facilitate baroreflex function in adult spontaneously hypertensive rats

We examined the effect of alpha(2)-adrenoreceptor blockade in the nucleus of the solitary tract (NTS) on baroreflex responses elicited by electrical stimulation of the left aortic depressor nerve (ADN) in urethane-anesthetized spontaneously hypertensive rats (SHR, n = 11) and normotensive Wistar-Kyoto rats (WKY, n = 11). ADN stimulation produced a frequency-dependent decrease in mean arterial pressure (MAP), renal sympathetic nerve activity (RSNA), and heart rate (HR). In SHR, unilateral microinjection of idazoxan into the NTS markedly reduced baroreflex control of MAP, RSNA, and HR and had a disproportionately greater influence on baroreflex control of MAP than of RSNA. In WKY, idazoxan microinjections did not significantly alter baroreflex function relative to control vehicle injections. These results suggest that baroreflex regulation of arterial pressure in SHR is highly dependent on NTS adrenergic mechanisms. The reflex regulation of sympathetic outflow to the kidney is less influenced by the altered alpha(2)-adrenoreceptor mechanisms in SHR.     

Discovery of an orally bioavailable alkyl oxadiazole beta3 adrenergic receptor agonist

5-n-Pentyl oxadiazole substituted benzenesulfonamide 8 is a potent and selective beta3 adrenergic receptor agonist (beta3 EC50 = 23 nM, beta1 IC50 = 3000 nM, beta2 IC50 = 3000 nM). The compound has high oral bioavailability in dogs (62%) and rats (36%) and is among the most orally bioavailable beta3 adrenergic receptor agonists reported to date.     

Development of prejunctional alpha 2 adrenergic receptor mediated feedback control of the pressor response to sympathetic nerve stimulation in hypertensive and normotensive rats

Development of prejunctional alpha 2 adrenergic receptor inhibition of pressor responses to sympathetic nerve stimulation in the spontaneously hypertensive Wistar-Kyoto rat was compared with genetically similar (Wistar-Kyoto) and different (Sprague-Dawley) normotensive rats. The sympathetic outflow was stimulated at frequencies of 1 to 20 Hz in pithed rats at 10,14,20 and 60 days of age. The antagonist, rauwolscine was given to block alpha 2 mediated feedback inhibition of noradrenaline release and the incidence of enhanced pressor responses determined. In Sprague-Dawley but not in spontaneously hypertensive or Wistar-Kyoto rats the changes in the incidence of enhanced responses parallel development of indices of sympathetic activity in other studies of the rat. Thus at 10 days of age (when activity is low), the incidence of rauwolscine-enhanced responses was 45%; at 14 days, (coinciding with onset of baroreflex control), incidence fell to 14%; in the 3rd postnatal week (when there is sympathetic hyperactivity), incidence increased to greater than 90%; finally, incidence, like activity declined in adults. In Wistar-Kyoto rats, the incidence of enhanced responses was like the other strains at 10 days but then decreased during development. In spontaneously hypertensive rats, enhanced responses were also less evident during week 3 and greatly diminished in adults. We conclude that in the spontaneously hypertensive and normotensive variants of Wistar-Kyoto strain rats the limit of alpha 2 adrenergic receptor feedback control of noradrenaline release is reached prematurely and is attenuated relative to the level of neuronal activity. In keeping with this hypothesis, the basal rate of noradrenaline utilization (measured in kidney) was higher at 20 days in Wistar-Kyoto than in Sprague-Dawley, but Sprague-Dawley showed greater enhancement of noradrenaline level and utilization after rauwolscine. Thus, the limitation to feedback control may be in development of prejunctional alpha 2 adrenergic receptors and/or their coupling to transmitter synthesis and release. Attenuated prejunctional alpha 2 adrenergic receptor inhibition is not linked obligatorily to development of hypertension in the spontaneously hypertensive Wistar-Kyoto rat.     

Plasma growth hormone responses to microinfusion of noradrenergic agents into or electrical stimulation of the hypothalamus and amygdala in baboons

In nine baboons (Papio papio) guide cannulae and electrodes were stereotaxically implanted into the medial basal or lateral hypothalamus, the anterior hypothalamus or the dorsal amygdala. Plasma GH responses were measured after microinfusion (1 microliter) of the alpha2 adrenergic agonist, clonidine, or the beta adrenergic antagonist, propranolol, or electrical stimulation, in each of these sites. Clonidine, 100 nmol/microliter, infused into the medial basal or lateral hypothalamus elevated plasma GH levels by 5-30 ng/ml, 30-45 min post-infusion. Plasma GH responses to clonidine infused into the anterior hypothalamus or the dorsal amygdala were all less than 10 ng/ml. The prior, intravenous, administration of piperoxane, 1.0 mg/kg prevented GH responses to clonidine. Propranolol, 50 nmol/microliter, infused into the dorsal amygdala consistently increased plasma GH levels by 5-15 ng/ml. Electrical stimulation of the medial basal or lateral hypothalamus elevated plasma GH levels by 7-35 ng/ml, 15-45 min post stimulation. Electrical stimulation of anterior hypothalamus or dorsal amygdala did not alter plasma GH levels. The stimulation of alpha 2 adrenergic receptors in the medial basal or lateral hypothalamus of the baboons appears to facilitate GH release.     

Adrenergic effects on plasma levels of glucagon, insulin, glucose and free fatty acids in rabbits

Adrenergic effects on plasma levels of glucagon, insulin, glucose and free fatty acids were studied in fasted rabbits by infusing epinephrine, norepinephrine, isoproterenol, phentolamine (an adrenergic alpha-receptor blocking drug) and propranolol (an adrenergic beta-receptor blocking drug). The adrenergic effects on the plasma levels of insulin, glucose and free fatty acids were similar to those found in other species. The plasma levels of insulin were increased by beta-receptor stimulation (isoproterenol, phentolamine + epinephrine) and decreased by alpha-receptor stimulation (epinephrine, norepinephrine, propranolol + epinephrine). The plasma levels of glucose were increased by both alpha- and beta-receptor stimulation, and the epinephrine-induced hyperglycaemia was only blocked by combined infusions with phentolamine and propranolol. The plasma levels of free fatty acids were increased by saline and further increased by beta-receptor stimulation (isoproterenol), while epinephrine and norepinephrine gave variable results. Alpha-receptor stimulation (propranolol + epinephrine) slightly decreased the plasma levels of free fatty acids. The plasma levels of glucagon, however, were mainly increased by alpha-receptor stimulation (epinephrine, norepinephrine, propranolol + epinephrine) and increased only to a minor extent by beta-receptor stimulation (isoproterenol, phentolamine + epinephrine) in rabbits. This is in contrast to results reported for humans, where beta-receptor stimulation seems to be most important in stimulating glucagon release.     

Role of specific protein kinase C isoforms in modulation of beta1- and beta2-adrenergic receptors

The function of beta-adrenergic receptor (betaAR) is modulated by the activity status of alpha1-adrenergic receptors (alpha1ARs) via molecular crosstalk, and this becomes evident when measuring cardiac contractile responses to adrenergic stimulation. The molecular mechanism underlying this crosstalk is unknown. We have previously demonstrated that overexpression of alpha1B-adrenergic receptor (alpha1BAR) in transgenic mice leads to a marked desensitization of betaAR-mediated adenylyl cyclase stimulation which is correlated with increased levels of activated protein kinase C (PKC) beta, delta and [J. Mol. Cell. Cardiol. 30 (1998) 1827]. Therefore, we wished to determine which PKC isoforms play a role in heterologous betaAR desensitization and also which isoforms of the betaAR were the molecular target(s) for PKC. In experiments using constitutively activated PKC expression constructs transfected into HEK 293 cells also expressing the beta2AR, constitutively active (CA)-PKC overexpression was first confirmed by immunoblots using specific anti-PKC antibodies. We then demonstrated that the different PKC subtypes lead to a decreased maximal cAMP accumulation following isoproterenol stimulation with a rank order of PKCalpha > or = PKCzeta>PKC>PKCbetaII. However, a much more dramatic desensitization of adenylyl cyclase stimulation was observed in cells co-transfected with different PKC isoforms and beta1AR. Further, the modulation of beta1AR by PKC isoforms had a different rank order than for the beta2AR: PKCbetaII>PKCalpha>PKC>PKCzeta. PKC-mediated desensitization was reduced by mutating consensus cAMP-dependent protein kinase (PKA)/PKC sites in the third intracellular loop and/or the carboxy-terminal tail of either receptor. Our results demonstrate therefore that the beta1AR is the most likely molecular target for PKC-mediated heterologous desensitization in the mammalian heart and that modulation of adrenergic receptor activity in any given cell type will depend on the complement of PKC isoforms present.     

Absence of age-related changes in the binding of the beta adrenergic antagonist 125I-iodohydroxybenzylpindolol in rat heart

The effect of age on the density and the affinity of beta adrenergic receptors was determined in the hearts of Fischer 344 rats at three ages, 6, 12, and 24 months old. The binding of the beta adrenergic antagonist 125I-iodohydroxybenzylpindolol (IHYP), was used to quantitate and characterize cardiac beta adrenergic receptors. The maximal number of binding sites (Bmax = F moles/mg of protein) were 26.3 +/- 2.5, 25.4 +/- 0.99, and 24.5 +/- 2.4 and the dissociation constants (Kd = nM) were 0.166 +/- 0.014, 0.126 +/- 0.006, and 0.135 +/- 0.015 for 6, 12, and 24 months old animals, respectively. There were no significant differences among the three ages. These results support the contention that neither beta adrenergic receptor density or affinity changes with age in the ventricles of the rat heart.     

The influence of indomethacin on the acth secretion induced by central stimulation of adrenergic receptors.

We had previously demonstrated that indomethacin affected the corticosterone secretion induced by central stimulation of alpha-but not beta-adrenergic receptors in conscious rats. In the present study we investigated whether hypothalamic and/or pituitary prostaglandins (PGs) were involved in the central adrenergic stimulation of ACTH secretion. Indomethacin, 2 mg/kg ip or 10 microg intracerebroventricularly (icv), was administered 15 min before phenylephrine (30 microg icv), an alpha-adrenergic agonist, clonidine (10 microg), an alpha2-adrenergic agonist, and isoprenaline (20 microg) or clenbuterol (10 microg), a beta1- or beta2-adrenergic agonist. One hour after the last injection the rats were decapitated and plasma levels of ACTH were measured. The present results show that the ACTH responses induced by icv administration of phenylephrine and clonidine were considerably impaired by icv or ip pretreatment with indomethacin, an inhibitor of prostaglandin synthesis. Indomethacin given by either route only slightly diminished the isoprenaline-induced ACTH response and did not substantially alter the clenbuterol-induced response. The adrenergic-induced ACTH responses were more potently inhibited by ip than by icv pretreatment with indomethacin, which may result from a stronger inhibition of PGs synthesis in the median eminence and anterior pituitary by ip pretreatment with indomethacin than in hypothalamic structures by its icv administration. These results indicate a significant involvement of PGs in central stimulation of the hypothalamic-pituitary adrenal (HPA) axis by alpha1- and alpha2- but not beta-adrenergic receptors.     

The role of beta and alpha adrenergic receptors in the lipolytic effect of catecholamines on dog adipocytes (author's transl)]

Pharmacological properties of adrenergic receptors have been investigated in fat cells isolated from omental adipose tissue of the Dog. From the results, the following points can be stated. 1. Lipolysis is markedly enhanced by isoproterenol. This effect is competitively inhibited by propranolol (a beta-adrenoceptor blocking agent). (Fig 1). 2. The beta 2-sympathomimetic salbutamol is found to have only a slight effect on lipolysis rate (Fig. 2). 3. The epinephrine-induced lipolysis is potentiated by phentolamine (an alpha-adrenoceptor blocking agent) only on large sized adipose cells (mean fat cell size 96.7 +/- 5.3 micrometer; Fig. 5). 4. The isoproterenol-induced lipolysis is partially inhibited by phenylephrine (an alpha-adrenomimetic drug) (Table I). These findings show that beta 1 nature of the receptors involved in the adrenergic control of lipolysis in Dog adipose tissue. Moreover an antilipolytic effect of epinephrine, via alpha-adrenergic receptors, is observed, especially in large adipose cells.