Intracellular disposition of [3H]-cocaine, [3H]-norcocaine, [3H]-benzoylecgonine and [3H]-benzoylnorecgonine in the brain of rats

[³H]-cocaine, [³H]-norcocaine, [³H]-benzoylecgonine and [³H]-benzoylnorecgonine were administered i.c. in equi-potent pharmacologic doses and the intracellular disposition and metabolism of each drug determined. Norcocaine and cocaine rapidly entered and egressed from the brain so that 4.8–6.1% of the radioactivity present in brain at one minute was observed at 30 minutes. The highest levels of subcellular radioactivity were generally found in the microsomal plus supernatant, followed by the nuclear and shocked mitochondrial fractions. No apparent localization of the radioactivity occured in synaptic membranes. The brain/plasma (B/P) ratio curves for cocaine and norcocaine were similar; however, the norcocaine values were considerably higher at each time interval. Benzoylecgonine and benzoylnorecgonine had higher comparative B/P ratios than cocaine or norcocaine and persisted in brain for a longer period of time so that 0.6–2.1% of the radioactivity present in brain at 1 hour was detected at 24 hours. Cocaine and norcocaine were extensively metabolized to the benzoylmetabolites. Benzoylecgonine was metabolized to benzoylnorecgonine and benzoylnorecgonine was unmetabolized. The brain disposition data and B/P ratios agreed quite well with the overall pharmacologic action of cocaine and its metabolites.     

Synthesis and biological activity of [L-3,4-dehydroproline3]-tuftsin

A 3,4-dehydroproline analogue of tuftsin (L-Thr-L-Lys-L-Pro-L-Arg) was prepared by the solid phase synthetic method. Following reversed-phase high performance liquid chromatography (HPLC) purification, the analogue was compared to tuftsin for its ability to enhance the chemotactic, bactericidal and phagocytic activities of polymorphonuclear leukocytes (PMN). Both tuftsin and [Δ³-pro³]-tuftsin elicited a similar significant chemotactic effect at a concentration of 10 μg/ml. A slight suppression of the chemotactic activity was observed with tuftsin at 10^?3 μg/ml and with [Δ³-pro³]-tuftsin at concentrations of 10^?3, 10^?2 (significant) and 10^?1 μg/ml. Although similar bactericidal activities were observed for both peptides, PMN exposed to [Δ³-pro³]-tuftsin exhibited increased phagocytic indicies 2–4 times that of tuftsin-treated PMN at concentrations of 0.4, 0.6 and 1.0 μg/ml.     

The incorporation of [3H]glucosamine, [3H]fucose and [14C]mannose into protein in the rat anterior pituitary incubated in vitro

Rat anterior hemipituitaries incubated in vitro rapidly take up and incorporate into protein D-[6-³H]-glucosamine · HCl, D-[1-¹⁴C]mannose and L-[G-³H]fucose. The newly labeled protein was only slowly released into a Krebs-Ringer bicarbonate incubation medium. Glucosamine- or mannose-labeled protein was barely detectable in the medium after a 30–60 min incubation whereas about 4% of all fucose-labeled protein had already been released into the incubation medium by 30 min. Puromycin · 2HCl (1 mM) inhibited incorporation of glucosamine or mannose into protein to 40% or less of control values within 30 min; fucose incorporation was not significantly inhibited before 45 min. Acid hydrolysis followed by amino acid analysis of glucosamine-labeled protein yielded significant amounts of label in glucosamine, galactosamine and apparent glucosamine-degradation products but no significant amount of label in any amino acid.     

Binding of [3H]cytochalasin B and [3H]colchicine to isolated liver plasma membranes

The binding to isolated hepatocyte plasma membranes of radioactively labelled inhibitors of microfilamentous and microtubular protein function ([³H]cytochalasin B and [³H]colchicine, respectively) was studied as one means of assessing the degree of association of these proteins with cell surface membranes. [³H]Cytochalasin B which behaved identically to the unlabelled compound with respect to binding to these membranes was prepared by reduction of cytochalasin A with NaB³H₄. The binding was rapid, readily reversible, proportional to the amount of membrane and relatively insentive to changes of pH or ionic strength. At 10^?6 M [³H]cytochalasin B, glucose or p-chloromercuribenzoate, an inhibitor of glucose transport inhibited binding by about 20%; treatment of membranes with 0.6 M KI which depolymerizes F actin to G actin caused about 60% inhibition of binding. These two types of inhibition were additive indicating two separate classes of binding sites, one associated with sugar transport and one with microfilaments. Filamentous structures with the diameter of microfilaments (50 Å) were seen in electron micrographs of thin sections of the membranes. At concentrations greater than 10^?5 M [³H]cytochalasin B, binding was proportional to drug concentration, characteristic of non-specific adsorption or partitioning. Intracellular membranes of the hepatocyte also bound [³H]cytochalasin B, those of the smooth endoplasmic reticulum to a greater extent than plasma membranes.[³H]Colchicine bound to plasma membranes in proportion to the amount of membrane and at a rate compatible with binding to tubulin. However, other properties of the binding including effects of temperature, drug concentration and antisera against tubulin were different from those of binding to tubulin. Hence, no evidence was obtained for association of microtubular elements with these membranes. Despite this there appeared to be an interdependence between microtubule and microfilament inhibitors: vinblastine sulfate stimulated [³H]cytochalasin B binding and cytochalasin B stimulated ³H colchicine binding. [³H]Colchicine also bound to intracellular membranes, especially smooth microsomes.     

Synthesis of homoursodeoxycholic acid and [11,12-3H]homoursodeoxycholic acid

Homoursodeoxycholic acid and [11,12-³H]homoursodeoxycholic acid were synthesized from ursodeoxycholic acid and homocholic acid, respectively. Ursodeoxycholic acid (Ia) was converted to 3α,7β-diformoxy-5β-cholan-24-oic acid (Ib) using formic acid. Reaction of the diformoxy derivative (Ib) with thionyl chloride yielded the acid chloride (II) which was treated with diazomethane to produce 3α,7β-diformoxy-25-diazo-25-homo-5β-cholan-24-one (III). Homoursodeoxycholic acid (IV) was formed from the diazoketone (III) by means of the Wolff rearrangement of the Arndt-Eistert synthesis.N-Bromosuccinimide oxidation of homocholic acid (V), which was prepared from cholic acid by the same procedure described above, afforded 3α,12α-dihydroxy-7-oxo-25-homo-5β-cholan-25-oic acid (VI). Reduction of the 7-ketohomodeoxycholic acid (VI) with sodium in 1-propanol gave 3α,7β,12α-trihydroxy-25-homo-5β-cholan-25-oic acid (VII). The methyl ester of 7-epihomocholic acid (VII) was partially acetylated to give methyl 3α,7β-diacetoxy-12α-hydroxy-25-homo-5β-cholan-25-oate (VIII) using a mixture of acetic anhydride, pyridine and benzene. Dehydration of the diacetoxy derivative (VIII) with phosphorus oxychloride yielded methyl 3α,7β-diacetoxy-25-homo-5β-chol-11-en-25-oate (IX). Reduction of the unsaturated ester (IX) with tritium gas in the presence of platinum oxide catalyst followed by alkaline hydrolysis gave [11,12-³H]homoursodeoxycholic acid.     

Heterogeneity of [3H]Dipyridamole Binding to CNS Membranes: Correlation with [3H]Nitrobenzylthioinosine Binding and [3H]Uridine Influx Studies

The relationship between the nucleoside transport system and the nitrobenzylthioinosine-sensitive and -resistant [3H]dipyridamole binding sites was examined by comparing the characteristics of [3H]dipyridamole binding with those of [3H]nitrobenzylthioinosine binding and [3H]-uridine influx in rabbit and guinea pig cerebral cortical synaptosomes. Two distinct high-affinity synaptosomal membrane-associated [3H]dipyridamole binding sites, with different sensitivities to inhibition by nitrobenzylthioinosine, were characterized in the presence of 3-[(3-cholamidopropyl) dimethylammonio]-1-propanesulfonate (CHAPS, 0.01%) to prevent [3H]dipyridamole binding to glass tubes and filters. The nitrobenzylthioinosine-resistant [3H]-dipyridamole binding sites represented a greater proportion of the total membrane sites in guinea pig than in rabbit (40 vs. 10% based on inhibition studies). In rabbit, nitrobenzylthioinosine-sensitive [3H]dipyridamole binding (KD = 1.4 +/- 0.2 nM) and [3H]nitrobenzylthioinosine binding (KD = 0.30 +/- 0.01 nM) appeared to involve the same membrane site associated with the nitrobenzylthioinosine-sensitive nucleoside transporter. By mass law analysis, [3H]-dipyridamole binding in guinea pig could be resolved into two components based on sensitivity to inhibition by 1 microM nitrobenzylthioinosine. The nitrobenzylthioinosine-resistant [3H]dipyridamole binding sites were relatively insensitive to inhibition by all of the nucleoside transport substrates and inhibitors tested, with the exception of dipyridamole itself. In guinea pig synaptosomes, 100 microM dilazep blocked nitrobenzylthioinosine-resistant [3H]uridine transport completely but inhibited the nitrobenzylthioinosine-resistant [3H]dipyridamole binding component by only 20%. Furthermore, a greater percentage of the [3H]dipyridamole binding was nitrobenzylthioinosine resistant in guinea pig compared with rabbit, yet both species had a similar percentage of nitrobenzylthioinosine-resistant [3H]uridine transport.(ABSTRACT TRUNCATED AT 250 WORDS)     

Synthesis and stability of [3H] 5—demethoxyubiquinone-9

Radioactive [³H]5-demethoxyubiquinone-9 (3-methyl-2-nonaprenyl-6-methoxy-1,4-benzo-quione), an intermediate in the biosynthesis of ubiquione-9 by selected microorganisms and by the rat, has been synthesized. 4-Methyl-3-nitrophenol was converted to the corresponding anisole with [³H]methyl iodide and the anisole was then reduced to the corresponding aniline. Oxidation of 6-methyl-3-methoxy [³H]aniline with chromic acid gave the corresponding 1,4-benzo-quinone which was reduced and alkylated with solanesol in the presence of boron trifluorideetherate. Oxidation with ferric chloride gave two isomers, 5-demethoxyubiquinone-9 and 6-methyl-2-nonaprenyl-3-methoxy-1,4-benzoquinone which were separated by thin layer chromatography. The [³H]methoxyl-5-demethoxyubiquinone-9 prepared had a specific radioactivity of 100 mCi/mmole.     

Binding Sites for [3H]Glutamate and [3H]Aspartate in Human Cerebellum

Abstract The binding of [³H]aspartate and [³H]glutamate to membranes prepared from frozen human cerebellar cortex was studied. The binding sites differed in their relative proportions, their inhibition by amino acids and analogues, and by the effects of cations. A proportion (about 30%) of [³H]glutamate binding was to sites similar to those labelled by [³H]aspartate. An additional component of [³H]gluta-mate binding (about 50%) was displaced by quisqualate and aL-amino-3-hydroxy-5-methylisoxazole-4-propionic acid, and may represent a “quisqualate-preferring” receptor. Neither N-methyl-d-aspartic acid-sensitive nor dl-2-amino-4-phosphonobutyric acid-sensitive [³H]glutamate binding was detected.     

Binding of [3H]estradiol- and [3H]H1285-receptor complexes to rabbit uterine chromatin

In the present study we investigated the binding characteristics of estrogen and antiestrogen-receptor complexes to rabbit uterine chromatin. Activated or nonactivated estrogen receptors were partially purified by DEAE-cellulose chromatography using low (1 mM) or high (10 mM) concentrations of sodium molybdate. Activated [³H]estradiol-receptor complexes showed enhanced binding to chromatin acceptor sites unmasked by 1 M, 4 M and 6 M guanidine hydrochloride. We also examined the chromatin-binding characteristics of the estrogen receptors when bound by the high-affinity triphenylethylene antiestrogen, H1285. The acceptor site activity for the [³H]H1285-receptor complexes was markedly decreased at sites unmasked by 4 M and 6 M guanidine hydrochloride. Further, the nonactivated receptor complexes showed very low binding to deproteinized chromatin. The estrogen-receptor chromatin-acceptor sites were tissue specific and saturable. These chromatin acceptor sites differ in their affinity and capacity (number of binding sites per cell) for the estrogen- and antiestrogen-receptor complexes. Thus, we suggest that the differences in the physiological and physicochemical properties of estrogens and antiestrogens may be related to their differential interaction with uterine chromatin subfractions.     

Preferential release of newly synthesized [3H]GABA from striatal slices to preloaded [3H]GABA

The release of [³H]GABA which is newly synthesized from [³H]l-glutamic acid (GLU) has been examined using striatal slices obtained from the rat brain. It was found that 8–10% of [³H]GLU transported was converted to [³H]GABA during the incubation of striatal slices in the presence of nipecotic acid (5 × 10^?5 M). Nipecotic acid was added to the medium in order to prevent possible reuptake of [³H]GABA released during its synthesis, and it was found to have no significant effect on the formation of [³H]GABA from [³H]GLU as well as on the uptake of [³H]GLU. The application of high potassium (60 mM) stimulation exhibited a significant enhancement of the release of this newly synthesized [³H]GABA in a Ca²⁺ dependent manner. Kinetic analysis revealed that the evoked release of newly synthesized [³H]GABA was approximately two times greater than that of previously-loaded [³H]GABA, whereas no significant difference was observed in the spontaneous release. An immobilization stress in water failed to affect the release of newly synthesized [³H]GABA from striatal slices despite the occurrence of a significant enhancement of GABA formation in this structure.These results suggest that newly synthesized GABA may be preferentially released from its nerve terminals in response to the excitation of neurons at least in the striatum as compared with previously accumulated GABA.     

ON THE RELATIONSHIP BETWEEN [3H]CHOLINE UPTAKE ACTIVATION AND [3H]ACETYLCHOLINE RELEASE

The depolarization-induced, calcium-dependent release of [³H]ACh from hippocampal synaptosomes was studied in a superfusion system. Release increased, with increasing depolarization. Barium and strontium effectively substituted for calcium during the depolarization, but magnesium inhibited the release. Releasable [³H]ACh is derived from the sodium-dependent component of the [³H]choline uptake which points out the physiologic importance of sodium-dependent choline transport. It is concluded that [³H]ACh release in this system has the same properties as neurotransmitter release in many other systems. Previous studies have shown that treatments which alter the activity of cholinergic neurons in vivo result in parallel changes in sodium-dependent choline uptake in vitro. When synaptosomes were utilized from animals treated to reduce cholinergic activity, there was a reduced release following the reduced uptake. Conversely, when synaptosomes were taken from animals treated to increase sodium-dependent choline uptake, there was an increase in the release. It is concluded that the changes in sodium-dependent choline uptake in vitro consequent to changes in neuronal activity in vivo result in parallel changes in releasable ACh. A comparison was made between the effect of a number of ions and agents on release and their effect on the in vitro, depolarization-induced activation of sodium-dependent choline uptake. Barium and strontium, ions which substitute for calcium in the release process, support the in vitro activation of uptake. Vinblastine and Bay a 1040, compounds which block release, prevented the in vitro activation of sodium-dependent choline uptake. However, magnesium blocked release in a dose-dependent manner, but did not block the activation of uptake in vitro. Rather, magnesium substituted for calcium and supported the activation of uptake in a dose-dependent fashion. It is concluded that acetylcholine release is not necessary for the activation of choline uptake.     

Decreased [3H]serotonin and [3H]spiperone binding consequent to lipid peroxidation in rat cortical membranes

The effect of lipid peroxidation on two types of serotonin binding sites was investigated. Incubation of rat cortical membranes with an ascobate-dependent peroxidizing system resulted in the formation of malonyldialdehyde and significant decreases in the specific binding of [³H]serotonin and [³H]spiperone to the treated membranes. When ascorbate concentrations were varied from 0.025 to 6.0 mM, malonyldialdehyde production increased to a maximum at 0.5 mM ascorbate and then declined. Conversely, the specific binding of [³H]serotonin and [³H]spiperone decreased to a minimum at 0.5 mM ascorbate and then increased. Regression analysis of the data revealed that the decrease in the two binding sites was linearly correlated to lipid peroxidation.     

Metabolism of [2-3H]- and [6-3H]-nicotinic acid in intact Nicotiana tabacum plants

Earlier observations of Dawson on the relative incorporation of [2-³H]- and [6-³H]-nicotinic acid into nicotine have been confirmed in intact Nicotiana tabacum plants. All the tritium in the nicotine derived from [2-³H]-nicotinic acid was located at C-2 of the pyridine ring. However the radioactive nicotine derived from [6-³H]-nicotinic acid was not labelled specifically at C-6 with tritium. By carrying out feeding experiments with [6-¹⁴-C, 2-³H]- and [6-¹⁴C, ³H]-nicotinic acids, it was established that there was very little loss of tritium from C-2 and C-6 of nicotinic acid during 5 days of metabolism in the tobacco plant.     

Increased Binding of [3H]Muscimol and [3H]Flunitrazepam in the Rat Brain Under Hypoxia

We examined the effects of in vivo hypoxia (10% O2/90% N2) on the gamma-aminobutyric acid (GABA)/benzodiazepine receptors and on glutamic acid decarboxylase (GAD) activity in the rat brain. Male Wistar rats were exposed to a mixture of 10% O2 and 90% N2 in a chamber for various periods (3, 6, 12, and 24 h). The control rats were exposed to room air. The brain regions examined were the cerebral cortex, striatum, hippocampus, and cerebellum. GABA and benzodiazepine receptors were assessed using [3H]muscimol and [3H]flunitrazepam, respectively. Compared with control values, GAD activity was decreased significantly following a 6-h exposure to hypoxia in all four regions studied. On the other hand, the numbers of both [3H]muscimol and [3H]flunitrazepam binding sites were increased significantly. The increase in receptor number tended to return to control values after 24 h. Treatment of the membrane preparations with 0.05% Triton X-100 eliminated the increase in the binding capacity. These results may represent an up-regulation of postsynaptically located GABA/benzodiazepine receptors corresponding to the impaired presynaptic activity under hypoxia.     

Comparison of [3H]Choline and d-[3H]Aspartate Efflux from Guinea Pig and Human Neocortex

The outflow of [3H]choline ([3H]Ch) evoked by electrical field stimulation and the efflux of D-[3H]Asp induced by 35 mM KCl and 1-10 microM ouabain were studied in human and guinea pig cortical slices, kept under identical experimental conditions. [3H]Ch outflow was significantly lower whereas D-[3H]Asp efflux was significantly higher in humans than in guinea pigs. This suggests a different proportion of the two neuronal systems in these two species. Blockade of muscarinic autoreceptors with atropine increased, whereas stimulation of alpha 2 receptors with norepinephrine (NE) reduced, the evoked [3H]Ch outflow to the same extent in human and guinea pig cortical slices. Conversely, NE did not affect ouabain-induced D-[3H]Asp efflux, suggesting that an alpha 2-mediated control is not operative in the glutamatergic cortical structures. Desmethylimipramine, 2-5 microM, was able to increase [3H]Ch outflow through atropine-like mechanisms only in the human. This drug at 20-50 microM inhibited [3H]Ch and D-[3H]Asp efflux in both species, through mechanisms unrelated to its monoamine reuptake blocking properties. Thus, similarities and differences can be detected between humans and guinea pigs with regard to (a) the relative potency of the cholinergic and acidic amino acidergic signals and (b) the modulation of neurotransmitter outflow by drugs acting on auto- and the heteroreceptors.     

THE SUBCELLULAR DISTRIBUTION OF [14C]GABA AND [3H]DOPAMINE IN THE RETINA

Abstract— Rabbit retinae were homogenized in isotonic sucrose and subjected to differential and density gradient centrifugation. Preliminary electron microscopic examination of some of the fractions indicated that in addition to the subcellular particles usually observed in brain homogenates, the photoreceptor cells gave rise to several characteristic fragments. These included fragmented outer limbs, aggregations of mitochondria from the inner segments, and photoreceptor terminals. Unlike the synaptosomes formed from the conventional type of synapses in the retina, these photoreceptor terminals appeared to sediment mainly in the low speed crude nuclear pellet (P1).
Retinae were incubated with low concentrations of [¹⁴C]GABA and/or [³H]dopamine prior to subcellular fractionation and in these experiments the P2 pellet was further fractionated on sucrose density gradients. Analysis of the radioactivity in the fractions showed that labelled GABA was accumulated by osmotically sensitive particles which had the sedimentation characteristics of synaptosomes. The panicles accumulating [³H]dopamine appeared to belong to a different, slightly lighter, population than those accumulating [¹⁴C]GABA. It is tentatively suggested that the particles accumulating labelled GABA were synaptosomes because the fractions containing these particles also possessed most of the GAD activity of the gradient. In contrast, GABA-T and MAO activity was found in the dense fractions of the gradients usually associated with mitochondria.
When retinae were incubated with a high concentration of labelled GABA a'lighter'population of particles seemed to accumulate the amino acid than when a low external GABA concentration was used. These results suggest that the high and low affinity uptake processes for GABA in the retina may have different cellular sites.     

DIFFERENT LABELLING PATTERNS IN MOUSE LYMPHOID TISSUES WITH [3H]DEOXYCYTIDINE AND [3H]THYMIDINE

The percentages of labelled lymphocytes in smear preparations of mouse thymus were higher than those in similar preparations of mesenteric lymph nodes with either generally labelled tritiated deoxycytidine, [³H]CdR, or tritiated thymidine, [³H]TdR. Lymphocytes in the thymus cortex and in germinal centres of mesenteric lymph nodes were intensely labelled with [³H]CdR, whereas with [³H]TdR lymphocytes in the peripheral region of thymus and medullary cords of mesenteric lymph nodes were heavily labelled. The majority of lymphocytes in thymic cortex and germinal centres of mesenteric lymph nodes were labelled weakly with [³H]TdR. Thus, labelling patterns with [³H]CdR differed from those with [³H]TdR in lymphoid tissues of the mouse. Mouse lymphocytes can utilize [³H]CdR as a precursor molecule for cytosine and thymine in DNA. The ratio of radioactivity of thymine to that of cytosine was measured biochemically in DNA extracted from lymphocytes labelled with [³H]CdR. This radioactivity ratio in thymus was higher than that in mesenteric lymph nodes. These results suggest that the metabolic activities of utilizing CdR for DNA synthesis differ within lymphocyte populations in various lymphoid tissues in the mouse.     

Comparison of the Kinetics of [3H]Diazepam and [3H]Flunitrazepam Binding to Cortical Synaptosomal Membranes

Abstract: [³H]Diazepam and [³H]flunitrazepam ([³H]FNP) binding to washed and frozen synaptosomal membranes from rat cerebral cortex were compared. In Tris-citrate buffer, γ -aminobutyric acid (GABA) and NaCl both increased [³H]diazepam binding more than [³H]FNP binding. GABA and pentobarbital both enhanced this effect of NaCl. Because of the extremely rapid dissociation of [³H]diazepam in the absence of NaCl and GABA, the B_max (maximal binding capacity) was smaller by the filtration assay than by the centrifugation assay. [³H]FNP, which dissociates more slowly, had the same B_max in both assays. [³H]Diazepam association had two components, and was faster than [³H]FNP association. [³H]Diazepam dissociation, which also had two components, was faster than that of [³H]FNP, and also had a greater fraction of rapidly dissociating species. [³H]FNP dissociation was similar when initiated by diazepam, flunitrazepam, clonazepam, or Ro15-1788, which is a benzodiazepine antagonist. [³H]Diazepam dissociation with Ro15-1788, flunitrazepam, or clonazepam was slower than with diazepam. GABA and NaCl, but not pentobarbital, increased the percentage of slowly dissociating species. This effect of NaCl was potentiated by GABA and pentobarbital. The results support the cyclic model of benzodiazepine receptors existing in two interconvertible conformations, and suggest that, distinct from their binding affinity, some ligands (like flunitrazepam) are better than others (like diazepam) in inducing the conversion of the receptor to the higher-affinity state.     

Characterization of [3H] corticosterone binding activity in adrenal incubation media

Glucocorticoid-binding activity in adrenal incubation media was investigated with regard to characterization of a protein-like ligand. Scatchard analysis of corticosterone binding activity indicated the presence of a single non-interacting protein with a dissociation constant (Kd) of 8.81 × 10?¹⁰ M (0°C), a value which is different from that of plasma and cytoplasmic glucocorticoid binding proteins. In addition, an observed lack of affinity of the protein for dexamethasone distinguishes the protein from Type II cytoplasmic receptor proteins. Thus our data suggest a glucocorticoid-binding protein which is distinct from the two known groups of glucocorticoid-binding proteins, corticosteroid-binding globulin (CBG) and cytoplasmic receptors.     

Phospholipid Methylation Increases [3H]Diazepam and [3H]GABA Binding in Membrane Preparations of Rat Cerebellum

The effect of phospholipid methylation on both [3H]diazepam and [3H]GABA ( [3H]gamma-aminobutyric acid) binding to crude synaptic plasma membrane from rat cerebellum has been studied. S-Adenosylmethionine (SAM) stimulates [3H]methyl group incorporation into membrane phospholipids and enhances [3H]diazepam binding by increasing the apparent Bmax. Conversely, inhibition of [3H]methyl group transfer from [3H]SAM to phospholipids by preincubation with SAM at 0 degrees C or with SAH abolishes the increase of binding. After preincubation with SAM, analysis of the GABA binding reveals the presence of binding sites with high affinity, a property absent in control membranes preincubated without SAM. Among the neurotransmitter bindings tested, only those of GABA and benzodiazepine in the cerebellum and beta-adrenergic ligands in the cerebral cortex are enhanced upon stimulation of phospholipid methyltransferase activity. [3H]Dihydromorphine, [3H]dihydro-alpha-ergokryptine and [3H]spiroperidol bindings are not affected by SAM. The present data suggest an involvement of phospholipid methylation in regulation of both [3H]GABA and [3H]-diazepam binding.