Radioligand binding studies reveal marked species differences in the vasopressin V1 receptor of rat, rhesus and human tissues.

The [3H]arginine-vasopressin ([3H]AVP) binding site in rat, rhesus and human liver and nonpregnant human uterus was characterized and contrasted. [3H]AVP bound with high affinity (Ki values, 0.2-0.6 nM) to preparations of all tissues studied. Competition binding studies using a series of compounds from three structural classes indicate a marked species difference between the rat and primate liver AVP-V1 site. This site in rhesus and human liver however, is essentially identical, indicating that the rhesus liver is an appropriate surrogate for human tissue. These studies also indicate that the AVP-V1 site of nonpregnant human uterus and human liver is equivalent.     

Affinity States of Rat Brain Opioid Receptors in Different Tissue Preparations

The binding of [3H]Tyr-D-Ala-Gly-(N-Me)Phe-Gly-ol ([3H]DAGO) and [3H]Tyr-D-Thr-Gly-Phe-Leu-Thr ([3H]DTLET), selective agonists for mu- and delta-opioid binding sites, respectively, has been investigated using different rat brain tissue preparations and buffer systems. The results were compared with the binding of the ligands to crude membrane fractions in Tris-HCl, the most commonly used preparation for binding studies. In both rat brain membranes and intact cells, Krebs-HEPES induced a decrease in the affinities of [3H]DAGO and [3H]DTLET, but little modification was observed when 20-microns tissue slices were used, whatever the brain area studied. The dissociation rate of [3H]DTLET was clearly dependent on the tissue preparation used, because the koff value of this ligand in Krebs-HEPES was 2.5-fold higher in membrane fractions than that measured in intact cells. The kinetic dissociation constant of [3H]DTLET in membrane fractions in Krebs-HEPES was 6.5-fold greater than that measured in Tris-HCl. In intact cells, the koff value for [3H]DTLET was lower than that found in membrane fractions in Krebs-HEPES and similar to that observed in membrane preparations in Tris-HCl supplemented with 30 mM NaCl. These data suggest (a) that the koff constant of [3H]DTLET was regulated by the ionic environment of the delta-opioid receptor, which is clearly dependent on the preservation of cellular structure, and (b) that opioid receptors could exist under different states that are regulated, in part, by the intracellular Na+ concentration.     

Polychlorinated Convulsant Insecticides Potentiate the Protective Effect of NaCl Against Heat Inactivation of [3H]Flunitrazepam Binding Sites

Six polychlorinated convulsant insecticides that potently inhibit t-[35S]butylbicyclophosphorothionate ([35S]TBPS) binding to rat brain membranes also potentiate the protective effect of NaCl (200 mM) against heat inactivation of [3H]flunitrazepam binding sites on the same membranes. Similar effects were obtained with all "cage" convulsants tested. The rank order of potencies as heat protection potentiators was similar to the rank order of potencies as inhibitors of [35S]TBPS binding (alpha-endosulfan greater than endrin greater than dieldrin greater than toxaphene greater than lindane). alpha-Endosulfan and endrin are more potent in both respects than any previously reported picrotoxin-like (cage) convulsant, but are much less toxic to mammals. The greatly reduced toxicities of alpha-endosulfan and endrin in mammals may reflect partial gamma-aminobutyric acid (GABA)-neutral properties of these compounds. Time courses of heat inactivation of [3H]flunitrazepam binding sites in the presence of 200 mM NaCl plus saturating concentrations of endrin or picrotoxin revealed monophasic components constituting about 88% of the binding sites, suggesting that virtually all [3H]flunitrazepam binding sites are coupled to picrotoxin binding sites in the GABA/benzodiazepine/picrotoxin receptor complex. Protection against heat inactivation constitutes a useful tool for characterizing the various allosterically linked binding sites in neurotransmitter receptor complexes.     

Differential interactions of muscarinic drugs with binding sites of [3H]pirenzepine and [3H]quinuclidinyl benzilate in rat brain tissue

Some atypical muscarinic drugs were compared with classical drugs with respect to inhibition of specific binding of [3H]pirenzepine ([3H]PZ) and [3H]quinuclidinyl benzilate ([3H]QNB) to membrane preparations of rat brain. The interactions of the agonists McN-A343 and carbachol with [3H]QNB at muscarinic sites in brain stem preparations were differently modulated in the presence of an excess of PZ. Moreover, McN-A343 exhibited a preferential affinity for [3H]PZ sites in whole brain membranes whereas carbachol bound with high affinity to [3H]QNB sites in brain stem preparations. Various muscarinic agonists and antagonists displayed different affinity patterns in the [3H]PZ and [3H]QNB binding. These data are indicative of two populations of pharmacologically distinguishable binding sites and support the concept of muscarinic receptor heterogeneity in rat brain.     

Effects of 2-substituted-4-phenylquinolines on uptake of serotonin and norepinephrine by isolated brain synaptosomes

In this present communication, the in vitro inhibition of the uptake of [3H]-L-norepinephrine ([3H] NE) and [3H]-Serotonin ([3H] 5-HT) by eleven synthesized 2-substituted-4-phenyl quinolines were studied using rat brain synaptosomal preparations. Compounds with an open side chain were relatively weak inhibitors of the synaptosomal uptake of [3H] NE and [3H] 5HT. Compounds having a distance of three atoms between the terminal basic nitrogen of the side chain and the quinoline ring were better inhibitors of serotonin uptake than those compounds having a four-atom distance. The replacement of the side chain with a piperazine ring produced compounds which were more potent and selective inhibitors of the uptake of either [3H] 5-HT or [3H] NE. Further structure-activity relationships are also discussed.     

Binding of [3H]Ro 5–4864 and [3H]PK 11195 to Cerebral Cortex and Peripheral Tissues of Various Species: Species Differences and Heterogeneity in Peripheral Benzodiazepine Binding Sites

The binding of [3H]PK 11195 and [3H]Ro 5-4864 to membrane preparations from cerebral cortex and peripheral tissues of various species was studied. [3H]PK 11195 (0.05-10 nM) bound with high affinity to rat and calf cerebral cortical and kidney membranes. [3H]Ro 5-4864 (0.05-30 nM) also successfully labeled rat cerebral cortical and kidney membranes, but in calf cerebral cortical and kidney membranes, its binding capacity was only 3 and 4%, respectively, of that of [3H]PK 11195. Displacement studies showed that unlabeled Ro 5-4864, diazepam, and flunitrazepam were much more potent in displacing [3H]PK 11195 from rat cerebral cortex and kidney membranes than from calf tissues. The potency of unlabeled Ro 5-4864 in displacing [3H]PK 11195 from the cerebral cortex of various other species was also tested, and the rank order of potency was rat = guinea pig greater than cat = dog greater than rabbit greater than calf. Analysis of these displacement curves revealed that Ro 5-4864 bound to two populations of binding sites from rat and calf kidney and from rat, guinea pig, rabbit, and calf cerebral cortex but to a single population of binding sites from cat and dog cerebral cortex. Using [3H]PK 11195 as a ligand, the rank order of binding capacity in cerebral cortex of various species was cat greater than calf greater than guinea pig greater than rabbit greater than dog greater than rat, whereas when [3H]Ro 5-4864 was used, the rank order of binding capacity was cat greater than guinea pig greater than rat greater than rabbit greater than calf greater than dog.     

The uptake and metabolism of chylomicron-remnant lipids by rat liver parenchymal and non-parenchymal cells in vitro.

The uptake and metabolism of chylomicron-remnant lipids by individual liver cell types was examined by incubating remnants with monolayer cultures of hepatocytes, Kupffer cells, and endothelial cells from rat liver. Remnants were prepared in vitro from radiolabelled mesenteric-lymph chylomicra, utilizing either purified lipoprotein lipase from bovine milk, or plasma isolated from heparinized rats. The resulting particles contained [3H]phosphatidylcholine and cholesterol, and [14C]oleate in the acylglycerol, phospholipid, fatty-acid and cholesterol-ester fractions. The capacities of the three cell types for uptake of both [3H]lipids and [14C]lipids were determined to be, on a per-cell basis, in the order: Kupffer greater than hepatocytes greater than endothelial. The relative proportions of [3H]phospholipid and total [3H]cholesterol taken up by hepatocytes and non-parenchymal cells remained constant with time. The uptake of [14C]oleoyl lipids by all three cell types was slightly greater than that of the total [3H]cholesterol and [3H]phospholipid components. There was evidence of cholesterol-ester hydrolysis and turnover of [14C]oleate in the phospholipid fraction in hepatocytes and Kupffer cells, but not endothelial cells, over the first 2 h. With both remnant preparations, these observations indicate that significant differences exist between the three major liver cell types with respect to the uptake and metabolism of remnant lipid components.     

Effects of 1-Methyl-4-Phenyl-1,2,5,6-Tetrahydropyridine and Related Compounds on the Uptake of [3H]3,4-Dihydroxyphenylethylamine and [3H]5-Hydroxytryptamine in Neostriatal Synaptosomal Preparations

1-Methyl-4-phenyl-1,2,5,6-tetrahydropyridine (MPTP) is known to cause a destruction of the dopaminergic nigrostriatal pathway in certain animal species including mice. MPTP and some structurally related analogs were tested in vitro for their capacity to inhibit the uptake of [3H]3,4-dihydroxyphenylethylamine-([3H]DA), [3H]5-hydroxytryptamine ([3H]5-HT), and [3H]gamma-aminobutyric acid [( 3H]GABA) in mouse neostriatal synaptosomal preparations. MPTP was a very potent inhibitor of [3H]5-HT uptake (IC50 value 0.14 microM), a moderate inhibitor of [3H]DA uptake (IC50 value 2.6 microM), and a very weak inhibitor of [3H]GABA uptake (no significant inhibition observed at 10 microM MPTP). In other experiments, MPTP caused some release of previously accumulated [3H]DA and [3H]5-HT, but in each case MPTP was considerably better as an uptake inhibitor than as a releasing agent. The 4-electron oxidation product of MPTP, i.e., 1-methyl-4-phenyl-pyridinium iodide (MPP+), was a very potent inhibitor of [3H]DA uptake (IC50 value 0.45 microM) and of [3H]5-HT uptake (IC50 value 0.78 microM) but MPP+ was a very weak inhibitor of [3H]GABA uptake. These data may have relevance to the neurotoxic actions of MPTP.     

Rapid Release of [3H]Dopamine from Median Eminence and Striatal Synaptosomes

Release of preaccumulated, tritium-labeled dopamine ([3H]DA) from preparations of isolated nerve terminals (synaptosomes) of rat median eminence (ME) and corpus striatum (CS) was examined over short time intervals (1-20 s). In both preparations, basal efflux of [3H]DA was linear with time. Depolarization with high K+ resulted in an initial rapid release of [3H]DA which stabilized by 20 s, whereas veratridine elicited an increased rate of release over basal levels that was linear over the first 20 s. The calculated rate constants of release for both the initial phase of K+- and the veratridine-stimulated release were approximately threefold greater in CS than in ME synaptosomes. The major component of the high K+-induced release of [3H]DA from both synaptosome preparations increased as a graded function of [Ca2+]o. However, a smaller component, independent of external Ca2+, existed in both ME and CS synaptosomes. Increasing the [Mg2+] in the external solution resulted in a right shift of both the [K+]o and the [Ca2+]o dose-response curves, consistent with actions of Mg2+ on screening surface membrane charges and blocking voltage-dependent Ca2+ channels. In all studies, steady-state uptake of the [3H]DA was about twofold greater into CS than into ME synaptosomes. Moreover, the fraction of incorporated [3H]DA released by stimulation from the CS was much greater than that released from ME synaptosomes. These data are consistent with differences between these two types of dopaminergic terminals with respect to packaging and/or distribution of the accumulated neurotransmitter in intraneuronal pools, as well as marked differences in the apparent kinetics of DA release.     

The occurrence and receptor specificity of endogenous opioid peptides within the pancreas and liver of the rat. Comparison with brain.

Our observations that opioid peptides have direct effects on islet insulin secretion and liver glucose production prompted a search for endogenous opiates and their receptors in these peripheral tissues. Mu-, delta- and kappa-receptor-active opiates were demonstrated in brain, pancreas and liver extracts by displacement studies using selective ligands for the three opiate receptor subtypes [( 3H][D-Ala2,MePhe4,Gly5-ol]enkephalin, [3H][D-Ala2,D-Leu5]enkephalin and [3H]dynorphin respectively). Receptor-active opiates in brain extracts exhibited a stronger preference for delta-opiate-receptor sites than for mu and kappa sites. Pancreatic extract opiates demonstrated a similar activity at mu and delta sites, but substantially less at kappa sites. Liver extracts displayed similar selectivity for all three sites. The affinities of the receptor-active opiates for mu-, delta- and kappa-receptor subtypes displayed a rank order of potency: brain much greater than pancreas greater than liver. Total immunoreactive beta-endorphin and [Met5]enkephalin levels in liver and hepatocytes were greater than those in brain. Immunoreactive [Met5]enkephalin levels in pancreas were similar to, but beta-endorphin levels were substantially higher than, those in brain. Delta and kappa opiate-binding sites of high affinity were identified in crude membrane preparations of islets of Langerhans, but no specific opiate-binding sites could be demonstrated in liver membrane preparations. Immunoreactive dynorphin and beta-endorphin were demonstrated by immunogold labelling in rat pancreatic islet cells. No positive staining of liver sections for opioids was observed. These results suggest that the tissue content of opiate-receptor-active compounds in the pancreas and the liver is very significant and could contribute to the regulation of normal blood glucose levels.     

Metabolism of benzo[a]pyrene and 7 beta,8 alpha-dihydroxy-9 alpha, 10 alpha-epoxy-7,8,9,10-tetrahydrobenzo[a pyrene in lung and liver of newborn mice

Although the newborn mouse has been extensively used to test the tumorigenic activities of polynuclear aromatic hydrocarbons and their diol epoxide metabolites, no information is available on their metabolism in the newborn mouse in vivo. Therefore, we have investigated the metabolism and distribution of [3H]benzo[a]pyrene ([3H]BaP) and (+/-)-7 beta,8 alpha-[3H]dihydroxy-9 alpha, 10 alpha-epoxy-7,8,9, 10-tetrahydrobenzo[a]pyrene ([3H]BPDE) in liver and lung of mice given i.p. injections of these compounds on their 1st, 8th and 15th days of life. In lung, identified metabolites of [3H]BaP included diols, quinones, and phenols. Their levels were higher on the 1st day compared to the 8th and 15th days of life. The pattern of organic extractable metabolites detected in mouse liver was different from that in lung, being dominated by unidentified polar metabolites, the levels of which increased with age. Levels of [3H]BPDE in liver and lung were measured by trapping with 2-mercaptoethanol. It was demonstrated that [3H]BPDE rapidly reaches the lung after i.p. injections. The half-lives of [3H]BPDE in lung and liver were similar to those observed in vitro. The results are discussed with respect to the known tumorigenic activities of BaP and BPDE in newborn mice and in mouse skin.     

Quantitative tritium exchange of [3H] aflatoxin B1 during penetration through isolated human skin

Tritium labelled aflatoxin B1 ([G-3H]AFB1) underwent an almost total tritium exchange with water during penetration through isolated human skin. The process was not enzymatic and the site of exchange appeared to be within the epidermis. The mechanism which mediated this extensive exchange was not determined. However, the tritium in [G-3H]AFB1 was found to be very susceptible to chemical conditions which favored carbanion formation at the alpha-carbon of the cyclopentenone ring. The relative effectiveness of the various solvents in mediating the loss of the tritium label was 1 N3NaOH much greater than methanol greater than 1 N HCl greater than water. This work serves as a warning that [G-3H]AFB1 can easily undergo significant changes in specific activity in biological tissues and under relatively mild experimental conditions. It is possible that conditions within the skin favor carbanion formation.     

An assay for the alpha-tocopherol binding protein mediated transfer of vitamin E between membranes

A model system consisting of donor membrane (egg lecithin liposomes) and acceptor membrane (human erythrocyte ghosts or rat liver mitochondria) were used to investigate the alpha-tocopherol binding protein (alpha TBP) mediated transfer of alpha-tocopherol. Liposomes containing RRR-[alpha-3H]tocopherol ([alpha-3H]T) were incubated with acceptor membrane at 37 degrees C for 0-45 min in the presence or absence of rat liver cytosol or a dialyzed 30-60% saturated ammonium sulfate precipitated fraction of rat liver cytosol (Fraction B). Erythrocyte ghosts and liver mitochondria were compared and found to behave similarly in the presence of Fraction B. alpha-Tocopherol transfer activity (alpha TTA) typically varied 0- to 27-fold greater than buffer blanks, depending upon type and concentration of protein preparation. Gel filtration of Fraction B yielded one alpha TTA peak (liver mitochondria as acceptor) with an estimated Mr of 39,000. [alpha-3H]T recovered from erythrocyte ghosts pellets by HPLC suggest that the [alpha-3H]T was transferred intact. alpha TTA of Fraction B in the presence of varying concentrations of erythrocyte ghosts and liposomal [alpha-3H]T followed saturation kinetics. Optimal concentrations gave alpha TTA responses directly proportional to rat liver cytosol concentration. alpha TTA was inhibited only 5% in the presence of a 32-fold excess of cold liposomal alpha-tocopheryl acetate suggesting that the free hydroxyl group on the chromanol ring of alpha-tocopherol is needed for transfer. Coefficient of variation of repeated measures of alpha TTA in rat liver cytosol was 2.9%. Thus, the intermembrane transfer phenomenon of alpha-tocopherol can be studied quantitatively and can be used to compare liver protein preparations exhibiting transfer activity.     

Peptidoleukotrienes: distinct receptors for leukotriene C4 and D4 in the guinea-pig lung

Using [3H]-leukotriene C4 ([3H]-LTC4) and [3H]-leukotriene D4 ([3H]-LTD4), specific peptidoleukotriene receptors have been identified in membranes derived from guinea-pig lung. In the presence of 0.1 mM guanyl-5'-yl-imidodiphosphate, which completely inhibits [3H]-LTD4 binding, [3H]-LTC4 binding was protein- and temperature-dependent, reached equilibrium within 15 minutes at 20 degrees C and was reversible. Guanine nucleotides had no effect on the [3H]-LTC4 binding. Competition studies with [3H]-LTC4, peptidoleukotrienes C4, D4, E4 and the peptidoleukotriene antagonist FPL 55712 revealed an order of potency of leukotriene C4 much greater than E4 greater than D4 greater than FPL 55712. [3H]-LTD4 competition studies indicated an order of potency of LTD4 greater than LTE4 greater than LTC4 much greater than FPL 55712. Bioconversion of [3H]-LTC4, as determined by high performance liquid chromatography, was less than 3 percent. The data suggest the guinea-pig lung may contain biochemically distinct receptors for LTC4 and LTD4.     

Association of microcystin-LR and its biotransformation product with a hepatic-cytosolic protein.

Microcystin-LR (MCYST-LR), a cyclic peptide hepatotoxin, associates with high-molecular-weight, liver cytosolic components. Repetitive cycles of heat denaturation and pronase digestion released 80 +/- 6% of the bound radiolabel from these components, parent toxin (22%), and two biotransformation products, with high-performance liquid chromatography (HPLC) retention times of 6.7 (52%) and 5.6 (13%) min. Both parent and the biotransformed (6.7 min) toxin appeared to be covalently bound to a monomeric protein of molecular weight 40,000 (protein plus radiolabeled toxin). Binding and biotransformation reactions were time- and temperature-dependent and did not require endogenous molecules less than 6,000 daltons. The binding appeared to be saturable with a maximum of 20 pmol MCYST-LR bound per mg protein. The binding protein(s) and biotransformation activity were present in rat liver, brain, kidney, heart, lung, small intestine, large intestine, testes, skeletal muscle, and to a lesser extent, in fat. Okadaic acid, a specific protein phosphatase inhibitor, showed a concentration-dependent inhibition of [3H]MCYST-LR binding to hepatic cytosol. The molecular weight and organ distribution of the binding protein(s), and inhibition of binding by okadaic acid were consistent with one of the binding sites being the catalytic subunit of protein phosphatase type 2A.     

Mitochondrial biotransformation of ω-(phenoxy)alkanoic acids, 3-(phenoxy)acrylic acids,and ω-(1-methyl-1H-imidazol-2-ylthio)alkanoic acids: A prodrug strategy for targeting cytoprotective antioxidants to mitochondria

Mitochondrial reactive oxygen species (ROS) generation and the attendant mitochondrial dysfunction are implicated in a range of disease states. The objective of the present studies was to test the hypothesis that the mitochondrial β-oxidation pathway could be exploited to deliver and biotransform the prodrugs ω-(phenoxy)alkanoic acids, 3-(phenoxy)acrylic acids, and ω-(1-methyl-1H-imidazol-2-ylthio)alkanoic acids to the corresponding phenolic antioxidants or methimazole. 3- and 5-(Phenoxy)alkanoic acids and methyl-substituted analogs were biotransformed to phenols; rates of biotransformation decreased markedly with methyl-group substitution on the phenoxy moiety. 2,6-Dimethylphenol formation from the analogs 3-([2,6-dimethylphenoxy]methylthio)propanoic acid and 3-(2,6-dimethylphenoxy)acrylic acid was greater than that observed with ω-(2,6-dimethylphenoxy)alkanoic acids. 3- and 5-(1-Methyl-1H-imidazol-2-ylthio)alkanoic acids were rapidly biotransformed to the antioxidant methimazole and conferred significant cytoprotection against hypoxia-reoxygenation injury in isolated cardiomyocytes. Both 3-(2,6-dimethylphenoxy)propanoic acid and 3-(2,6-dimethylphenoxy)acrylic acid also afforded cytoprotection against hypoxia-reoxygenation injury in isolated cardiomyocytes. These results demonstrate that mitochondrial β-oxidation is a potentially useful delivery system for targeting antioxidants to mitochondria.     

Plasmalogen biosynthesis in Madin-Darby canine kidney cells: selectivity in the acylation of 1-alkyl-2-lyso-sn-glycero-3-phosphoethanolamine and the subsequent desaturation step

Acyl group specificity in the acylation of 1-alkyl-2-lyso-sn-glycero-3-phosphoethanolamine (1-alkyl-2-lyso-GroPEtn) to form 1-alkyl-2-acyl-sn-glycero-3-phosphoethanolamine (1-alkyl-2-acyl-GroPEtn) and the subsequent desaturation of 1-alkyl-2-acyl-GroPEtn to form plasmalogens (1-alk-1'-enyl-2-acyl-sn-glycero-3-phosphoethanolamine, i.e., 1-alk-1'-enyl-2-acyl-GroPEtn) was investigated in intact Madin-Darby canine kidney (MDCK) cells and cell-free membrane preparations. We found 1-[3H]alkyl-2-lyso-GroPEtn was selectively acylated with polyunsaturated fatty acids in the order 20:4 greater than 20:5 greater than 20:3 (n-9) greater than 22:6 by cell-free membrane preparations of MDCK cells. The same pattern of acyl specificity was seen in intact MDCK cells, although the intact cells produced significantly larger amounts of 1-[3H]alkyl-2-acyl-GroPEtn containing oleic acid. There was an increased desaturation of the 1-[3H]alkyl-2-acyl-GroPEtn species containing docosahexaenoic acid to plasmalogens (1-[3H]alk-1'-enyl-2-acyl-GroPEtn) by both intact MDCK cells and the cell-free membrane preparations. The relatively rapid disappearance of the 1-[3H]alk-1'-enyl-2-docosahexaenoyl-GroPEtn species during a 20-h incubation of prelabeled intact MDCK cells suggests a more rapid turnover of this molecular species. Our results indicate there is a high selectivity in the final acylation and desaturation steps of the biosynthetic pathway for plasmalogens.     

Regional Differences in 5-Hydroxytryptamine and Catecholamine Uptake in Primary Astrocyte Cultures

The uptake of 3H-labelled 5-hydroxytryptamine (5-HT, serotonin) norepinephrine ([3H]NE), and 3,4-dihydroxyphenylethylamine ([ 3H]dopamine, [3H]DA) was studied in primary astrocyte cultures prepared from the cerebral cortex, corpus striatum, and hippocampal regions of neonatal rat brain. Na+-dependent uptake showed marked regional differences. For [3H]5-HT the magnitude of uptake was corpus striatum greater than or equal to cerebral cortex greater than hippocampus, whereas for [3H]NE the order was hippocampus greater than corpus striatum greater than cerebral cortex. For [3H]DA, only the hippocampal cultures showed significant Na+-dependent uptake. [3H]5-HT uptake was specifically inhibited by 10(-7) M fluoxetine whereas [3H]NE uptake was preferentially inhibited by 10(-7) M desipramine. These results may reflect regional brain specialization and/or different developmental patterns of high affinity uptake of serotonin and catecholamines by astrocytes in situ.     

The Adenosine Receptors Present on the Plasma Membrane of Chromaffin Cells Are of the A2b Subtype

The adenosine receptors in the plasma membrane of chromaffin cells from bovine adrenal medulla were characterized. The presence of A1 receptors was discounted owing to the absence of R-[3H]phenylisopropyladenosine (R-PIA) and [3H]8-cyclopentyl-1,3-dipropylxanthine ([3H]-DPCPX) binding. The binding of the specific A2a ligand CGS-21680 was low. In contrast, the binding of 5'-(N-[3H]-ethylcarboxamidoadenosine ([3H]NECA) was relatively high (1.7 pmol/mg of protein at a ligand concentration up to 90 nM). This binding did not correspond to non-adenosine receptor NECA binding sites because the specific [3H]-NECA binding was similar when unlabeled adenosine, NECA, or R-PIA was used to measure the nonspecific binding. The rank order of potency of different ligands for the displacement of specific [3H]NECA binding was DPCPX greater than NECA greater than chloroadenosine greater than R-PIA greater than theophylline = CGS-21680. These results indicate that the receptors present on the plasma membrane of chromaffin cells are exclusively of the A2b subtype.     

Glutathione transferase zeta-catalyzed biotransformation of deuterated dihaloacetic acids.

Glutathione transferase zeta (GSTZ) catalyzes the biotransformation of alpha-haloalkanoic acids. Treatment of rats or humans with dichloroacetic acid prolongs its elimination half-life, and preliminary studies in this laboratory show that fluorine-lacking, but not fluorine-containing dihaloacetic acids inactivate GSTZ. In the present study, the GSTZ-catalyzed biotransformation of unlabeled and deuterated dihaloacetic acids was investigated. With [(2)H]dichloroacetic acid and [(2)H]chlorofluoroacetic acid as substrates, the deuterium present in the [(2)H]dihaloacetic acid was retained in the [(2)H]glyoxylic acid formed. This finding indicates that the enol of the dihaloacetic acid does not serve as the substrate for the enzyme. The data afford an explanation of the failure of fluorine-containing dihaloacetic acids to inactivate GSTZ: dichloroacetic acid is converted to glyoxylic acid and inactivates GSTZ, whereas chlorofluoroacetic acid is biotransformed to glyoxylic acid, but produces negligible inactivation. Mechanisms are presented indicating that this difference may be attributed to the nucleofugicity of the leaving group.