In Vivo Measurement of Extracellular Cyclic AMP in the Brain: Use in Studies of β-Adrenoceptor Function in Nonanesthetized Rats

Microdialysis measurement of extracellular cyclic AMP (cAMP) in the cerebral cortex of conscious rats was evaluated as a method for assessing central beta-adrenoceptor function in vivo. Extracellular levels of the nucleotide were found to average 3 pmol/ml under baseline conditions. Local infusion of the beta-agonists norepinephrine (NE) and isoproterenol produced rapid (3 min) and marked (three- to sevenfold) dose-dependent increases in extracellular cAMP, which were potentiated by the phosphodiesterase inhibitor rolipram, and blocked by the beta-antagonist timolol. Responses to both catecholamines underwent rapid desensitization (6-9 min) and recovered within several hours. Time-course studies revealed that the baseline cAMP level underwent a gradual increase and then a decrease over the course of a single 8-h run, and peaked at 24 h postimplantation. Responses to NE were stable for the first 24 h after implantation, then increased at 48 and 120 h. The causes of the latter changes may include reactions to novelty, local inflammatory responses, and/or reactions of adjacent glial cells to implantation. Overall, the results indicate that the microdialysis-cAMP method can be extended to nonanesthetized animals and may be a useful tool for studying neurotransmission at central adenylate cyclase-coupled membrane receptors during various behavioral states.     

In Vivo Evidence that Nonneuronal β-Adrenoceptors as Well as Dopamine Receptors Contribute to Cyclic AMP Efflux in Rat Striatum

Abstract: We applied in vivo microdialysis to assess the effects of dopaminergic and β-adrenergic receptor stimulation on cyclic AMP efflux in rat striatum under chloral hydrate anesthesia. Dopamine (up to 1 mM) infused for 20 min through the probe did not increase cyclic AMP, whereas both the selective dopamine D₁ agonist SKF 38393 and D₂ antagonist sulpiride produced modest increases. It is interesting that the β-adrenoceptor agonist isoproterenol produced a marked increase (204.7% of basal level at 1 mM) which was antagonized by the β-adreno-ceptor antagonist propranolol. Pretreatment with a glial selective metabolic inhibitor, fluorocitrate (1 mM), by a 5-h infusion through the probe attenuated basal cyclic AMP efflux by 30.3% and significantly blocked the response to isoproterenol. By contrast, striatal injection of a neuro-toxin, kainic acid (2.5 μg), 2 days before the dialysis experiment did not affect basal cyclic AMP or the response to isoproterenol, but blocked the response to SKF 38393. These data demonstrate that β-adrenoceptors as well as dopamine receptors contribute to cyclic AMP efflux in rat striatum in vivo. They also suggest that basal and β-adre-noceptor-stimulated cyclic AMP efflux are substantially dependent on intact glial cells.     

No Role for Phospholipase A2 and Protein Kinase C in the Potentiation by α-Adrenoceptors of β-Adrenoceptor-Mediated Cyclic AMP Formation in Rat Brain

This study was undertaken to examine the role of phospholipase A2 and protein kinase C in the potentiation of beta-adrenoceptor-mediated cyclic AMP formation by alpha-adrenoceptors in rat cerebral cortical slices. Inhibition of arachidonic acid metabolism by a range of cyclooxygenase and lipoxygenase inhibitors had no effect on the potentiation of isoprenaline-stimulated cyclic AMP. Conversely, stimulation of leukotriene formation had no effect on the response to isoprenaline. The phospholipase A2 activator, melittin, stimulated cyclic AMP and potentiated the effect of isoprenaline, but these responses were not influenced by cyclooxygenase or lipoxygenase inhibitors. Indomethacin was also ineffective against the potentiation of vasoactive intestinal peptide-stimulated cyclic AMP by noradrenaline. Phorbol ester potentiated the cyclic AMP response to isoprenaline, and this potentiation was antagonized by three different putative protein kinase C inhibitors. However, the same inhibitors did not affect the alpha-adrenoceptor-stimulated enhancement of the response to isoprenaline. We have found no evidence, therefore, to support the suggestion that arachidonic acid and its metabolites and/or protein kinase C mediate the alpha-adrenoceptor modulation of beta-adrenoceptor function.     

[3H]Diprenorphine Binding to k-Sites in Guinea-Pig and Rat Brain: Evidence for Apparent Heterogeneity

The binding of the unselective opioid antagonist [3H]diprenorphine to homogenates prepared from rat brain and from guinea-pig brain and cerebellum has been studied in HEPES buffer containing 10 mM Mg2+ ions. Sequential displacement of bound [3H]diprenorphine by ligands with selectivity for mu-, delta-, and kappa-opioid receptors uncovers the multiple components of binding. In the presence of cold ligands that occupy all mu-, delta-, and kappa-sites, opioid binding still remains. This binding represents 20% of total specific sites and is displaced by naloxone. The nature of these undefined opioid binding sites is discussed.     

Striatal Dopamine Release In Vitro: A β-Adrenoceptor-Regulated Response Not Mediated Through Cyclic AMP

The effects of (-)isoproterenol (10(-6) M), dibutyryl cyclic AMP (10(-3) M), and the phosphodiesterase inhibitor 3-isobutyl-l-methylxanthine (IBMX) (10(-4) M) on in vitro [3H]dopamine ([3H]DA) efflux and synthesis were studied in rat striatal slices continuously superfused with [3H]tyrosine. The beta-adrenoceptor agonist (-)isoproterenol induced an immediate and significant facilitation of [3H]DA efflux but did not alter [3H]DA synthesis as measured by [3H]H2O formation. In contrast, both dibutyryl cyclic AMP and IBMX enhanced [3H]DA synthesis as well as efflux. The presence of IBMX in the superfusing medium did not potentiate the augmentation of [3H]DA efflux caused by (-)isoproterenol. Additionally, the blockade of [3H]DA synthesis by alpha-methyl-p-tyrosine (10(-4) M) completely prevented the action of dibutyryl cyclic AMP on [3H]DA efflux. However, under similar conditions, (-)isoproterenol was still able to increase [3H]DA efflux. The results suggest that (-)isoproterenol can modify striatal DA release through a mechanism not involving cyclic AMP.     

Effect of Adrenocorticotropin Administration on β-Adrenergic Receptor Adaptations in Rat Brain Cerebral Cortex

It has been reported that adrenocorticotropin (ACTH) administration reduces the time necessary for observing the imipramine-induced decline in beta-adrenergic receptor binding and function in rat brain frontal cortex. This interaction was examined in the present study following the destruction of the dorsal noradrenergic bundle in an attempt to determine whether the hormone treatment influences pre- or postsynaptic activity to facilitate the receptor response. Lesioning completely prevented the decline in beta-receptor binding normally observed following treatment with the drug combination. In fact, the number of cerebral cortical beta-adrenergic receptor binding sites was significantly greater in lesioned animals receiving ACTH than in lesioned controls. Lesioning significantly increased the amount of cyclic AMP produced in response to a saturating concentration of norepinephrine, an effect that was not influenced by ACTH treatment. These findings suggest that ACTH administration modifies the norepinephrine-stimulated cyclic nucleotide system indirectly, perhaps through an action on presynaptic neurons, whereas the effect on receptor recognition site number may be due to a direct action on the postsynaptic cell.     

Effect of β-FNA on Opiate δ Receptor Binding

Abstract: (β-FNA, the β -fumaramate methyl ester of naltrexone, has been shown to antagonize irreversibly the actions of morphine on the guinea pig ileum and mouse vas deferens bioassays but does not affect the actions of δ-receptor ligands on the mouse vas deferens bioassay, suggesting that the compound does not irreversibly bind to the S receptor. In this paper we examine the effect of (β -FNA on the binding of the prototypic δ agonists, Leuenkephalin and d -Ala²- d -Leu⁵-enkephalin, its metabolically stable analogue, and show that treatment of membranes with β -FNA does lead to alterations in the in vitro properties of δ receptors.     

Changes in β-Adrenergic Receptor Subtypes in Alzheimer-Type Dementia

Using ligand binding techniques, we studied beta-adrenergic receptor subtypes in brains obtained at autopsy from seven histologically normal controls and seven histopathologically verified cases with Alzheimer-type dementia (ATD). Inhibition of [3H]dihydroalprenolol [( 3H]DHA) binding by the selective beta 1 antagonist, metoprolol, results in nonlinear Hofstee plots, suggesting the presence of the two receptor subtypes in the human brain. The calculated ratios of beta 1/beta 2-adrenergic receptors in control brains are as follows: frontal cortex, 49:51; temporal cortex, 31:69; hippocampus, 66:34; thalamus, 23:77; putamen, 70:30; caudate, 48:52; nucleus basalis of Meynert (NbM), 43:57; cerebellar hemisphere, 25:75. Compared with the controls, total concentrations of beta-adrenergic receptors were significantly reduced only in the thalamus of the ATD brains. beta 1-Adrenergic receptor concentrations were significantly reduced in the hippocampus and increased in the NbM and cerebellar hemisphere, whereas beta 2-adrenergic receptor concentrations were significantly reduced in the thalamus, NbM, and cerebellar hemisphere and increased in the hippocampus and putamen of the ATD brains. These results suggest that beta 1- and beta 2-adrenergic receptors are present in the human brain and that there are significant changes in both receptor subtypes in selected brain regions in patients with ATD.     

Guanine Nucleotide Regulation of [125I]β-Endorphin Binding to Rat Brain Membranes: Monovalent Cation Requirement

The binding of [125I]beta h-endorphin to rat brain membranes was investigated in the presence of GTP and guanylyl-5'-imidodiphosphate. In contrast to the binding of the mu-selective opioid agonist, [3H][D-Ala2,MePhe4,Glyol5]enkephalin, and the delta-selective opioid agonist, [3H][D-penicillamine2, D-penicillamine5]enkephalin, [125I]beta h-endorphin binding was not affected by GTP or guanylyl-5'-imidodiphosphate in a concentration-dependent manner in the absence of cations. However, in the presence of NaCl, the inclusion of either GTP or guanylyl-5'-imidodiphosphate resulted in a concentration-dependent inhibition of [125I]beta h-endorphin binding. This inhibition was significantly greater than the decrease in [125I]beta h-endorphin binding observed in the presence of sodium alone. Although GTP most potently inhibited [125I]beta h-endorphin binding in the presence of sodium, inhibition of [125I]beta h-endorphin binding by GTP was also observed in the presence of the monovalent cations lithium and potassium, but not the divalent cations magnesium, calcium, or manganese. The effect produced by GTP in the presence of NaCl was mimicked by GDP, but not by GMP or other nucleotides. Unlike [125I]beta h-endorphin, the binding of the putative sigma receptor agonist, (+)-[3H]SKF 10,047, was not significantly altered by GTP or guanylyl-5'-imidodiphosphate in the absence or presence of sodium.     

γ-Aminobutyric AcidB Receptor Activation Modifies Agonist Binding to β-Adrenergic Receptors in Rat Brain Cerebral Cortex

The interaction of isoproterenol with beta-adrenergic receptor (beta AR) binding sites was measured in membranes prepared from rat brain cerebral cortical slices previously incubated in the presence or absence of gamma-aminobutyric acid (GABA) receptor agonists. Both GABA and baclofen, but not isoguvacine, altered beta AR agonist binding by increasing the affinity of both the low- and high-affinity binding sites and by increasing the proportion of low-affinity receptors. The response to baclofen was stereoselective, and the effect of GABA was not inhibited by bicuculline. The results suggest that GABAB, but not GABAA, receptor activation modifies the coupling between beta AR and stimulatory guanine nucleotide-binding protein, which may in part explain the ability of baclofen to augment isoproterenol-stimulated cyclic AMP accumulation in brain slices.     

Role of Cyclic GMP in the Regulation of Neuronal Calcium and Survival by Secreted Forms of β-Amyloid Precursor

Abstract: The Alzheimer's disease (AD) β-amyloid precursor proteins (βAPPs) are large membrane-spanning proteins that give rise to the βA4 peptide deposited in AD amyloid plaques. βAPPs can also yield soluble forms (APP^ss) that are potently neuroprotective against glucose deprivation and glutamate toxicity, perhaps through their ability to lower the intraneuronal calcium concentration ([Ca²⁺]_i). We have investigated the mechanism through which APP^ss exert these effects on cultured hippocampal neurons. The ability of APP^ss to lower rapidly [Ca²⁺]_i was mimicked by membrane-permeable analogues of cyclic AMP (cAMP) and cyclic GMP (cGMP), as well as agents that elevate endogenous levels of these cyclic nucleotides. However, only cGMP content was increased by APP^s treatment, and specific inhibition of cGMP-dependent protein kinase (but not cAMP-dependent kinase) blocked the activity of APP^ss. A membrane-permeable analogue of cGMP (8-bromo-cGMP) also mimicked the ability of APP^ss to attenuate the elevation of [Ca²⁺]_i by glutamate, apparently through inhibition of NMDA receptor activity. In addition, 8-bromo-cGMP afforded protection against glucose deprivation and glutamate toxicity, and the protection by APP^ss against glucose deprivation was blocked by an inhibitor of cGMP-dependent kinase. Together, these data suggest that APP^ss mediate their [Ca²⁺]_i-lowering and excitoprotective effects on target neurons through increases in cGMP levels.     

Differential Involvement of the Arachidonic Acid Cascade on the α1-Adrenergic Potentiation of Vasoactive Intestinal Peptide-Versus β-Adrenergic-Stimulated Cyclic AMP and Cyclic GMP Accumulation in Rat Pinealocytes

In the rat pineal gland, alpha 1-adrenergic agonists, which stimulate arachidonic acid release, also potentiate vasoactive intestinal peptide (VIP)- or beta-adrenergic-stimulated cyclic AMP (cAMP) and cyclic GMP (cGMP) accumulation. In this study, the possible involvement of the arachidonic acid pathway in the potentiation mechanism was examined in dispersed rat pinealocytes using two inhibitors of the arachidonic acid cascade, indomethacin and nordihydroguaiaretic acid. These two inhibitors appeared to have differential effects on the alpha 1-adrenergic potentiation of VIP- or beta-adrenergic-stimulated cAMP and cGMP responses. Whereas nordihydroguaiaretic acid was effective in suppressing both the alpha 1-adrenergic potentiation of VIP- or beta-adrenergic-stimulated cAMP and cGMP responses, indomethacin inhibited selectively the VIP-mediated cAMP and cGMP responses. The role of arachidonic acid metabolites was further determined using several prostaglandins--A2, I2, E2, and F2 alpha--and leukotrienes--B4, C4, and D4. Of the seven compounds tested, prostaglandins E2 and F2 alpha stimulated basal cAMP but not cGMP accumulation. The prostaglandin E2- and F2 alpha-stimulated cAMP responses were additive to those stimulated by VIP or beta-adrenergic receptors. The other five compounds had no effects on basal or VIP- or beta-adrenergic-stimulated cAMP or cGMP accumulation. Taken together, these findings indicate that the arachidonic acid cascade is likely involved in the alpha 1-adrenergic potentiation of VIP- or beta-adrenergic-stimulated cAMP and cGMP accumulation. However, the specific arachidonic acid metabolite involved in the potentiation mechanisms of VIP- versus beta-adrenergic-stimulated cyclic nucleotide responses may be different.     

β-Adrenergic Binding Sites in Fetal Rat Brain

Abstract: The ontogeny of β-adrenergic binding sites was studied in forebrain homogenates from male and female rats. Specific [³H]dihydroalprenolol binding was defined by the difference between binding in the presence and in the absence of 330 n M (+)oxprenolol. Significant binding was detected at prenatal stages. The dissociation constants ( K _D of [³H]dihydroalprenolol binding were similar at gestational day (GD) 19^3/4 and postnatal day (PN) 31. Binding was first detected in forebrain at GD 15^3/4. The amount of binding sites increased until PN 31, when adult values were reached. No sex differences could be detected at any of the stages tested (GD 19^3/4-PN 31).     

N-Acetylation of Serotonin Is Correlated with α2- but Not with β-Adrenergic Regulation of Cyclic AMP Levels in Cultured Chick Pineal Cells

We investigated the role of cyclic AMP (cAMP) in alpha 2- and possible beta-adrenergic regulation of arylalkylamine-N-acetyltransferase (NAT), the penultimate enzyme in the biosynthesis of melatonin. The study was performed on primary cultures of dispersed chick pineal cells. Electron microscopy indicated that approximately 70% of the dispersed cells were modified photoreceptors. A similar proportion of melatoninergic cells was detected by immunocytochemical labeling of hydroxyindole-O-methyltransferase, the final enzyme in the biosynthesis of melatonin. Adrenergic agonists caused a sustained 50% inhibition of forskolin-augmented cAMP levels and NAT activity, with an alpha 2-adrenergic potency order of UK 14,304 greater than or equal to clonidine greater than norepinephrine greater than phenylephrine. Noradrenergic inhibition of 3-isobutyl-1-methylxanthine-augmented cAMP levels and NAT activity was reversed by yohimbine (an alpha 2-adrenergic antagonist) but not by prazosin (an alpha 1-adrenergic antagonist). The alpha-adrenergic inhibition of cAMP accumulation and NAT activity was prevented by pertussis toxin. Addition of propranolol (a beta-adrenergic antagonist) was necessary to observe an inhibitory effect of norepinephrine on cAMP levels but not on NAT activity. Similarly, the beta-adrenergic agonist isoproterenol transiently increased cAMP levels but did not affect NAT activity. The data indicate that the alpha 2-adrenergic inhibition of NAT activity in chick pineal cells is strongly correlated with an inhibition of cAMP accumulation. The lack of beta-adrenergic effect on NAT suggests that beta-adrenoceptors might be on a subset of cells that do not produce melatonin or that the beta-adrenergic-induced increase in cAMP levels is too transient to affect NAT.     

Forskolin and 3-Isobutyl-l-Methylxanthine Increase Basal and Sodium Nitroprusside-Elevated Cyclic GMP Levels in Adult Guinea-Pig Cerebellar Slices

Abstract: In this study, the interaction between 3′,5′-cyclic adenosine monophosphate (cAMP) and 3′,5′-cyclic guanosine monophosphate (cGMP) in [³H]adenine-or [³H]-guanine-prelabelled adult guinea-pig cerebellar slices was investigated. Basal levels of [³H]cGMP were enhanced by forskolin, although no plateau was reached over the concentration range tested (0.1-100 μM). However, forskolin elicited a concentration-dependent, saturable potentiation of sodium nitroprusside (SNP)-stimulated [³H]cGMP accumulation (forskolin EC₅₀ value of 0.98 β 0.23 μM; 10 μM forskolin produced a 1.8 β 0.3-fold potentiation of the SNP response at 2.5 min). The forskolin potentiation was observed at all concentrations of SNP tested (0.001-10 mM). forskolin also elicited a large stimulation of [³H]-cAMP in [³H]adenine-prelabelled guinea-pig cerebellar slices; however, 1,9-dideoxyforskolin failed to elicit either a [³H]cAMP response or a potentiation of the SNP-induced [³H]cGMP response at concentrations up to 100 μM. Pretreatment with oxyhaemoglobin (50 μM) inhibited the response to SNP (1 mM) and forskolin (10 μM), as well as the response evoked by the combination of SNP and forskolih. A^G-Nitro-l -arginine (100 μM) inhibited the response to forskolin alone, but did not change the response to SNP or the potentiation induced by forskolin on SNP-induced [³H]cGMP levels. The protein kinase inhibitors 1-(5-isoquinolinesulfonyl)-2-methylpiperazine (H7; 100 μM), staurosporine (10 μM), polymyxin B (100 μM), and Ro 31-8220 (10 μM) had no effect on the [³H]cGMP response to either SNP or the combination of SNP plus forskolin. N⁶,2′-Dibutyryl cAMP, at concentrations up to 10 mM, was also without effect on [³H]cGMP levels induced by SNP. 3-lso-butyl-1-methylxanthine reproduced the effect of forskolin on SNP-induced [³H]cGMP levels, but a less-than-additive effect was observed when the response to SNP was studied in the presence of forskolin and 3-isobutyl-1-methylxanthine. Taken together, these results infer that crosstalk between cyclic nucleotides takes place in guinea-pig cerebellar slices, and that cAMP may regulate cGMP-mediated responses in this tissue.     

Ca2+-Guanine Nucleotide Interactions in Brain Membranes. II. Characteristics of [3H]Guanosine Triphosphate and [3H]β, γ-Imidoguanosine 5'-Triphosphate Binding and Catabolism in the Rat Hippocampus and Striatum

Abstract: With [³H]guanosine triphosphate ([³H]GTP) and [³H]β, γ -imidoguanosine 5′-triphosphate ([³H]GppNHp) as the labelled substrates, both the binding and the catabolism of guanine nucleotides have been studied in various brain membrane preparations. Both labelled nucleotides bound to a single class of noninteracting sites (K_D= 0.1-0.5 μm ) in membranes from various brain regions (hippocampus, striatum, cerebral cortex). Unlabelled GTP, GppNHp, and guanosine diphosphate (GDP) but not guanosine monophosphate (GMP) and guanosine competitively inhibited the specific binding of [³H]guanine nucleotides. Calcium (0.1–5 mm ) partially prevented the binding of [³H]GTP and [³H]GppNHp to hippocampal and striatal membranes. This resulted from both an increased catabolism of [³H]GTP (into [³H]guanosine) and the likely formation of Ca-guanine nucleotide^2- complexes. The blockade of guanine nucleotide catabolism was responsible for the enhanced binding of [³H]GTP to hippocampal membranes in the presence of 0.1 mm -ATP or 0.1 mm -GMP. Striatal lesions with kainic acid produced both a 50% reduction of the number of specific guanine nucleotide binding sites and an acceleration of [³H]GTP and [³H]GppNHp catabolism (into [³H]guanosine) in membranes from the lesioned striatum. This suggests that guanine nucleotide binding sites were associated (at least in part) with intrinsic neurones whereas the catabolising enzyme(s) would be (mainly) located to glial cells (which proliferate after kainic acid lesion). The characteristics of the [³H]guanine nucleotide binding sites strongly suggest that they may correspond to the GTP subunits regulating neurotransmitter receptors including those labelled with [³H]5-hydroxytryptamine ([³H]5-HT) in the rat brain.     

A Method to Measure Simultaneously Cyclic AMP and Inositol Phosphate Accumulation in Rat Brain Slices

The simultaneous measurement of the accumulation of cyclic AMP and inositol phosphates in rat cerebral cortical slices is described. After stimulation, the separation of cyclic AMP and inositol phosphates was achieved using ion-exchange chromatography and their concentrations were determined by means of a double-labeling technique, the substrates adenine and inositol being labeled with 14C and 3H, respectively. The recoveries were 70-80% for inositol phosphates and 40-50% for cyclic AMP. To test the applicability of the method, norepinephrine was chosen as an agonist, because it is known to stimulate the production of these two second messengers by interacting with alpha- and beta-adrenergic receptors. This procedure is an improvement over existing methods, because we obtained the simultaneous formation of 3H-inositol phosphates and [14C]cyclic AMP in a concentration-dependent process. EC50 values were similar for the two, 8.5 +/- 3.9 microM for 3H-inositol phosphates and 20.2 +/- 6.3 microM for [14C]cyclic AMP, and close to the values obtained when each process was studied alone. The action of adrenergic antagonists was also tested. Propranolol blocked the norepinephrine stimulation of [14C]cyclic AMP, but did not inhibit the norepinephrine stimulation of 3H-inositol phosphates. The opposite results were observed with prazosin. Our results suggest that this method could be a useful tool to examine the interaction between these two receptor-coupled effectors.     

Methyl 3β-(4-[125I]Iodophenyl)Tropane-2β-Carboxylate In Vitro Binding to Dopamine and Serotonin Transporters Under "Physiological" Conditions

Abstract: Methyl 3β-(4-[¹²⁵I]iodophenyl)tropane-2β-carboxylate ([¹²³I]β-CIT) is a single photon emission computed tomographic radiotracer for in vivo labeling of dopamine (DA) and serotonin (5-HT) transporters. Single photon emission computed tomographic experiments in nonhuman primates showed that [¹²³I]β-CIT in vivo binding to DA transporters had a much slower washout than binding to 5-HT transporters. This observation was not predicted from previously published in vitro studies. These studies, performed at 22°C in nonphysiological buffer, reported similar affinity of [¹²⁵I]β-CIT for DA and 5-HT transporters. We now report [¹²⁵I]β-CIT binding parameters to fresh rat membranes at 22°C and 37°C, in a buffer mimicking the composition of cerebrospinal fluid. At both temperatures, binding to DA transporters was best fit by a twosite model, whereas binding to 5-HT transporters was compatible with one population of sites. At 22°C, [¹²⁵I]β-CIT showed similar affinity to high-affinity DA (0.39 n M ) and 5-HT transporter sites (0.47 n M ). Increasing the incubation temperature from 22°C to 37°C reduced binding to DA transporters by 60%, whereas binding to 5-HT transporters was only marginally affected. In vitro kinetic experiments failed to detect significant differences in on or off rates that could explain the observed in vivo kinetics. These experiments thus failed to explain [¹²³ I]β-CIT in vivo uptake kinetics, suggesting the existence of specific factors affecting the in vivo situation.     

Purification and Properties of Bovine Brain Dopamine β-Hydroxylase

Abstract: Dopamine β-hydroxylase (DBH) was purified from bovine brain by a series of steps including extraction with 0.5% Triton X-100, ammonium sulfate fractionation, and serial chromatographies with Concanavalin A (Con A)-Sepharose, Biogel A-1.5 m, DEAE-Sephadex, and phenyl-Sepharose. The overall purification was approximately 4200-fold and the final specific activity was 147 nmol/min/mg protein. Bovine brain DBH was apparently a glycoprotein and interacted with immobilized Con A. Furthermore, the enLyme bound to phenyl-substituted agarose by hydrophobic interaction. An approximate molecular weight was estimated to be 400,000 by gel filtration; the protein eluted earlier than bovine adrenal DBH with a molecular weight estimated to be 290,000. The K_m values toward tyramine and ascorbate were 1.53 and 1.42 mM, respectively, the optimal pH was 5.0 in the presence of 20 mM tyramine as substrate. Immunological titration studies indicated that bovine brain and adrenal DBH had common antigenic sites. Our data showed a close similarity between the bovine brain and adrenal enzymes.