Distribution of 14C-sucrose applied to leaves at different nodes of okra (Abelmoschus esculentum) during flowering and early pod growth

The distribution pattern of ¹⁴C-sucrose from ¹⁴C-sucrose applied to vegetative okra plants and leaves 1–9 on separate plants during the green pod development stage were investigated in relation to duration and leaf position. Results indicated bi-directional transport of assimilates to both apical and basal portions of the stem. Within 48 h ¹⁴C moved to all plant parts; stem and leaves appeared to be strong sinks. In plants fed at the vegetative stage, 48 h after feeding, 66% of the fed activity was exported from the fed leaf. At the pod development stage, about 35% of the activity exported from the fed leaf was present in green pods and 65% in vegetative parts. In plants where leaf 1–9 was fed, irrespective of the position of the fed leaf, the subtending fruit was the strongest sink among the reproductive parts. Leaves and stems were the principal sinks.     

Formation and Utilization of the Active Sulfate Donor [35S]3'-Phosphoadenosine 5'-Phosphosulfate in Brain Slices: Effects of Depolarizing Agents

Abstract: The accumulation and utilization of [³⁵S]3'-phos-phoadenosine 5'-phosphosulfate (PAPS) were studied in slices from rat cerebral cortex incubated in the presence of inorganic [³⁵S]sulfate. [³⁵S]PAPS levels were directly evaluated after either isolation by ion-exchange chromatography or quantitative enzymatic transfer of its active [³⁵S]sulfate group to an acceptor phenol under the action of added phenolsulfotransferase activity. [³⁵S]PAPS formation was also indirectly followed by incubating slices in the presence of β-naphthol and measuring the levels of [³⁵S]β-naphthyl sulfate ([³⁵S]β-NS). Whereas [³⁵S]PAPS levels rapidly reached a plateau, [³⁵S]β-NS formation proceeded linearly with time for at least 1h, an observation indicating that the nucleotide was continuously synthesized and utilized for endogenous sulfation reactions. [³⁵S]PAPS formation in ices was completely and rather potently blocked by 2,6-dichloro-4-nitrophenol (IC₅₀= .10 μM), an inhibitor of the PAPS-synthesizing enzyme system in a cytosolic preparation. [³⁵S]PAPS accumulation and [³⁵S]β-NS'formation were strongly reduced by depolarizing agents such as potassium or veratridine. At millimolar concentrations, various excitatory amino acids (glutamate, aspartate, cysteate, quisqualate, and homocysteate) also elicited similar effects, whereas kainate and N -methyl-D-aspartate were inactive. This suggests that PAPS synthesis is turned off when cerebral cells are strongly depolarized.     

Inhibition of sulphur redistribution into new leaves of vegetative soybean by excision of the maturing leaf

When soybean plants are pulsed with [³⁵S]sulphate, label is subsequently redistributed from the roots to the leaves. This confounds studies to measure the redistribution of label from leaves. Accordingly, soybean plants ( Glycine max [L.] Merr. cv. Stephens) were grown in 20 μ M sulphate and a small portion of the root system (donor root) was pulsed with [³⁵S]sulphate for 24 h. After removing the donor root, the plants were transferred into unlabelled solution, either without sulphate (S20→SO) or with 20 μ M sulphate (S20→20) (intact plants). Also at this time, the expanding leaf (L3) was excised from half of the plants in each treatment (excised plants). Immediately after the pulse, only ca 15% of the label occurred in the roots and ca 40% in the expanding leaf, L3, mostly in the soluble fraction. In intact S20→20 plants, ³⁵S-label was exported from the soluble fraction of L3, mostly as sulphate, whilst L4 and L5 imported label. Similar responses occurred in S20→SO plants except that export of label from L3 was more rapid. Excision of L3 from S20→S20 plants inhibited labelling of leaves L4-L6 but not total sulphur, whereas in S20→SO plants, excision of L3 inhibited the import of both total sulphur and ³⁵S-label in leaves L4, L5 and L6. The data suggest that the soluble fraction of almost fully expanded leaves is an important reserve of sulphur for redistribution to growing leaves. The ³⁵S-label in the root system exhibited fluctuations consistent with its proposed role in the recycling of soluble sulphur from the leaves.     

Characterization, Distribution, and Protein Kinase C-Mediated Regulation of [35S]Glutathione Binding Sites in Mouse and Human Spinal Cord

Abstract: We have characterized a high-affinity [³⁵S]-glutathione ([³⁵S]GSH) binding site in mouse and human spinal cord. [³⁵S]GSH binding sites in mouse and human spinal cord were observed largely within the gray matter in both the dorsal and ventral horns of spinal cord at cervical, thoracic, and lumbosacral segments. High-affinity [³⁵S]GSH binding was saturable, showing a B _max of 72 fmol/mg of protein and a K _D of 3.0 n M for mouse spinal cord and a B _max of 52 fmol/mg of protein and a K _D of 1.6 n M for human spinal cord. [³⁵S]GSH binding was displaceable by GSH, l -cysteine, and S -hexyl-GSH, but not by glutamate, glycine, or NMDA. These [³⁵S]GSH binding sites exhibited kinetic and saturation characteristics similar to GSH binding sites in rat brain astrocytes. To determine whether [³⁵S]GSH binding sites could be regulated by protein kinase C, we exposed human spinal cord sections to phorbol 12,13-diacetate for 1 h before ligand binding. Phorbol ester treatment increased [³⁵S]GSH binding by ∼60%, an effect that could be blocked by exposure of spinal cord sections to 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine, a general protein kinase inhibitor. [³⁵S]GSH binding sites in the spinal cord of both species exhibited many of the characteristics of a receptor including saturable binding, high affinity, ligand specificity, and modulation by kinase activity. These data suggest that GSH is a neurotransmitter in the CNS.     

Endomorphin-Stimulated [35S]GTPγS Binding in Rat Brain: Evidence for Partial Agonist Activity at μ-Opioid Receptors

Abstract: Endomorphin-1 is a peptide whose binding selectivity suggests a role as an endogenous ligand at μ-opioid receptors. In the present study, the effect of endomorphin-1 on μ receptor-coupled G proteins was compared with that of the μ agonist DAMGO by using agonist-stimulated [³⁵S]GTPγS binding in rat brain. [³⁵S]GTPγS autoradiography revealed a similar localization of endomorphin-1 and DAMGO-stimulated [³⁵S]GTPγS binding in areas including thalamus, caudate-putamen, amygdala, periaqueductal gray, parabrachial nucleus, and nucleus tractus solitarius. Naloxone blocked endomorphin-1-stimulated labeling in all regions examined. Although the distribution of endomorphin-1-stimulated [³⁵S]GTPγS binding resembled that of DAMGO, the magnitude of endomorphin-1-stimulated binding was significantly lower than that produced by DAMGO. Concentration-effect curves of endomorphin-1 and DAMGO in thalamic membranes confirmed that endomorphin-1 produced only 70% of DAMGO-stimulated [³⁵S]GTPγS binding. Differences in maximal stimulation of [³⁵S]GTPγS binding between DAMGO and endomorphin-1 were magnified by increasing GDP concentrations, and saturation analysis of net endomorphin-1-stimulated [³⁵S]GTPγS binding revealed a lower apparent B _max value than that obtained with DAMGO. Endomorphin-1 also partially antagonized DAMGO stimulation of [³⁵S]GTPγS binding. These results demonstrate that endomorphin-1 is a partial agonist for G protein activation at the μ-opioid receptor in brain.     

Distribution and redistribution of sulphur taken up from nutrient solution during vegetative growth in barley

Barley plants were grown in a nutrient solution containing 25 μ M sulphate and the roots were pulsed with [³⁵S]sulphate for 48-h periods at 6 different times between the emergence of leaf 5 (L5) and the emergence of leaf 8 (L8). Growth was continued in unlabelled solution until the emergence of L10. Within the shoot system sulphur was directed principally into the leaf undergoing expansion. A large proportion of the ³⁵S-label delivered to young expanding leaves (> 40% of full expansion) did not occur at the time of the pulse, but subsequently during the ensuing chase indicating slow redistribution of sulphur from another site. During the later stages of leaf expansion (40–100%), most of the sulphur entered the leaf during the pulse, suggesting that sulphur was delivered more directly from the nutrient solution. Up to 75% of the sulphur delivered to L3–L6 at the time they approached or attained full expansion (70–100%) was re-exported. At least some of the sulphur exported from fully expanded leaves was redistributed to developing leaves.     

Methionine Recycling in Brain: A Role for Folates and Vitamin B-12

Abstract: The recycling of methionine via homocysteine was measured in vivo in brain. After constant intravenous infusions (5 h) of both [³H-methyl] methionine and [³⁵S]methionine into rats, the ratios of [³H-methyl]methionine to [³⁵S]methionine in liver, brain and plasma were determined, Similar experiments were performed in rabbits, except that the [³H-methyl]- and [³S]methionine were injected intraventricularly. If the methyl group of methionine was removed with the formation of homocysteine and then replaced by another (unlabeled) methyl group, the specific activity of the [³H-methyl]methionine would decrease more than that of [³⁵S]methionine; i.e., the ratio of [³H-methyl]- to [³⁵S]methionine in the tissue would decline. The results showed that the ratios of [³H-methyl]- to [³⁵S]methionine in liver and brain were less than the same ratio in plasma in the rats. The comparable ratios in the brain and CSF of rabbits were less than the ratio in the injectate. Since brain contains only one enzyme capable of remethylating homocysteine to methionine, the vitamin B-12–dependent methyltetrahydrofolate-homocysteine methyltransferase (EC 2.1.1.13), our results for methionine recycling via homocysteine in brain strongly support the activity of this enzyme in brain in vivo.     

STUDIES ON THE POLYSACCHARIDE-SULFATING SYSTEM IN SEA URCHIN EMBRYOS

The sulfating system in sea urchin embryos was examined, using the labeled precursor inorganic [³⁵S]sulfate in vivo and [³⁵S]3'-phosphoadenosine 5'-phosphosulfate ([³⁵S]PAPS) in a cell-free system. In vivo incorporation of [³⁵pS]sulfate into the trichloroacetic acid (TCA)-insolubte fraction increased gradually during sea urchin development, whereas radioactivity of [³⁵S]sulfate contained in the TCA-soluble fraction showed a conspicuous peak at the late gastrula stage.
In a cell-free system, the particulate fraction showed marked incorporation of [³⁵pS]JPAPS. This sulfating activity was highest at pH 6.4 to 7.2 and at 27°C, and it was strongly inhibited by Hg ²⁺and p-chloromercuribenzoic acid.
The sulfating activity was quite low in fertilized eggs, but then increased rapidly up to the swimming blastula stage. The activity in the particulate fraction precipitated at 10,000 xg increased gradually and that in the particulate fraction precipitated at 100,000 xg was almost constant from the swimming blastula stage to the pluteus stage.     

COMPARATIVE STUDIES ON THE DEGRADATION OF GABA and TAURINE IN THE BRAIN

Abstract— The degradation of taurine and GABA in mammalian brain was studied in vivo and in vitro. Small amounts of [³⁵S]isethionate (10–20 pmol/g brain wet weight) and [³⁵S]sulphate (about 2 pmol/g) were detected in mouse brain after intramuscular injection of [³⁵S]taurine. Taurine also produced isethionate in rat brain homogenates (about 20 nmol/h/g protein) and subcellular fractions (about 40 nmol/h/g protein in synaptosomes and about 300 nmol/h/g in mitochondria), but the reaction was not stimulated either by external electrical pulses or by the addition of various cofactors (NAD and NADP in both oxidized and reduced forms, riboflavin, glutathione. pyridoxal-5'-phosphate, ATP) to the incubation medium. [¹⁴C]GABA was readily metabolized to [¹⁴C]succinate both in vivo and in vitro. Isethionate formation activity was concentrated in the mitochondrial fraction, as was also GABA-T activity. Partially purified GABA-T from calf brain also slightly catalysed the formation of [³⁵S]isethionate (about 1.3 μmol/min/g protein) from [³⁵S]taurine. It appears that the slight formation of isethionate from taurine is coupled to GABA-T activity. The formation of isethionate from taurine is so small, that it apparently has no role in the control of the brain taurine pool.     

Long-distance transport of 35S-sulphur in 3-year-old beech trees (Fagus sylvatica)

³⁵S-L-cysteine was fed to a mature leaf of 3-year-old beech trees via a flap. After 1 to 4 h the distribution of ³⁵S-radioactivity was analysed in the leaves as well as the bark and wood of the trunk and the main root. Transport of ³⁵S out of the fed leaf amounted to 0.3–1.2% of the total ³⁵S taken up. The branches of the trees did not act as sink organs for the exported radioactivity. The main portion of the ³⁵S-radioactivity transported out of the fed leaf was found in basipetal parts of the trunk. Only a small portion of ³⁵S-radioactivity was transported in acropetal direction. The distribution of the ³⁵S-radioactivity within the trunk showed a higher portion of ³⁵S in the bark than in the wood. In both tissues, bark (70 to 80%) and wood (60 to 70%), the ³⁵S was predominantly found in the HCl soluble fraction. However, ³⁵S-cysteine, the compound fed to the leaves was not exported out of the fed leaf. Along the trunk ³⁵S-cysteine was neither determined in bark nor in wood sections. The only low molecular mass S-compounds found was ³⁵S-glutathione (GSH). The ³⁵S-sulphate detected in bark and wood origined from cysteine oxidation in the leaf tissue and from contamination of the ³⁵S-cysteine feeding solution. The ratio of GSH to sulphate decreased with increasing distance from the fed leaf. Apparently, ³⁵S-radioactivity was transported as sulphate and GSH in the phloem in basipetal direction, but GSH was removed preferentially out of the phloem along the transport path. ³⁵S-radioactivity exported out of the phloem and transported into the wood of the trunk was not retranslocated in the xylem. It may therefore be assumed that part of the ³⁵S translocated was stored in ray cells, medullary sheath cells and/or pith parenchyma cells. Girdling experiments in which the bark of the trunk was peeled off basipetal to the branch containing the fed leaf support these assumptions.     

Sulphur accumulation and redistribution in wheat (Triticum aestivum): a study using stable sulphur isotope ratios as a tracer system

Wheat plants were grown hydroponically and fed with two sulphate sources differing in stable isotope composition, one having a δ ³⁴S of 13·7‰ and the other 4·1‰. Plant sulphur (S) isotope ratios were determined using an on-line continuous flow-isotope ratio mass spectrometer. This method greatly simplified the procedure for the measurement of S isotope ratios, and was found to be precise for samples containing > 1 mg S g^–1 dry weight. The δ ³⁴S values of plant shoots, which had been grown on a single sulphate source, were very close to the source values, suggesting little isotope fractionation during sulphate uptake and transport from roots to shoots. By changing the sulphate sources at different growth stages, it was possible to estimate S accumulation and redistribution within different plant parts. At maturity, wheat grain derived 14, 30, 6 and 50% of its S from the accumulation during the following successive growth stages: between emergence and early stem extension, between stem extension and flag leaf emergence, between flag leaf emergence and anthesis, and after anthesis, respectively. It was estimated that 39, 32 and 52% of the S present in the flag leaves, older leaves and stems, respectively, at anthesis, was exported during the postanthesis period. These results demonstrate considerable cycling of S within wheat plants, and highlight the importance of S uptake after anthesis to the accumulation of S in grain under the experimental conditions employed.     

TAURINE IN DEVELOPING RAT BRAIN: CHANGES IN BLOOD-BRAIN BARRIER

Abstract— The fate of [³⁵S]taurine injected intraperitoneally or intracranially has been compared in rats throughout neonatal development. The amount of [³⁵S]taurine present in the whole rat pup 24 h after intraperitoneal injection increases during development to a maximum 15 days after birth, and declines thereafter, whereas the amount of [³⁵S]taurine reaching the brain 24 h after intraperitoneal injection was greatest in the first 5 days after birth. The amount of [³⁵S]taurine remaining in the brain 24 h after intracranial injection does not vary throughout the period of neonatal development. These results suggest that the 'blood-brain' barrier is more accessible to taurine in the first few days after birth than later in neonatal development, and that factors other than simple exchange are involved.     

Dynamics of uptake and binding of 35S-sulphate by the cartilage of Rainbow trout (Salmo gairdneri) and the influence of thyroxine

³⁵S-sulphate has been injected into the body cavity of yearling Rainbow trout ( Salmo gairdneri ) and the time sequence of its excretion, and of its uptake and binding by branchial cartilage, determined by scintillation counting. The data are shown to conform well with the time sequence of movement of ³⁵S-sulphate into the cells and matrix of the cartilage, as visualized by autoradiography. Peak content of both unbound and bound sulphate is reached within the cartilage at about 30 hours after injection, in both control and thryoxine-treated fish, but the uptake in the latter is significantly higher. In conformity with this, the rate of excretion of ³⁵S-sulphate is lower in the hormone-treated animals. The results confirm and extend earlier work in showing that thyroxine, by enhancing sulphate uptake, could exert a growth-promoting influence upon cartilage, but it is pointed out that this can be only one component of a complex structural and hormonal situation.     

Locally Synthesized Phosphatidylcholine, but Not Protein, Undergoes Rapid Retrograde Axonal Transport in the Rat Sciatic Nerve

Abstract: Retrograde axonal transport of phosphatidylcholine in the sciatic nerve has been demonstrated only after injection of lipid precursors into the cell body region. We now report, however, that after microinjection (1 μl) of [methyl-³H]choline chloride into the rat sciatic nerve (35-40 mm distal to the L4 and L5 dorsal root ganglia), time-dependent accumulation of ³H-labeled material occurred in dorsal root ganglia ipsilateral, but not contralateral, to the injection site. The level of radioactivity in the ipsilateral dorsal root ganglia was minimal at 2 h after isotope injection but was significantly increased at 7, 24, 48, and 72 h after intraneural isotope injection (n = 3–8 per time point); at these time points, all of the radiolabel in the chloroform/methanol extract of the ipsilateral dorsal root ganglia was present in phosphatidylcholine. The radioactivity in the water-soluble fraction did not show a time-dependent accumulation in the ipsilateral dorsal root ganglia as compared with the contralateral DRGs, ruling out transport or diffusion of precursor molecules. In addition, colchicine injection into the sciatic nerve proximal to the isotope injection site prevented the accumulation of radiolabel in the ipsilateral dorsal root ganglia. Therefore, this time-dependent accumulation of radiolabeled phosphatidylcholine in the ipsilateral dorsal root ganglia is most likely due to retrograde axonal transport of locally synthesized phospholipid material. Moreover, 24 h after injection of both [³H]choline and [³⁵S]-methionine into the sciatic nerve, the ipsilateral/contralateral ratio of radiolabel was 11.7 for ³H but only 1.1 for ³⁵S. indicating that only locally synthesized choline phospholipids, but not protein, were retrogradely transported.     

Stimulation of Guanosine 5'-O-(3-[35S]Thiotriphosphate) Binding by Cholinergic Muscarinic Receptors in Membranes of Rat Olfactory Bulb

Abstract: In membranes of rat olfactory bulb, a brain region in which muscarinic agonists increase cyclic AMP formation, the muscarinic stimulation of guanosine 5'- O -(3-[³⁵S]thiotriphosphate) ([³⁵S]GTPγS) binding was used as a tool to investigate the receptor interaction with the guanine nucleotide-binding regulatory proteins (G proteins). The stimulation of the radioligand binding by carbachol (CCh) was optimal (threefold increase) in the presence of micromolar concentrations of GDP and 100 m M NaCl. Exposure to N -ethylmaleimide and pertussis toxin markedly inhibited the CCh effect, whereas it increased the relative stimulation of [³⁵S]GTPγS binding elicited by pituitary adenylate cyclase-activating polypeptide (PACAP). On the other hand, membrane treatment with cholera toxin curtailed the PACAP stimulation of [³⁵S]GTPγS binding but did not affect the response to CCh. Like CCh, a number of cholinergic agonists stimulated [³⁵S]GTPγS binding in a concentration-dependent and saturable manner. The antagonist profile of the muscarinic stimulation of [³⁵S]GTPγS binding was highly correlated with that displayed by the muscarinic stimulation of adenylyl cyclase. These data indicate that the olfactory bulb muscarinic receptors couple to G_i/G_o, but not to G_s, and support the possibility that activation of G_i/G_o mediates the stimulatory effect on adenylyl cyclase activity.     

δ13C of wood in growth-rings indicates cambial activity of drought-stressed trees of Eucalyptus globulus

1. Growth, density and δ¹³C of wood and leaf area were measured in two adjacent stands of 6 year-old Eucalyptus globulus growing in the 600–700 mm year^–1 rainfall region of south-western Australia. Study sites were identical except for differences in the availability of water owing to physical properties of soil profiles and location of sites within the landscape.
2. Abundance of ¹³C (expressed as δ¹³C) in wood of trees growing on the drought-prone site (– 24·8‰±1·4) was greater than in other trees (– 25·8‰±1·2, P <0·001) throughout the 6 years and, with further development, the δ¹³C signatures of wood may become useful indices of drought-susceptibility in plantations within a few years of establishment. The seasonal pattern of δ¹³C of wood appeared to reflect seasonal variation in water availability and duration of cambial activity.
3. Basic density of wood of trees growing on the more drought-prone site (496±14·0 kg m^–3) was reduced compared to other trees (554±5·3 kg m^–3, P <0·001). δ¹³C of wood across boundaries of growth-rings suggested that drought stopped cambial activity resulting in less production of late wood and less dense wood.
4. The stand growing on the drought-prone site had reduced growth, wood yield and leaf area but identical specific leaf area. Annual growth was correlated with the previous season's rainfall. Together, these results suggested that within the same evaporative climate, drought reduces growth primarily by reducing leaf area and that there is a lag between onset of drought and reduced productivity.     

Experimental Infection of Nosema sp. Ghose in an Unnatural Host Lesioderma sericorne

ABSTRACT. Various doses of a microsporan parasite, Nosema sp., were fed to third and fourth instar larvae of Lesioderma sericorne that infested different types of stored grains. A spore dose of 3 × 10³ spores/individual resulted in a 39% infection rate, reduction in larval and adult weights, and mean spore concentrations of 1.28 ± 0.2 × 10⁸ spores/larva and 1.1 ± 0.2 × 10⁸ spores/adult. At the above dose, mortality was not well marked (about 35% in larvae and 25% in adults). At 3 × 10⁴ spores/individual, the rate of mortality increases to 80% in larvae and 60% in adults. However, more of the pest population (88% of larvae and 73% of adults) died at a dose of 3 × 10⁵ spores/individual. This dose produced mean spore concentrations of 3.91 ± 0.2 × 10⁸ spores/larva and 2.89 ± 0.2 × 10⁸ spores/adult. Insect death was caused by heavy damage to gut epithelia and fat bodies.     

The Effect of Colchicine and Cytochalasin B on the Release of Taurine from the Chick Retina

Abstract: The effect of colchicine (0.5 mM) and of cytochalasin B (10⁻⁴ M) on the release of [³⁵S]taurine from the isolated chick retina, upon stimulation by 68.5 mM-KCl, 10⁻⁵ M-veratridine and 10 mM-glutamate, was studied. Cytochalasin and colchicine effects on taurine release were compared with those on K⁺-stimulated release of [³H]dopamine and [³H]GABA. Colchicine caused a marked decrease of the [³⁵S]taurine release evoked by the three stimulatory agents; it also decreased [³H]dopamine release without affecting that of [³H]GABA. Cytochalasin B significantly decreased the efflux of [³⁵S]taurine stimulated by glutamate or veratridine without altering that evoked by 68.5 mM-KCl. Cytochalasin practically suppressed the [³H]dopamine-stimulated release and slightly decreased that of [³H]GABA. This drug produced a high increase in the spontaneous release of labeled GABA and taurine. These results suggest that the release of taurine and GABA from the chick retina probably occurs through different mechanisms. It is suggested that taurine release may be related to a process involving contractile proteins.     

Characterization of the Functional Activity of Dopamine Ligands at Human Recombinant Dopamine D4 Receptors

Abstract: The human D₄ dopamine receptor has been expressed in Sf9 insect cells where it appears to couple to endogenous G proteins. Increased guanine nucleotide exchange to G proteins is a reflection of receptor activation and can be followed using a [³⁵S]GTPγS binding assay. By measuring D₄ receptor stimulation of [³⁵S]-GTPγS binding we have been able to characterize several dopaminergic compounds for their functional activity at this receptor. In Sf9 cells expressing the D₄ receptor, dopamine, quinpirole, and dp -2-aminodihydroxy-1,2,3,4-tetrahydronaphthalene were all full agonists, whereas (−)-apomorphine appeared to be a partial agonist. No increase in [³⁵S]GTPγS binding was observed for noninfected cells or cells infected with an unrelated sequence. The quinpirole-stimulated [³⁵S]GTPγS binding could be inhibited by the antagonists clozapine, eticlopride, and haloperidol, and a Schild analysis of these data showed that all three compounds were acting as competitive antagonists of D₄ receptors. The rank order of affinities derived from the Schild analysis correlated with that obtained from [³H]spiperone competition binding assays. In conclusion, we have shown that, using this assay system, it is possible to investigate functionally the pharmacology of a recombinant G protein-coupled receptor in the absence of any information regarding the eventual second messenger pathways involved.