beta-Adrenergic receptor involvement in 6-hydroxydopamine-induced supersensitivity in rat cerebral cortex

Characteristics of the beta-adrenoreceptor from neuronal and glial cells in primary cultures of rat brain

The cellular characteristics of the beta-adrenoreceptor in glial and neuronal cells from the newborn rat brain were determined by (-)-[125I]iodocyanopindolol binding. In membranes from both cell types, the binding was saturable and from competition assays the potency series of (-)-isoproterenol greater than (-)-epinephrine = (-)-norepinephrine greater than (+)-isoproterenol was observed. 5'-Guanylyl-imidodiphosphate reduced the affinity of (-)-isoproterenol for the beta-adrenoreceptor from glial cells but had no effect on agonist affinity in neuronal cells. Chronic treatment of both cell types with (-)-isoproterenol reduced the receptor content and the capacity of the agonist to increase the cellular cyclic AMP content. However, the receptor recovery after chronic agonist treatment was faster in glial cells (72 h) than neuronal cells (120 h) and was blocked by cycloheximide. Treatment of both types with the irreversible beta-blocker bromoacetylalprenololmentane (2 microM) reduced the receptor content by 78% but no receptor recovery was observed for 120 h after the initial receptor loss. The data indicated that the majority of beta-adrenoreceptors in both cell types are the beta-1 subtype, but show some differences in receptor-agonist interactions. Furthermore, these CNS cells may be useful models for regulatory studies on the beta-adrenoreceptor.

Increase in beta- and alpha 1-adrenoceptor binding sites in the rat brain and in the alpha 1-adrenoceptor functional sensitivity after the DSP-4-induced noradrenergic denervation

Changes in the density of beta- and alpha 1-adrenoceptors were studied following denervation of the rat cerebral cortex and hippocampus, caused by systemic administration of DSP-4. The noradrenergic denervation increased both beta- and alpha 1-adrenoceptor density by about 30 and 17%, respectively in the cortex, and by about 30% in the hippocampus. In order to estimate the behavioral response of normal and DSP-4-treated rats to alpha 1-agonist, the influence of phenylephrine (25 micrograms ICV) on the exploratory activity of rats in the open field was measured. Phenylephrine failed to change the exploratory activity of normal rats, but significantly increased it in DSP-4 animals. The results indicate that noradrenergic denervation produces an increase in number of both beta- and alpha 1-adrenoceptors and the functional supersensitivity to the alpha 1-adrenergic agonists.

Beta-receptor involvement in locus coeruleus-induced inhibition of spinal trigeminal nucleus neurons: microiontophoretic and HRP studies

Microiontophoretic and HRP studies were performed on cats anesthetized with alpha-chloralose to determine whether or not the locus coeruleus (LC)- and noradrenaline (NA)-induced inhibition of relay neurons in the subnucleus oralis of the spinal trigeminal nucleus (STN) is mediated by beta-adrenergic receptors. The inhibition of orthodromic spike generation upon intracranial trigeminal nerve stimulation by LC conditioning stimulation and microiontophoretically applied NA (100-200 nA) was antagonized during microiontophoretic application of sotalol, a beta-adrenergic antagonist, but not affected by phentolamine, an alpha-adrenergic antagonist. When HRP at doses of 300-500 nA was applied for 5-15 min to the immediate vicinity of the STN relay or interneuron, which was electrophysiologically identified by stimulating the ipsilateral trigeminal nerve and contralateral medial lemniscus, the injection site was localized to an area 0.3 mm in diameter and HRP-reactive cells were found in the ipsilateral LC, dorsal raphe nucleus and periaqueductal gray ventral to the aqueduct. These results strongly suggest that NA released from the nerve terminals of LC cells inhibits transmission in the STN relay neuron via beta-adrenergic receptors.

Regional serotonin receptor studies: chronic methysergide treatment induces a selective and dose-dependent decrease in serotonin-2 receptors in mouse cerebral cortex

Compared with the well described supersensitization responses of dopaminergic and beta-adrenergic receptors to pharmacologic antagonists and denervation, the regulation of serotonin-1 (S-1) and serotonin-2 (S-2) receptors is poorly understood. In an effort to modulate S-1 and S-2 receptors in mouse brain, male C57BL/6J mice were treated chronically with methysergide, a serotonin antagonist with nanomolar affinity for both S-1 and S-2 receptors. Methysergide treatment had no influence on the affinity or density of S-1 receptors as measured by binding of (3H)-5-HT in cerebral cortex, hippocampus or hypothalamus. In contrast, the S-2 receptor specific binding of (3H)-spiperone in the cerebral cortex decreased in a dose dependent fashion, a direction of change opposite to that usually seen in catecholamine pathways chronically exposed to antagonists. The effect was selective for the S-2 serotonergic receptor since the D-2 dopaminergic receptor specific binding of (3H)-spiperone in the caudate nucleus was unaffected by drug treatment. These results suggest that either serotonin receptors respond atypically to chronic receptor blockade by antagonist or that in vivo, methysergide may have additional pre-synaptic effects on serotonin uptake or release.

DSP4-induced noradrenergic lesions increase beta-adrenergic receptors and hippocampal electrophysiological responsiveness

Following profound (greater than 90%) depletions of norepinephrine (NE) by the noradrenergic neurotoxin N-(2-chloroethyl)-N-ethyl-2-bromobenzylamine (DSP4), the numbers of beta-adrenergic receptors were significantly increased (20-25%) in rat hippocampal and somatosensory cortical membranes; however, the numbers of alpha 1-adrenergic receptors and the affinities of both types of receptors were unaffected. This selective up-regulation of beta-adrenergic receptors was evident 1 week after DSP4 administration and was maintained for at least 2 more weeks. In electrophysiological experiments in the hippocampal slice preparation, responses to threshold as well as maximal concentrations of isoproterenol were enhanced 150% and 33%, respectively, in the DSP4-lesioned animals. The results demonstrate that nearly complete depletion of brain NE produced by administration of DSP4, like that produced by 6-hydroxydopamine, results in increased numbers of beta- but not alpha-adrenergic receptors, and suggest that the density of the former are regulated by afferent noradrenergic fibers. Furthermore, the functional significance of the increased number of hippocampal beta-adrenergic receptors is directly manifested in a greater electrophysiological responsiveness to an exogenously administered beta-adrenergic receptor agonist.

Cellular localization of adrenergic receptors in rat and human brain

The localization of adrenergic receptors in the central nervous system was studied in two physiological conditions of noradrenergic denervation, a 6-hydroxydopamine-induced lesion of the locus coeruleus in newborn rat, and a pathological related degeneration of the locus coeruleus in man, Parkinson's disease. The localization of these receptors in the synapse has been studied with the technique of subcellular fractionation by differential centrifugation. In lesioned rats, an increase in the density of alpha 1 and beta 1 receptors was observed in several brain regions, in contrast to alpha 2 receptors which were not modified. Subcellular fractionation in lesioned rats showed an increase in alpha 1 and beta 1 receptors in synaptosomal fractions. Similar results were found in parkinsonian patients: alpha 1 receptors increased in the synaptosomal fraction; beta receptors increased in synaptosomal and microsomal fractions. These results suggest that alpha 1 and beta 1 receptors may be located on non-noradrenergic nerve terminals in mammalian brain. alpha 2 and beta 2 receptors may be situated on glial cells or neuronal elements unrelated to noradrenergic input.

Regulation of beta-adrenoceptor density and function in rat vas deferens

beta-Adrenoceptor density and responsiveness were examined in rat vas deferens following surgical and pharmacological treatments. Receptor density was measured by Scatchard analysis of saturation isotherms of specific [125I]pindolol ([125I]PIN) binding in membrane homogenates. Functional responsiveness was measured by isoprenaline-induced inhibition of field stimulated (60 V, 1 ms, 0.1 Hz) or 40 mM K+-induced contractions. Four days following surgical denervation of vas deferens there was no change in the density of [125I]PIN binding sites, suggesting that these sites are not located on prejunctional neurons. Neither 7 day bilateral adrenalectomy, 21 day denervation, nor 7 days treatment with 10 mg/kg per day desmethylimipramine caused changes in either the potency of isoprenaline in inhibiting contraction or the density of [125I]PIN binding sites compared to controls. Infusion of 3 mg/kg per day isoprenaline for 8 days significantly reduced the potency of isoprenaline in inhibiting field stimulated contractions, reduced the maximum degree of inhibition, and reduced the density of [125I]PIN binding sites. These results suggest that beta-adrenoceptor density and responsiveness in rat vas deferens are not affected by removal of adrenal hormones or neuronal stimulation, but that receptor density and responsiveness can be decreased by increasing the concentration of beta-adrenoceptor agonists at the receptor. Therefore, beta-adrenoceptors in rat vas deferens probably receive little tonic stimulation under normal circumstances.

The acute effects of 6-hydroxydopamine treatment on noradrenergic function in the rat hippocampus in vitro

The electrophysiological consequences of in vitro treatment with 6-hydroxydopamine (6-OHDA) were examined in the CA1 region of the rat hippocampal slice. In control slices, norepinephrine (NE) increased the amplitude of the population spike response elicited by synaptic stimulation of hippocampal pyramidal neurons with a threshold of approximately 5 microM. When hippocampal slices were pretreated with 500 microM 6-OHDA for 10 min, perfusion with a subthreshold concentration of NE (0.5 microM) produced responses similar to those observed with a 10-fold higher concentration of NE in untreated slices. Baseline electrophysiological responses were unchanged following the 6-OHDA exposure. The potentiation of the response to NE by in vitro pretreatment with 6-OHDA was accompanied by a greater than 40% decrease in NE content and greater than 90% decrease in [3H]NE accumulation. In vivo treatment with 6-OHDA or N-(2-chloroethyl)-N-ethyl-2-bromobenzylamine hydrochloride (DSP4) also potentiated the electrophysiological response to NE in a manner similar to that observed with acute in vitro 6-OHDA pretreatment. This action does not appear to be due to development of beta-adrenergic receptor supersensitivity, because the apparent potency of isoproterenol in increasing the population spike amplitude was unaffected. These data suggest that the increase in the potency of NE in slices pretreated with 6-OHDA is due to the rapid disruption of the high-affinity NE uptake mechanism characteristic of noradrenergic nerve terminals.

Clonidine and cortical plasticity: possible evidence for noradrenergic involvement

In order to test the hypothesis that noradrenergic transmission modulates ocular dominance plasticity in kitten visual cortex, we monocularly deprived kittens while administering the alpha-2 adrenergic agonist clonidine (CLON). To avoid bias in testing the hypothesis, we included, with a single blind technique, saline-treated control kittens in the series. First, using high-pressure liquid chromatography, we demonstrated that CLON treatments resulted in an average decline in cerebrospinal fluid levels of the norepinephrine metabolite, 3-methoxy-4-hydroxy phenylethylene glyolol (MHPG) of 44%. Then, single-unit recording in area 17 revealed the expected ocular dominance (OD) shift in monocularly deprived saline controls, but recording failed to find a significant shift in CLON-treated kittens. Our results support the notion that CLON treatment interferes with ocular dominance plasticity by inhibiting noradrenergic transmission in visual cortex. We discuss side effects of CLON, concluding that CLON's sedative effect may contribute to the lack of OD shift.

Cardiac postjunctional supersensitivity to beta-agonists after chronic chemical sympathectomy with 6-hydroxydopamine

The sensitivity to sympathomimetic amines of isolated atria removed from sham-injected and 6-hydroxydopamine-treated (6-OHDA) guinea-pigs was examined in the presence of an extraneuronal uptake blocker and an alpha-adrenoceptor antagonist. Three weeks of pretreatment with 6-OHDA resulted in leftwards shifts of the dose-response curves for the positive chronotropic and inotropic responses of right and left atria to isoprenaline. The responses to the partial agonist salbutamol were also potentiated after 6-OHDA pretreatment, revealed as an increase in the maximum response relative to isoprenaline. The supersensitivity was post-synaptic in origin and independent of changes in disposition or metabolism, since it was observed with agonists immune to neuronal uptake and O-methylation, and in the presence of extraneuronal uptake inhibition by metanephrine. It was also specific for the beta-adrenoceptor, no supersensitivity to histamine being found. In the right atria, the supersensitivity was partially masked by an opposing depressant effect after 6-OHDA pretreatment which was observed with histamine. Dissociation constants (KA) for the left atrial inotropic responses to orciprenaline were determined by use of the antagonist Ro 03-7894. Atria from 6-OHDA-pretreated animals were supersensitive to orciprenaline, but the KA value did not differ from that after sham injection. It could therefore be concluded that the increase in sensitivity was not due to an increase in affinity for the beta-adrenoceptor.

alpha 1- and beta-adrenergic receptors are co-regulated during both noradrenergic denervation and hyperinnervation

Changes in the density of alpha 1- and beta-adrenergic receptors were studied following denervation of rat cerebral cortex and hyperinnervation of cerebellum and motor trigeminal nucleus, caused by neonatal 6-hydroxydopamine treatment. Four well-defined thalamic projection zones to cortex were studied separately using tissue punch methodology. Both alpha 1- and beta-adrenergic receptors were unevenly distributed in motor, sensory, visual and auditory cortex. The density of alpha 1-adrenergic receptors correlated better with the norepinephrine content of the punches (r = 0.62) than did the density of beta-adrenergic receptors (r = 0.38). Noradrenergic denervation increased both alpha 1- and beta-adrenergic receptor density in almost all cortical areas studied, however the percentage increase was larger for beta- than alpha 1-adrenergic receptors. The change in receptor density was largest in visual cortex and smallest in somatosensory cortex for both receptor sub-types. Noradrenergic hyperinnervation caused a 15-18% decrease in both alpha 1- and beta-adrenergic receptor density in the motor trigeminal nucleus of the pons, but did not change the density of either receptor type in the cerebellum. In general, following either noradrenergic denervation or hyperinnervation the change in alpha 1-adrenergic receptor density was correlated (r = 0.64, P less than 0.005) with the change in beta-adrenergic receptor density in each region, suggesting that these different receptor sub-types are under similar control mechanisms.

Serotoninergic system in scrapie-infected hamsters

Hamsters inoculated with scrapie virus show a dramatic hypersensitivity to serotoninergic drugs, developing a behavioral syndrome not unlike that obtained with pharmacologically induced lesions of the raphe nuclei. In an attempt to explain the state of hypersensitivity and to determine whether or not serotoninergic neurons were targets of the scrapie virus, pre- and postsynaptic serotoninergic sites were studied in the cerebral cortices of scrapie-infected and sham-inoculated hamsters. [3H]Imipramine binding and the uptake of endogenous 5-hydroxytryptamine (5-HT, serotonin) in synaptosomes prepared from scrapie-inoculated animals were not different from those of controls. This suggests integrity of the serotoninergic neurons in scrapie-infected hamsters. In contrast, affinity for the 5-HT1 receptor (which modulates inhibitory response) was diminished whereas that for the 5-HT2 receptor (which modulates excitatory response) was increased. This "imbalance" between the two receptors which is amplified in in vivo responses may account for the 5-HT hypersensitivity. The alteration in the affinity of the two postsynaptic 5-HT receptors supports the observation that scrapie virus alters cell plasma membranes.

Enhanced renin secretion in adrenalectomized rats with glucocorticoid-induced hypertension

The role of circulating epinephrine in the regulation of renin release was studied in unanesthetized rats with glucocorticoid-induced hypertension. Biadrenalectomized Wistar rats were made hypertensive with methylprednisolone (20 mg/kg s.c. weekly) for 2 weeks and supplemented with deoxycorticosterone pivalate (10 mg/kg s.c. weekly). Sham-operated controls received the same treatment. Baseline weight, mean intra-arterial blood pressure and heart rate of the groups were the same. In both adrenalectomized and sham-operated rats plasma renin activity was determined after a 30 min infusion of the beta-adrenoceptor stimulant isoproterenol (40 ng/min) or its vehicle. Isoproterenol had no blood pressure effect and accelerated heart rate to a similar extent in rats with and without adrenals. Plasma renin activity was significantly higher in epinephrine-deficient than in sham-operated rats. Renin secretion was significantly enhanced by isoproterenol in both groups of rats. These data therefore indicate that in rats with glucocorticoid-induced hypertension the renin-angiotensin system is activated by adrenalectomy, despite the fact that adrenal insufficiency cannot develop. It also appears that rats lacking of circulating epinephrine for a prolonged period do not exhibit an abnormal responsiveness of renin secretion to the stimulation of renal beta-adrenoceptors.

Reserpine and the role of axonal transport in the independent regulation of pre- and postsynaptic beta-adrenoreceptors

The response of pre- and postsynaptic beta-adrenoreceptors to depletion of brain norepinephrine (NE) with reserpine in the rat was characterized by studying the anterograde and retrograde axonal transport of presynaptic receptors and the receptor binding changes induced in postsynaptic frontal cortex cells. Anterograde transport was shown to occur by the linear accumulation of [3H]dihydroalprenolol ([3H]DHA) binding sites (by in vitro binding assay) proximal to a 6-hydroxydopamine (6-OHDA) lesion placed in the ascending pathway of the locus coeruleus and was blocked by more proximal lesions in the pathway. Retrograde transport was demonstrated by the accumulation of [125I]iodocyanopindolol binding distal to similar lesions. Autoradiograms from sections of 6-OHDA injected brains were produced with [3H]DHA binding in the presence of the beta 2-agonist, zinterol, and suggested that the anterograde accumulation of binding sites was primarily of the beta 1-subtype. A single injection of reserpine (5 mg/kg, i.p.) produced a long lasting (6-8 weeks), biphasic decrease in cortical NE levels with nadirs and 4 and 28 days (10% and 45% of control, respectively). Frontal cortex binding of [3H]DHA increased to a maximum at 7-14 days and again at 28 days post-reserpine (230% and 167% of control, respectively). These increases were not prevented by the destruction of presynaptic noradrenergic nerve terminals with intraventricular administration of 6-OHDA 1 day prior to sacrifice and therefore appeared to take place solely in postsynaptic cells. Presynaptic, anterograde axonal transport of beta-receptors was completely blocked from 4-14 days post-reserpine, increased to 323% of control at 21 days, was blocked again at 6 weeks and returned to control by 8 weeks. Retrograde transport of beta-receptors followed a similar pattern suggesting that the presynaptic alterations in beta-receptors in noradrenergic neurons of the locus coeruleus take place independently from those in postsynaptic cortical beta-receptors as a response to NE depletion by reserpine.

Biochemical and physiological adaptation to chronic propranolol treatment in the rat

The biochemical and physiological aspects of isoprenaline sensitivity in normotensive rats were examined during and after abrupt withdrawal of chronic propranolol treatment. Serum propranolol concentrations in rats chronically treated for one month (0.125% propranolol in drinking water: 75-100 mg/kg/day) ranged from 7 to 23 ng/ml. At the height of the blockade, rats showed a decreased responsiveness in vivo to isoprenaline-induced increase in heart rate and fall in blood pressure; the ED50 values for isoprenaline being increased some 20- and 4-fold respectively. There was a 180% increase in beta-receptor number in sarcolemmal membranes isolated from ventricular muscle of these animals, together with increased basal (290%), fluoride- (100%), forskolin- (80%) and isoprenaline-stimulated (125%) adenylate cyclase activity. Twenty-four hours after propranolol withdrawal, serum propranolol concentrations were reduced by over 95%. At this time rats exhibited increased chronotropic and blood pressure responses to i.v. isoprenaline, indicated by the reduced ED50 values (2-fold and 12-fold respectively compared to controls). In addition, cardiac sarcolemmal beta-receptor number and adenylate cyclase activities were still significantly elevated above those of controls; 35% increase in beta-receptor number and increases of 96, 26, 13 and 37% in basal, fluoride-, forskolin- and isoprenaline-stimulated adenylate cyclase activities respectively. Forty-eight hours after drug withdrawal serum propranolol concentrations were only just detectable at 0.5 +/- 0.1 ng/ml. Although sarcolemmal beta-receptor numbers were still elevated (23%) isoprenaline-stimulated adenylate cyclase activity had returned to control values. However, both the fluoride- and forskolin-stimulated enzyme activities were decreased below control values by 12 and 23% respectively, suggestive of a reduction in the catalytic capacity of the adenylate cyclase complex. In parallel with the reduction in beta-receptor number and adenylate cyclase activity, the chronotropic response to i.v. isoprenaline had also returned to control values. In contrast, the blood pressure response to i.v. isoprenaline was still elevated in these animals indicated by the 5-fold reduction in the ED50 value compared with control animals.

Catecholamine responsive adenylate cyclase in human myocardial preparations. Properties and optimalization of assay conditions

In the present study we have investigated the conditions for optimal adenylate cyclase (AC) activity in preparations of human myocardial biopsies, with emphasis on both basal enzyme activity and isoproterenol response. Different preparation procedures (homogenates, membrane particles) of the same biopsy showed no difference in relative response to isoproterenol, although absolute activities, using protein concentration for normalization, showed some variance. The AC-receptor complexes of the preparations were also stable when stored on ice for 3 h, and both basal and stimulated AC activities were constant at a wide range of protein concentrations (2.9-31.9 micrograms/tube), and throughout 92 min incubation. The effects of varying Mg2+, guanyl nucleotides (GTP, GMP-P(NH)P), and ATP concentrations on myocardial AC activities were also investigated under both basal conditions as well as after isoproterenol stimulation. The apparent Km for the substrate (Mg X ATP) binding to the AC was approximately 0.1 mmol/l. Isoproterenol stimulated the AC activity by increasing Vmax (41 to 142 pmol/mg protein X min) without any change in the apparent Km. Maximal relative activation by isoproterenol was achieved at pH 6.5-7.0. The concentration of isoproterenol causing half maximal AC stimulation was approximately 0.1 micrograms/ml (2 X 10(-4) mmol/l). Half maximal inhibition of isoproterenol (4 micrograms/ml) stimulated AC activity was obtained by 0.025 micrograms/ml propranolol (8 X 10(-5) mmol/l). The sensitivity and precision of this assay should make it possible to measure AC activity as well as isoproterenol response in very small quantities of myocardial tissue. This could provide a method for studying receptor functions of sick hearts by endomyocardial biopsies.

Retrograde axonal transport of beta-adrenoreceptors in rat brain: effect of reserpine

Retrograde axonal transport of beta-adrenoreceptors was assessed by measuring the accumulation of binding sites for the beta-receptor ligand [125I]iodocyanopindolol [( 125I]ICP) distal to a unilateral 6-hydroxydopamine (6-OHDA) lesion placed in the ascending noradrenergic axons of the locus coeruleus. Accumulation of binding sites was linear over a 3 day period and was blocked by intracerebroventricular 6-OHDA given 1 day prior to sacrifice. A single dose of reserpine (5 mg/kg, i.p.) caused a long lasting (6-8 week) biphasic depletion of frontal cortex norepinephrine (NE) associated with increased frontal cortex binding of another beta-receptor ligand, [3H]dihydroalprenolol [( 3H]DHA), at 7-14 days, and again at 28 days post-reserpine. Unlike the changes in cortical beta-receptors, retrograde transport of [125I]ICP in presynaptic noradrenergic neurons was decreased or blocked completely at 7-14 days and at 6 weeks, and was increased to 470% and 240% of control at 21 days and 8 weeks after reserpine. Anterograde transport of [3H]DHA binding sites was measured by accumulation proximal to a 6-OHDA lesion in this pathway. This transport varied in a pattern similar to that seen for retrograde transport of [125I]ICP binding sites. These data and others suggest that presynaptic beta-receptors are regulated independently of frontal cortex beta-receptors, which appear to be located primarily on postsynaptic cells. On the other hand, the regulation of both anterograde and retrograde transport appears to be interrelated since both types of transport were altered in a similar way in the face of long-term NE depletion by reserpine.

Supersensitivity of the rabbit iris sphincter muscle induced by trigeminal denervation: the role of substance P

The rabbit left ophthalmic nerve (first branch of the left trigeminal nerve) was cut at the intracranial, peripheral side of the trigeminal ganglion and the effects of denervation were examined using iris sphincter muscle preparations isolated from the left and right eye, as denervated and control innervated preparations, respectively. Electrical transmural stimulation produced a substance P-operated contraction, in addition to a cholinergic one, in the preparation isolated from the right control eye. The former response was abolished in the preparation isolated from the left denervated eye, thereby indicating that the trigeminal, substance P nerve ipsilaterally innervates the iris sphincter muscle. Exogenously applied carbachol and substance P produced concentration-dependent contractions in preparations isolated from either eye. Supersensitivity characterized by a decrease in median effective concentration (EC50) values and an increase in maximal response was observed in the responses to both agents of the left denervated preparation. Such supersensitivity developed slowly after trigeminal denervation and 3 weeks was required for full development. Exogenously applied KCl produced substance P-operated and direct muscle contractions in the right control preparations. In the left denervated preparations, the substance P-operated contraction was either markedly attenuated or abolished, while the direct muscle-related contraction was enhanced after trigeminal denervation. The length of the left denervated preparation was longer than that of the right control preparation, and the resting tensions required to produce maximal carbachol contraction shifted to lower values. These physical changes of the iris sphincter muscle developed within 5 days after trigeminal denervation. In the non-denervated preparation treated with capsaicin in vitro, electrical transmural stimulation and KCl failed to produce the substance P-related contraction. However, supersensitivity to neither exogenously applied substance P, carbachol and KCl nor physical changes were observed in the capsaicin-treated preparation. These results suggest that trigeminal, substance P-related nerves tonically and ipsilaterally innervate the rabbit iris sphincter muscle and that the denervation results in non-specific supersensitivity. These findings are essentially the same as those observed in various types of smooth muscles after autonomic denervation.

Supersensitivity of the noradrenergic system in the spinal cord following intracisternal injection of 6-hydroxydopamine

The intracisternal administration of 6-hydroxydopamine (6-OHDA; 100 micrograms on two consecutive days) resulted in a 90-95% depletion of norepinephrine (NE) in the spinal cord 3-60 days following administration of the drug. At 90 days following injection of 6-OHDA, the depletion was only 60% suggesting the regrowth of NE-containing fibers. Consistent with the depletion of NE, 3-60 days after the injection of 6-OHDA a 50-80% decrease in the uptake NE occurred with only a 25% decrease 90 days after administration of 6-OHDA. Associated with decreases in NE and its uptake was a 100-200% increase in the accumulation of NE-stimulated cyclic AMP in slices of spinal cord tissue from 6-OHDA-treated rats. The increased response was evident at 3-60 days after injection of 6-OHDA decreasing on day 90 to 40% above control. No shift in the EC50 for NE was evident and the specificity of agonists for this response was limited to agents with alpha and/or beta-adrenergic receptor activation properties. Radioligand receptor binding techniques, utilizing [3H]prazosin for alpha1 receptors and [3H]dihydroalprenolol for beta receptors demonstrated that increases in the Bmax of response of alpha1 (30-50%) and beta (15-20%) receptors in spinal cord may mediate the enhanced response of NE-stimulated cyclic AMP following the administration of 6-OHDA. This is indicated by similar time-dependent patterns of onset and termination of increased receptor binding and the accumulation of NE-stimulated cyclic AMP.(ABSTRACT TRUNCATED AT 250 WORDS)

Brain part monoamines in the neuroendocrine mechanisms activated by immobilization stress in the rat

The long suspected and recently demonstrated abnormality in neuroendocrine control in patients with severe depression indicates that the neurochemical and neuroanatomical analysis of the neuroendocrine response to stress may provide valuable information in understanding the etiology of severe endogenous depression. Rats were immobilized for 1, 2, 3 or 5 hours consecutively or 2 hours per day for 5 days, sacrificed and plasma corticosterone (as an index of the release of adrenocorticotropic hormone from the pituitary) and brain part noradrenaline, dopamine, and serotonin concentrations were determined fluorometrically. Plasma corticosterone and brain part monoamines were also measured in other rats given 2 hour immobilization stress one week after the intraventricular injection of the neurotoxins 6-hydroxydopamine and/or 5,6-dihydroxytryptamine. Plasma corticosterone increased by 30% to 50% after all periods of stress and serotonin was increased in all brain parts after 1, 2 or 3 hours of stress but not after 5 hours or chronic stress. Forebrain dopamine was decreased by 30% after 1 hour stress, slowly increased with increasing duration of stress becoming a marked increase of 85% over controls after prolonged or chronic stress. The destruction of catecholamine nerve terminals with 6-hydroxydopamine prevented the stress induced rise in brain part serotonin but had no effect on the plasma corticosterone response to immobilization stress. Destruction of serotonin nerve terminals with 5,6-dihydroxytryptamine potentiated by 50% the stress induced rise in plasma corticosterone. Plasma corticosterone after 2 hours immobilization stress was the same as controls in rats given both neurotoxins. These data support the hypothesis that ACTH release is stimulated by serotonergic neural activity.

Adrenoreceptor development in rat cerebrum and the effects of ionizing radiation

Previous studies in the rat have shown that neonatal radiation alters certain aspects of CNS monoaminergic systems including altering cerebral norepinephrine levels [17]. To determine if cerebral adrenoreceptor development is also altered by neonatal ionizing radiation, a single dose of whole body gamma-radiation was administered to rats on postnatal day two. This treatment did not alter (3H)-dihydroalprenolol (beta adrenoreceptor) or (3H)-WB4101 (alpha1 adrenoreceptor) binding when cerebra from irradiated animals were compared to age-matched sham-irradiated controls on postnatal days 9, 15 and 35. In contrast, (3H)-yohimbine (alpha2-adrenoreceptor) binding was altered in gamma-irradiation, a change manifested on postnatal days 9, 15 and 35 by lower than normal receptor densities (pmoles/g wet weight of tissue) although no radiation-induced changes in KD were apparent.

beta-Adrenoceptor alterations coupled with secretory response in rat parotid tissue

Simultaneous studies on the secretory response of amylase and the neurotransmitter receptors of rat parotid gland, after brief treatment with agonists, showed selective alteration in beta-adrenoceptors with specific change in amylase secretion, suggesting a regulatory role of the receptors in the secretory response. The beta-adrenergic agonist (+/-)-isoprenaline (IPR) stimulated amylase secretion from rat parotid tissues much more than did the same concentration of an alpha-adrenergic or cholinergic agonist. The stimulatory effects of IPR were studied by pre-treating rat parotid tissues with IPR for 10 min and then incubating the tissue in fresh medium for 10 min. Pre-treatment with 10 microM-IPR for 10 min resulted in increased amylase secretion during further incubation with IPR and also in a lower EC50 value of amylase secretion for IPR. This treatment also resulted in selective changes in the number and affinity of beta-adrenoceptors, assessed by measuring binding of [3H]dihydroalprenolol (DHA): the maximal binding sites increased from 286/357 f-mole to mg protein and the IC50 value (the concentration for 50% inhibition of specific [3H]DHA binding) of beta-agonists, not antagonists, decreased significantly. An increase in the period of pre-treatment with IPR to 30 min resulted in a decrease in the maximal binding sites of beta-adrenoceptors and a decrease in amylase secretion during further incubation with IPR. Experiments with other agonists showed that supersensitivity of the secretory response was induced specifically by beta-agonists. Binding studies with [3H]WB-4101 and [3H]quinuclidinyl benzilate showed that alpha-adrenoceptors and muscarinic ACh receptors in rat parotid did not change under the conditions tested. The alteration in beta-adrenoceptors was parallel with a change in amylase secretion after IPR pre-treatment, but not with a change in cyclic AMP content.

Alpha 1-adrenoceptor denervation supersensitivity in brain: physiological and receptor binding studies

Electrophysiological and radioligand binding methods were used to characterize noradrenergic denervation supersensitivity at alpha 1-adrenoceptors in rat thalamus. Denervation was accomplished either by intraventricular or intracerebral injection of the catecholamine neurotoxin 6-hydroxydopamine (6-OHDA). In the physiological studies, the sensitivity of single lateral geniculate neurons to norepinephrine, carbachol, and serotonin was compared in sham and lesioned animals various times after 6-OHDA. Conducted in parallel were radioligand binding studies in which the density and affinity of thalamic alpha 1-adrenoceptors were measured with the specific antagonist [3H]prazosin. The results indicate that denervation produces a selective increase in the sensitivity of geniculate neurons to alpha 1-adrenergic stimulation and a concomitant increase in alpha 1-adrenoceptor density and agonist affinity.

Electrophysiological and biochemical sequelae of the destruction of hippocampal noradrenergic afferents by DSP4

The effects of DSP4 lesions were examined 20-53 days postlesion in the rat hippocampus. A single treatment with DSP4 produced decreases of 42-94% in the norepinephrine (NE) content of this brain region. There was, however, no effect of DSP4 treatment on either the number or affinity of beta-adrenergic receptor sites as determined by radioligand binding studies with (-)-[125I]pindolol; furthermore, there was no relationship between the concentrations of NE and the number of receptor sites in individual hippocampi. The DSP4-induced depletion of functionally releasable NE was confirmed by the loss of electrophysiological responsiveness to amphetamine in the in vitro hippocampus following such lesions. In contrast, electrophysiological responses to direct acting beta-adrenergic or alpha-adrenergic agonists were unchanged following DSP4 treatment. This finding again suggests the lack of any change in postsynaptic sensitivity. The results of this study demonstrate that while the potent noradrenergic neurotoxin DSP4 is able to reduce NE concentrations significantly in noradrenergic target regions in brain, these lesions are not necessarily associated with postsynaptic changes in adrenergic systems.

Increase in muscarinic acetylcholine receptors in mouse intestine by hexamethonium treatment

The effects of hexamethonium (C6) administration on muscarinic acetylcholine receptors (mACh-R) in the intestine and brain of mice were investigated. Mice were treated with C6 with an osmotic mini-pump (330 mg/kg/day) for one week and then the binding of 3H-quinuclidinylbenzilate (3H-QNB) in the intestine and brain were assayed. This treatment increased the maximum specific binding (Bmax) of 3H-QNB from 160 to 320 fmoles/mg protein in the ileum and from 190 to 340 fmoles/mg protein in the rectum, without affecting the KD values in these regions. On the contrary, C6 treatment did not change the Bmax or KD value in brain tissues. This C6 treatment increased the sensitivity of the contractile response of the intestine to muscarinic agonists, possibly by increasing mACh-R.

Characterization of beta-adrenergic receptor subtypes in androgen-induced mouse kidney hypertrophy using a new high-affinity ligand, [125I]iodocyanopindolol

In fully developed androgen-induced hypertrophy of female mouse kidney, beta-adrenergic receptors per unit membrane protein were increased approx. 2.5-fold, as measured by the binding of [125I]iodocyanopindolol, with no change in apparent dissociation constants (Kd range 20-25 pM). Membrane protein relative to total kidney protein, Na+/K+-dependent ATPase (EC 3.6.1.3) and 5'-nucleotidase (EC 3.1.3.5) activities and cholesterol content per unit membrane protein did not differ significantly in preparations from control and treated animals. The binding of iodocyanopindolol to kidney membranes was characterized with respect to association and dissociation kinetics, and also in regard to the less-specific contributions of other major catecholamine or indolamine receptors, using mixtures of the corresponding specific competitors. beta 1-selective drugs, practolol and metoprolol, and beta 2-selective agents, IPS-339 and zinterol, were competed with iodocyanopindolol to assess the receptor type specificity, and the ensuing binding profiles were dissected by a nonlinear regression analysis as described by Munson, P.J. and Rodbard, D. (Anal. Biochem. (1982) 107, 220-239). Most of the androgen-induced beta-adrenergic receptors had the binding properties corresponding to beta 2-subtype. No consistent increase in the density of beta 1-adrenergic receptors could be shown.

Prenatal amphetamine reduces alpha but not beta adrenergic receptor binding in brain of adult rats

Adult offspring of rats treated with daily injection of d, 1-amphetamine sulfate (0.5 mg/kg s.c.) during pregnancy showed a significant decrease in brain alpha but not beta adrenergic receptor binding, without apparent changes in receptor affinity. This change may be a consequence of long lasting alterations in the metabolism of brain catecholamines produced by amphetamine administration at fetal age, and may account for the behavioral alterations described in these animals.

Facilitation of shock-induced fighting in the rat after DSP-4, a selective noradrenergic neurotoxin

Rats treated with DSP-4 showed a marked enhancement of shock-induced fighting (SIF). Administration of 1-propranolol attenuated or completely counteracted SIF in control animals, but only the highest dose (10 mg/kg) of this beta-adrenergic antagonist was effective in reducing SIF in DSP-4 animals. Other behavioral experiments indicated that the responsiveness of DSP-4 rats to dopaminergic, serotoninergic, and cholinergic agonists was unchanged compared to that of control rats. The results confirm the participation of the noradrenergic system in SIF, and substantiate an involvement of beta-adrenergic receptors in this kind of aggression.

Treatment of chronic orthostatic hypotension with ergotamine

The acute and chronic effects of ergotamine were examined in four patients with chronic orthostatic hypotension. Chronic oral administration of ergotamine tartrate produced significant increases in standing blood pressure and marked clinical improvement, without appreciable recumbent hypertension. The blood pressure increases were not associated with significant changes in plasma norepinephrine or plasma renin activity. No major toxicity was observed at doses of 2-6 mg/day over treatment periods of 3-18 months. Hemodynamic studies on the effects of i.v. ergotamine tartrate (0.25-0.50 mg) revealed that the ergotamine-induced increase in blood pressure in the supine position was associated with an increase in total peripheral resistance (from 1616 +/- 165 to 2574 +/- 583 U) without a change in cardiac output. During 45-60 degrees upright tilt, ergotamine increased both total peripheral resistance (1801 +/- 296 to 3262 +/- 1107 U) and cardiac output (2.42 +/- 0.46 to 3.34 +/- 0.54 l/min). Forearm plethysmographic studies revealed decreased forearm blood flow and venous volume and increased vascular resistance with ergotamine. The orthostatic hypotensives had more platelet alpha-receptors (390 +/- 31 receptors/cell) than the control subjects (234 +/- 17 receptors/cell). The increased receptor level was associated with abnormally low circulating levels of norepinephrine and increased pressor responsiveness to infused norepinephrine in three of the four patients. Chronic ergotamine therapy appeared to reduce platelet alpha-receptor number to normal. The results indicate that ergotamine is of value in certain patients with chronic orthostatic hypotension and that the blood pressure effects are related to vasoconstriction in both arterial and venous beds.

Effect of 6-hydroxydopamine lesions on norepinephrine-induced [3H]glycogen hydrolysis in mouse cortical slices

The effects of norepinephrine (NE) on in vitro [3H]glycogenolysis were assessed in slices of cerebral cortex from mice whose cortical noradrenergic innervation had been severely reduced by intracisternal 6-hydroxydopamine (6-OHDA) injections. A supersensitive response to NE was observed, as demonstrated by a decrease in the EC50 of the catecholamine in the lesioned mice from 533 +/- 88 nM to 39.3 +/- 7.9 nM. This supersensitive response, observed two weeks after the lesion, was post-synaptic since isoproterenol, a beta-adrenergic agonist not accumulated by pre-synaptic uptake mechanisms, also gave an equally supersensitive response.

Behavior and binding: correlations between alpha 1-adrenergic stimulation of acoustic startle and alpha 1-adrenoceptor occupancy and number in rat lumbar spinal cord

The relationship between alterations in alpha 1-adrenoceptors and behavioral effects of alpha 1-adrenergic agonists were investigated in a localized region of the rat central nervous system. Direct infusion of the alpha 1-adrenergic agonists, D-amphetamine or phenylephrine. into the subarachnoid space of the lumbar cord (intrathecal administration) increased the amplitude of the acoustic startle reflex, The magnitude of this behavioral facilitation correlated highly with the degree of alpha 1-adrenoceptor occupation measured by [3H]prazosin binding in lumbar spinal tissue. Using an in vitro estimate of receptor occupation, maximal potentiation of startle occurred following approximately 30% occupation of the receptors, using either D-amphetamine or phenylephrine. Intrathecal administration of 6-OHDA produced a 95% decrease in spinal norepinephrine and markedly enhanced the behavioral response to intrathecal phenylephrine as well as the number of alpha 1-adrenoceptors. The correlation between the time course of the behavioral and binding changes was 0.99. No change in receptor affinity (KD) or receptor occupation by phenylephrine was found after 6-OHDA. The data indicate that receptor binding parameters do have predictive value for behavior, especially if localized regions of the nervous system, critical to the behavior, are analyzed.