Real-time Imaging of Leukotriene B4 Mediated Cell Migration and BLT1 Interactions with β-arrestin

G-protein coupled receptors (GPCRs) belong to the seven transmembrane protein family and mediate the transduction of extracellular signals to intracellular responses. GPCRs control diverse biological functions such as chemotaxis, intracellular calcium release, gene regulation in a ligand dependent manner via heterotrimeric G-proteins^1-2. Ligand binding induces a series of conformational changes leading to activation of heterotrimeric G-proteins that modulate levels of second messengers such as cyclic adenosine monophosphate (cAMP), inositol triphosphate (IP3) and diacyl glycerol (DG). Concomitant with activation of the receptor ligand binding also initiates a series of events to attenuate the receptor signaling via desensitization, sequestration and/or internalization. The desensitization process of GPCRs occurs via receptor phosphorylation by G-protein receptor kinases (GRKs) and subsequent binding of β-arrestins³. β-arrestins are cytosolic proteins and translocate to membrane upon GPCR activation, binding to phosphorylated receptors (most cases) there by facilitating receptor internalization ^4-6.Leukotriene B₄ (LTB₄) is a pro-inflammatory lipid molecule derived from arachidonic acid pathway and mediates its actions via GPCRs, LTB₄ receptor 1 (BLT1; a high affinity receptor) and LTB₄ receptor 2 (BLT2; a low affinity receptor)^7-9. The LTB₄-BLT1 pathway has been shown to be critical in several inflammatory diseases including, asthma, arthritis and atherosclerosis^10-17. The current paper describes the methodologies developed to monitor LTB₄-induced leukocyte migration and the interactions of BLT1 with β-arrestin and , receptor translocation in live cells using microscopy imaging techniques^18-19.Bone marrow derived dendritic cells from C57BL/6 mice were isolated and cultured as previously described ^20-21. These cells were tested in live cell imaging methods to demonstrate LTB₄ induced cell migration. The human BLT1 was tagged with red fluorescent protein (BLT1-RFP) at C-terminus and β-arrestin1 tagged with green fluorescent protein (β-arr-GFP) and transfected the both plasmids into Rat Basophilic Leukomia (RBL-2H3) cell lines^18-19. The kinetics of interaction between these proteins and localization were monitored using live cell video microscopy. The methodologies in the current paper describe the use of microscopic techniques to investigate the functional responses of G-protein coupled receptors in live cells. The current paper also describes the use of Metamorph software to quantify the fluorescence intensities to determine the kinetics of receptor and cytosolic protein interactions.Download video file.^{(88M, mov)}     

Binding of Aminoalkylindoles to Noncannabinoid Binding Sites in NG108-15 Cells

1. Aminoalkylindoles, typified by WIN 55212-2, bind to G protein-coupled cannabinoid receptors in brain. Although cannabinoids inhibit adenylyl cyclase in NG108-15 neuroblastoma × glioma hybrid cells, cannabinoid receptor binding in these cells has not been described previously. This study compares pharamcological characteristics of [³H]WIN 55212-2 binding sites in rat cerebellar membranes and in NG108-15 membranes.2. Although the K _D of specifid [³H]WIN 55212-2 binding was similar in brain and NG108-15 membranes, the B _max was 10 times lower in NG108-15 than in cerebellar membranes. In both brain and NG108-15 membranes, aminoalkylindole analogues were relatively potent in displacing [³H]WIN 55212-2 binding.However, IC₅₀ values for more traditional cannabinoids were significantly higher in NG108-15 membranes than in brain, e.g., the K _i values for CP55,940 were1.2nM in brain and >5000nM in NG108-15 membranes. Moreover, sodium and GTP--S decreased [³H]WIN 55212-2 binding in brain but not in NG108-15membranes.3. These data suggest that WIN 55212-2 does not label traditional cannabinoid receptors in NG108-15 cells and that these novel aminoalkylindolebinding sites are not coupled to G proteins.     

Opioid receptor binding in rat spinal cord

The interaction of various radioligands with spinal opioid receptors has been characterized under variable experimental conditions. Binding to , , and sites was measured in all (cervical, thoracic, lumbar) segments. The apparent affinity constant (K) of [³H]Ethylketocyclazocine (EKC) was similar in Tris, 2.09 (±1.06)×10⁸ M^–1, and phosphate buffer, 2.16 (±0.02)×10⁸ M^–1, when its interaction with and sites was blocked. Without blocking ligands, EKC binding was resolved in two components:K ₁=1.01 (±0.21)×10⁹ M^–1 andK ₂=0.95 (±0.61)×10⁷ M^–1. Likewise, the binding of [D-Ala², MePhe⁴, Gly(ol)⁵]enkephalin (DAGO) or [D-Ala², D-Leu⁵]-enkephalin (DADLE) alone was represented by a 2-site model. By adjusting the radioligand and receptor concentration or by the addition of blocking ligands, binding was represented by a 1-site model for DAGO,K=4.35 (±1.41)×10⁸ M^–1, and DADLE,K=2.44 (±0.08)×10⁸ M^–1.The abbreviations used are DADLE [D-Ala², D-Leu⁵]enkephalin - DAGO [D-Ala², MePhe⁴, Gly(ol)⁵]enkephalin - EKC ethylketocyclazocine - DYN dynorphin (1–17)     

Equilibrium and dynamic investigations of organic acids adsorption onto ion-exchange resins

The aim of the study was to determine properties of selected ion-exchange resins for citric and lactic acids recovery, to define sorption isotherms for these acids at different temperatures (in the range of 20–60°C) and to determine diffusion coefficients inside sorbent particles. A mathematical model of the ion-exchange process in the chromatographic column and its experimental verification is also presented. During investigations 18 types of ion-exchange resins were tested. It was found that weakly basic resins were more suitable for the recovery process than strongly basic ones. The best resin for the separation of citric acid was Amberlite IRA-67 and for lactic acid Amberlite IRA-92. As a result of transient-state sorption experiments diffusion coefficients of the citric acid inside the sorbent particle at different temperatures were obtained. It was found that D_p increased with the temperature by two times in the range of 20–60°C, and its value at 60°C was 7.2×10^–10 m²/s. The proposed mathematical model was applied to identify bed operation parameters in the column for the needs of the simulated moving bed chromatography method.List of symbols b Equilibrium constant in Langmuir equation, [dm³/g] - c Acid concentration in the liquid phase inside the particle pores, [g/dm³] - C Acid concentration in the liquid, [g/dm³] - D_L Axial dispersion coefficient, [m²/s] - D_p Intraparticle diffusion coefficient, [m²/s] - k_f Liquid film mass transfer coefficient, [m/s] - L Ion-exchanger bed height, [m] - q Acid concentration in the adsorbent phase, [g/dm³] - R_p Particle radius, [m] - U Volumetric flow rate of the feeding solution, [dm³/s] - V Volume of the solution, [dm³] - W Weight of the wet resin particles, [g] - The ion-exchanger bed porosity, [-] - _p Particle porosity, [-] - Linear liquid velocity, [m/s] - Apparent density of the wet resin, [g/dm³]     

Phosphorylation of atrial natriuretic factor R1 receptor by serine/threonine protein kinases: evidences for receptor regulation

The 130 kDa atrial natriuretic factor receptor (ANF-R₁) purified from bovine adrenal zona glomerulosa is phosphorylated in vitro by serine/threonine protein kinases such as cAMP-, cGMP-dependent and protein kinase C. This phosphorylation is independent of the presence of ANF (99–126) and there is no detectable intrinsic kinase activity associated with the ANF-R₁ receptor or with its activated form. In bovine adrenal zona glomerulosa cells, TPA (phorbol ester) induces a marked inhibition of the ANF-stimulated cGMP accumulation as well as of the membrane ANF-sensitive guanylate cyclase catalytic activity without any change in the binding capacity or affinity for ¹²⁵I-ANF. However, we have demonstrated a significant ³²P incorporation in the ANF-R₁ receptor of the TPA-treated cells. The effect of TPA on the zona glomerulosa ANF-R₁ receptors was abolished by calphostin C, a specific protein kinase C inhibitor. Altered ANF actions due to blunted response of guanylate cyclase to ANF could be a consequence of the ANF receptor phosphorylation by excessive activity of protein kinase C and might be involved in the pathogenesis of hypertension.Abbreviations ANF Atrial Natriuretic Factor - ANF-R₁ Atrial Natriuretic Factor Receptor, subtype 1 - ATP Adenosine Triphosphate - CaCl₂ Calcium Chloride - cAMP Adenosine cyclic 3,5-Monophosphate acid - cGMP Guanosine cyclic 35-Monophosphate acid - EDC 1-Ethyl-3-[3-Dimethylaminopropyl] Carbodiimide - EDTA Ethylenediaminetetraacetic Acid - GTP Guanosine Triphosphate - IBMX 3-isobutyl-1-methylxanthine - kDa Kilodaltons - MgCl₂ Magnesium Chloride - MgAC Magnesium Acetate - NaCl Sodium Chloride - PAGE Polyacrylamide Gel Electrophoresis - PKA cAMP-dependent protein kinase - PKG cGMP-dependent Protein Kinase - PKC Calcium/Phospholipid-dependent Protein Kinase - RIA Radioimmunoassay - SDS Sodium Dodecyl Sulfate - SHR Spontaneously Hypertensive Rat - Tris HCl Tris (Hydroxymethyl) aminomethane Hydrochloride - TPA 12-O-Tetradecanoyl-Phorbol-13-Acetate     

Activation of adenosine A2 receptors enhances high K+-evoked taurine release from rat hippocampus: A microdialysis study

Summary The present study was designed to examine which type of adenosine receptors was involved in enhancement of high K⁺-evoked taurine release fromin vivo rat hippocampus using microdialysis. Perfusion with 0.5 or 5.0 mM adenosine enhanced high K⁺-evoked taurine release. Perfusion with 2M R(–)-N⁶-2-phenylisopropyladenosine (PIA), a selective adenosine A₁ receptor agonist, did not modulate taurine release. Perfusion with 1M 1,3-dipropyl-8-cyclopentylxanthine (DPCPX), a selective adenosine A₁ receptor antagonist, increased taurine release. On the other hand, perfusion with 20M 2-[4-(2-carboxyethyl)phenethylamino]-5-N-ethyl-carboxamideadenosine (CGS21680), a selective adenosine A_2A receptor agonist, enhanced taurine release, while perfusion with 1 mM 3,7-dimethyl-propagylxanthine (DMPX), an adenosine A₂ receptor antagonist, did not affect taurine release. These results demonstrate that adenosine enhances high K⁺-evoked taurine release via activation of adenosine A_2A receptors from both neurons and glial cells ofin vivo rat hippocampus.     

Analysis of ligand-binding to the kringle 4 fragment from human plasminogen

The interaction of the isolated human plasminogen kringle 4 with the four -amino acid ligands -aminocaproic acid (ACA), N-acetyl-l-lysine (AcLys), trans-aminomethyl(cyclohexane)carboxylic acid (AMCHA) and p-benzylaminesulfonic acid (BASA) has been further characterized by ¹H-NMR spectroscopy at 300 and 600 MHz. Pronounced high-field shifts, reaching 3 ppm, are observed for AMCHA resonances upon binding to kringle 4, which underscores the relevance of ligand lipophilic interactions with aromatic side chains at the binding site. Ligand titration curves for the nine His and Trp singlets found in the kringle 4 aromatic spectrum reveal a striking uniformity in the kringle response to the various ligands. The average binding curves exhibit a clear Langmuir absorption isotherm saturation profile and the data were analyzed under the assumption of one (high affinity) binding site per kringle. Equilibrium association constants (K _a ) and first order dissociation rate constants (k _off) were derived from linearized expressions of the Langmuir isotherm and of the spectral line-shapes, respectively. The results for the four ligands, at 295 K, pH^* 7.2, indicate that: (a) AMCHA exhibits the strongest binding (K _a =159 mM ^-1) and ACA the weakest (K _a =21 mM ^–1) with AcLys and BASA falling in between; (b) ACA dissociates readily (k _off = 5.3 × 10³ s^–1) and AMCHA associates the fastest (k _off = 2.0 × 10⁸ M ^–1 s^–1) while the kinetics for BASA exchange is relatively slow (k _off = 0.8 × 10³ s^–1, k _on = 0.6 × 10⁸ M ^–1s^–1); (c) the ligand-binding kinetics is close to diffussion-controlled.Abbreviations ACA -aminocaproic acid - AcLys N-acetyl-l-lysine - AMCHA t-aminomethyl(cyclohexane)carboxylic acid - BASA p-benzylaminesulfonic acid - K4 kringle 4 - NOE nuclear Overhauser effect - ppm parts-per-million - pH^* glass electrode pH reading uncorrected for deuterium isotope effects - K _a ligand-kringle 4 equilibrium association constant - k _off ligand-kringle 4 dissociation rate constant - k _on ligand-kringle 4 association rate constant     

Kinetics and equilibrium studies of Tet repressor-operator interaction

Binding of a Tet repressor mutant containing a single Trp43 residue in the tet operator recognition -helix leads to the quenching of the protein fluorescence down to about 23% in the case of the tet O₁ operator and to 40% in the case of the tet O₂ operator. We have used fluorescence detection to describe the binding equilibrium and kinetics of the Tet repressor interaction with the 20-bp DNA operators tet O₁ and tet O₂. Stopped-flow measurements in an excess of the tet operators performed in 5 mM NaCl or 150 mM NaCl indicate that the reaction can be described by at least three exponentials characterized by different relaxation times. The mechanism of interaction for both operators as well as for two salt concentrations used can be described as TetR + Operator Complex 1 Complex 2 Complex 3. Only the much faster process can be described as a second-order reaction characterized by a bimolecular rate constant equal to 2.8 × 10⁶ M^–1 sec^–1 for both operators. The medium and slow processes may be described by relaxational times ranging from 50 msec to seconds. The results of the binding equilibrium measurements extrapolated to 1 M NaCl concentration, which reflects the specific nonionic interaction between TetR and tet operators, indicate K _as equal to 3.2 × 10⁴ and 4.0 × 10⁵ M^–1 for tet O₁ and tet O₂, respectively. The number of monovalent ions replaced upon binding can be calculated as about 5 and 3 for tet O₁ and tet O₂, respectively. The binding of Tet repressor to the operators leads to changes in the circular dichroism spectra of the DNA which could indicate transitions of B-DNA into A-like DNA structure.     

The amphiphilic peptide adenoregulin enhances agonist binding to A1-adenosine receptors and [35S]GTPγS to brain membranes

Summary 1. Adenoregulin is an amphilic peptide isolated from skin mucus of the tree frog,Phyllomedusa bicolor. Synthetic adenoregulin enhanced the binding of agonists to several G-protein-coupled receptors in rat brain membranes.2. The maximal enhancement of agonist binding, and in parentheses, the concentration of adenoregulin affording maximal enhancement were as follows: 60% (20 µM) for A₁-adenosine receptors, 30% (100 µM) for A_2a-adenosine receptors, 20% (2 µM) for ₂-adrenergic receptors, and 30% (100 µM) for 5HT_1A receptors. High affinity agonist binding for A_1-, _2-, and 5HT_1A-receptors was virtually abolished by GTPS in the presence of adenoregulin, but was only partially abolished in its absence. Magnesium ions increased the binding of agonists to receptors and reduced the enhancement elicited by adenoregulin.3. The effect of adenoregulin on binding of N⁶-cyclohexyladenosine ([³H]CHA) to A₁-receptors was relatively slow and was irreversible. Adenoregulin increased the B_max value for [³H]CHA binding sites, and the proportion of high affinity states, and slowed the rate of [³H]CHA dissociation. Binding of the A₁-selective antagonist, [³H]DPCPX, was maximally enhanced by only 13% at 2 µM adenoregulin. Basal and A₁-adenosine receptor-stimulated binding of [³⁵S]GTPS were maximally enhanced 45% and 23%, respectively, by 50 µM adenoregulin. In CHAPS-solubilized membranes from rat cortex, the binding of both [³H]CHA and [³H]DPCPX were enhanced by adenoregulin. Binding of [³H]CHA to membranes from DDT₁ MF-2 cells was maximally enhanced 17% at 20 µM adenoregulin. In intact DDT₁ MF-2 cells, 20 µM adenoregulin did not potentiate the inhibition of cyclic AMP accumulation mediatedvia the adenosine A₁ receptor.4. It is proposed that adenoregulin enhances agonist binding through a mechanism involving enhancement of guanyl nucleotide exchange at G-proteins, resulting in a conversion of receptors into a high affinity state complexed with guanyl nucleotide-free G-protein.     

Dopamine acts through a D2-like receptor on a jellyfish motor neuron

Summary Dopamine, which is present in nerve-rich tissues of the hydromedusa Polyorchis penicillatus, produces membrane hyperpolarization in identified motor neurons from this jellyfish. In this study we demonstrate that the inhibitory action of dopamine is mediated by conventional drug-receptor interactions which are reversible, saturable and specific. When 10 M dopamine was applied by micro-spritzing onto voltage-clamped (holding potential, –20 mV), cultured swimming motor neurons, an outward current of about 1 nA was evoked. Using this technique, we established a potency order for several amines: dopaminenorepinephrine>tyramine >octopamine>-phenylethylamine. Dopamine is effective at concentrations betweeen 1 × 10^-8 and 1 × 10^-3 M. Several dopamine receptor blockers such as fluphenazine, haloperidol and spiperone reduced the dopamine-induced current in a concentration-dependent manner. Although propranolol, a -adrenergic blocker, reduced the dopamine response and SKF 83566, a D₁ blocker, increased the response, it appears that the dopamine receptors in these jellyfish neurons share pharmacological properties with mammalian D₂ dopamine receptors.     

Insulin: Its binding to specific receptors and its stimulation of DNA synthesis and 2′,3′-cyclic nucleotide phosphohydrolase activity in cerebral cells cultured from embryonic mouse brain

The presence and specificity of insulin receptors was investigated in cultured cells obtained from 15–16 days old embryonic mouse cerebra. Developmental studies suggested that the maximum insulin binding occurred at about 11 days in vitro (DIV). Scatchard analysis of binding data revealed two types of binding sites. One type of receptor was the high affinity type (K _d=7.77×10^–9 M; number of receptor sites,B _max=350 fmol/mg protein) while the other type was of low affinity type (K _d=5.75×10^–8 M;B _max=1150 fmol/mg protein). The specificity of receptors for insulin was also confirmed by showing that [¹²⁵I]insulin was displaced by non-radioactive insulin but not by glucagon or growth hormone. Insulin displayed a clear dose-dependent stimulation of thymidine incorporation. It also stimulated the activity of the enzyme 2,3-cyclic nucleotide phosphohydrolase (CNPase), which is specifically associated with myelin produced from oligodendroglia. Thus insulin has a positive influence on the proliferation and differentiation of brain cells.     

Studies on steroid hormone refeptors (5 α=dihidrotestosterone,estradiol, and dexamethasone) in cultured human fibroblasts and amniotic fluid cells

Summary Cultured human fibroblasts and amniotic fluid cells (AF cells) were examined for the presence of steroid hormone receptors. In both cell types, the androgen (DHT) or glucocorticoid (dexamethasone) receptor was detected, but not the estrogen receptor. Binding parameters in fibroblasts were: for androgen: K_D=3.7×10^-9M, B_max=13 fmol/mg; for dexamethasone: K_D=4.5×10^-9M, B_max=120 fmol/mg. Binding parameters in AF cells were: for androgen: K_D=4×10^-9M, B_max=8 fmol/mg; for dexamethasone: K_D=1.9×10^-8M, B_max=375 fmol/mg. Cultured cells derived from the gonads (of a patient with 17-ketosteroid reductase deficiency) seem to have more receptors than cells from extragenital body parts (B_max=21 fmol). With the aid of gel chromatography, the molecular weight of the androgen receptor was estimated to be 30–40 000D.     

Respiration rates of Chiloplacus sp. and other arctic nematodes at low and high temperatures

Summary Respiration of an undescribed species of soil nematode of the genus Chiloplacus from the Canadian High Arctic was measured at 2°, 5°, 10°, 15°, 20° and 25°C. The corresponding metabolic rates were 0.2697×10^-3 l, 0.3406×10^-3 l, 0.8408×10^-3 l, 0.8539×10^-3 l, 1.8420×10^-3 l and 2.9360×10^-3 l O₂ ind^-1 h^-1, respectively, for a nematode of 1.0 g dry weight. The relationship between respiration and dry weight for Chiloplacus sp. at 10°C is described by the function log R=-3.0693+0.8844 log W. Q₁₀ values for the 2°–5°, 5°–10°, 10°–15°, 15°–20° and 20°–25°C temperature intervals were 2.18, 6.09, 1.03, 4.65 and 2.54, respectively. Chiloplacus sp. showed raised metabolic rates at low tempetatures compared with species from warmer environments. Metabolic rates of representative samples of the soil, nematode fauna (dominated by individuals of the genus Plectus) from the same location were 0.1593×10^-3 l, 0.3603×10^-3 l and 0.5332×10^-3 l O₂ ind^-1 h^-1 at 5°, 10° and 15°C for an average nematode of 0.4297 g dry weight.     

Changes in carp myosin ATPase induced by temperature acclimation

Summary Myosins were isolated from dorsal ordinary muscles of carp acclimated to 10°C and 30°C for a minimum of 5 weeks and examined for their ATPase activities. Ca²⁺-ATPase activity was different between myosins from cold-and warm-acclimated carp, especially at KCl concentrations ranging from 0.1 to 0.2 M, when measured at pH 7.0. The highest activity was 0.32 mol P_i·min^-1·mg^-1 at 0.2 M KCl for cold-acclimated carp and 0.47 mol P_i·min^-1·mg^-1 at 0.1 M KCl for warm-acclimated fish. The pH-dependency of Ca²⁺-ATPase activity at 0.5 M KCl for both carp was, however, similar exhibiting two maxima around 0.3 mol P_i·min^-1·mg^-1 at pH 6 and 0.4 mol P_i·min^-1·mg^-1 at pH 9. K⁺(EDTA)-ATPase activity at pH 7.0 neither exhibited differences between both myosins. It increased with increasing KCl concentration showing the highest value of about 0.4 mol P_i·min^-1·mg^-1 at 0.6–0.7 M KCl. Actin-activated myosin Mg²⁺-ATPase activity was markedly different between cold-and warm-acclimated carp. The maximum initial velocity was 0.53 mol P_i·min^-1·mg^-1 myosin at pH 7.0 and 0.05 M KCl for cold-acclimated carp, which was 1.6 times as high as that for warm-acclimated carp. These differences were in good agreement with those obtained with myofibrillar Mg²⁺-ATPase activity between both carp. No differences were, however, observed in myosin affinity to actin. Differences in myosin properties between cold- and warm-acclimated carp were further evidenced by its thermal stability. The inactivation rate constant of myosin Ca²⁺-ATPase was 25·10^-4·s^-1 at 30°C and pH 7.0 for cold-acclimated carp, which was about 4 times as high as that for warm-acclimated carp. Light chain composition did not differ between both carp myosins. The differences in a primary structure of the heavy chain subunit was, however, clearly demonstrated between both myosins by peptide mapping.Abbreviations ATPase adenosine 5-triphosphatase - DTNB 5,5 dithio-bis-2-nitrobenzoic acid - DTT dithiothreitol - EGTA ethyleneglycol bis (-aminoethylether)-N,N,N,N-tetraacetic acid - K _D inactivation rate constant - SDS sodium dodecyl sulfate - SDS-PAGE SDS-polyacrylamide gel electrophoresis     

Larvae of the small white butterfly,Pieris rapae,express a novel serotonin receptor

The biogenic amine serotonin ( 5‐hydroxytryptamine, 5‐HT) is a neurotransmitter in vertebrates and invertebrates. It acts in regulation and modulation of many physiological and behavioral processes through G‐protein‐coupled receptors. Five 5‐HT receptor subtypes have been reported in Drosophila that share high similarity with mammalian 5‐HT_1A, 5‐HT_1B, 5‐HT_2A, 5‐HT_2B, and 5‐HT₇ receptors. We isolated a cDNA (Pr5‐HT₈) from larval Pieris rapae, which shares relatively low similarity to the known 5‐HT receptor classes. After heterologous expression in HEK293 cells, Pr5‐HT₈ mediated increased [Ca²⁺]_i in response to low concentrations (< 10 nM) of 5‐HT. The receptor did not affect [cAMP]_i even at high concentrations (> 10 μM) of 5‐HT. Dopamine, octopamine, and tyramine did not influence receptor signaling. Pr5‐HT₈ was also activated by various 5‐HT receptor agonists including 5‐methoxytryptamine, (±)‐8‐Hydroxy‐2‐(dipropylamino) tetralin, and 5‐carboxamidotryptamine. Methiothepin, a non‐selective 5‐HT receptor antagonist, activated Pr5‐HT₈. WAY 10635, a 5‐HT_1A antagonist, but not SB‐269970, SB‐216641, or RS‐127445, inhibited 5‐HT‐induced [Ca²⁺]_i increases. We infer that Pr5‐HT₈ represents the first recognized member of a novel 5‐HT receptor class with a unique pharmacological profile. We found orthologs of Pr5‐HT₈ in some insect pests and vectors such as beetles and mosquitoes, but not in the genomes of honeybee or parasitoid wasps. This is likely to be an invertebrate‐specific receptor because there were no similar receptors in mammals.

     

3-(1′,1′-Dimethylbutyl)-1-deoxy-Δ-THC and related compounds: synthesis of selective ligands for the CB2 receptor

The synthesis and pharmacology of 15 1-deoxy-Δ⁸-THC analogues, several of which have high affinity for the CB₂ receptor, are described. The deoxy cannabinoids include 1-deoxy-11-hydroxy-Δ⁸-THC (5), 1-deoxy-Δ⁸-THC (6), 1-deoxy-3-butyl-Δ⁸-THC (7), 1-deoxy-3-hexyl-Δ⁸-THC (8) and a series of 3-(1′,1′-dimethylalkyl)-1-deoxy-Δ⁸-THC analogues (2, n=0–4, 6, 7, where n=the number of carbon atoms in the side chain−2). Three derivatives (17–19) of deoxynabilone (16) were also prepared. The affinities of each compound for the CB₁ and CB₂ receptors were determined employing previously described procedures. Five of the 3-(1′,1′-dimethylalkyl)-1-deoxy-Δ⁸-THC analogues (2, n=1–5) have high affinity (K_i=<20 nM) for the CB₂ receptor. Four of them (2, n=1–4) also have little affinity for the CB₁ receptor (K_i=>295 nM). 3-(1′,1′-Dimethylbutyl)-1-deoxy-Δ⁸-THC (2, n=2) has very high affinity for the CB₂ receptor (K_i=3.4±1.0 nM) and little affinity for the CB₁ receptor (K_i=677±132 nM).

Scheme 3. (a) (C₆H₅)₃PCH₃⁺ Br⁻, n-BuLi/THF, 65°C; (b) LiAlH₄/THF, 25°C; (c) KBH(sec-Bu)₃/THF, −78 to 25°C then H₂O₂/NaOH.     

Induction of the high-affinity nerve growth factor receptor on embryonic chicken sensory nerve cells by elevated potassium

Culture medium with elevated K⁺ has been shown to enhance the survival of neurons isolated from several different regions of the nervous system. Nerve growth factor binds to binding sites on sensory and sympathetic neurons through two sites, one of high-affinity (K _d13×10^–11 M) and the other of low-affinity (K _d22×10^–9 M). Equilibrium binding data generated on dissociated cells derived from E9 chicken embryo dorsal root ganglia, has shown that there is a two-fold increase in the number of high affinity (type I) receptors, with no effect on the affinity, when cells are incubated for 2 hours in buffer containing 59 mM K⁺. There does not appear to be a significant change in the affinity or the number of low-affinity binding sites. This two-fold increase in type I receptors is dependent on temperature, Ca²⁺, and active protein synthesis. There does not appear to be an intracellular pool of the type I receptor sufficient to account for this increase. The induction is not observed on sensory nerve cells cultured in 59 mM K⁺ for 24 hours, either in the presence or absence of nerve growth factor. Additionally, the induction in the number of type I receptors requires that both nerve growth factor and K⁺ be present simultaneously. Taken in total, this data suggests that there may be a critical period in which the sensory neurons require nerve growth factor exposure to respond. Evidence is presented which indicates that nerve growth factor responsive cells are able to elicit neurites after an acute exposure to nerve growth factor of as little as 4 hours. Finally, there is an approximate two-fold decrease in the concentration of nerve growth factor needed to elicit maximal fiber outgrowth, consistent with the two-fold increase in the number of type I receptors.Abbreviations NGF nerve growth factor - 7S NGF the high molecular weight form of NGF - NGF the -subunit of 7S NGF - ¹²⁵I-NGF ¹²⁵I-labeled NGF - mNGF–_rAb polyclonal rabbit IgG raised against mouse NGF - DRG dorsal root ganglia - K_d the equilibrium dissociation constant - N the maximal number of binding sites for the ligand NGF - NGFR the biologically relevant receptor through which the neurite outgrowth and neuron survival are mediated - GBS Gey's balanced salts - HKGBS high K⁺ GBS - PBG phosphate buffered GBS - HKPBG high K⁺ PBG - CFHKPBG Ca⁺² free high K⁺ PBG - PBG-cyt c PBG containing 2 mg/ml cytochrome c - HKPBG-cyt c HKPBG containing 2 mg/ml cytochrome c - AbU antibody unit - BU biological unit PBS, phosphate buffered saline - HKPBS high K⁺ PBS Special Issue dedicated to Dr. E. M. Shooter and Dr. S. Varon.     

Structure and function of the yeast vacuolar membrane proton ATPase

Our current work on a vacuolar membrane proton ATPase in the yeastSaccharomyces cerevisiae has revealed that it is a third type of H⁺-translocating ATPase in the organism. A three-subunit ATPase, which has been purified to near homogeneity from vacuolar membrane vesicles, shares with the native, membrane-bound enzyme common enzymological properties of substrate specificities and inhibitor sensitivities and are clearly distinct from two established types of proton ATPase, the mitochondrial F₀F₁-type ATP synthase and the plasma membrane E₁E₂-type H⁺-ATPase. The vacuolar membrane H⁺-ATPase is composed of three major subunits, subunita (M _r =67 kDa),b (57kDa), andc (20 kDa). Subunita is the catalytic site and subunitc functions as a channel for proton translocation in the enzyme complex. The function of subunitb has not yet been identified. The functional molecular masses of the H⁺-ATPase under two kinetic conditions have been determined to be 0.9–1.1×10⁵ daltons for single-cycle hydrolysis of ATP and 4.1–5.3×10⁵ daltons for multicycle hydrolysis of ATP, respectively.N,N-Dicyclohexylcarbodiimide does not inhibit the former reaction but strongly inhibits the latter reaction. The kinetics of single-cycle hydrolysis of ATP indicates the formation of an enzyme-ATP complex and subsequent hydrolysis of the bound ATP to ADP and Pi at a 7-chloro-4-nitrobenzo-2-oxa-1,3-diazolesensitive catalytic site. Cloning of structural genes for the three subunits of the H⁺-ATPase (VMA1, VMA2, andVMA3) and their nucleotide sequence determination have been accomplished, which provide greater advantages for molecular biological studies on the structure-function relationship and biogenesis of the enzyme complex. Bioenergetic aspects of the vacuole as a main, acidic compartment ensuring ionic homeostasis in the cytosol have been described.Abbreviations CCCP carbonyl cyanidem-chlorophenyl hydrazone - DCCD N,N-dicyclohexylcarbondiimide - DES diethylstilbestrol - DIDS 4,4-diisothiocyano-2,2-stilbene disulfonic acid - NBD-Cl 7-chloro-4-nitrobenzo-2-oxa-1,3-diazole - Pi inorganic phosphate - SDS sodium dodecylsulfate - SF6847 3,5-di-tert-butyl-4-hydroxybenzylidenemalononitrile - SITS 4-acetamide-4-isothiocyanatostilbene-2,2-disulfonic acid - ZW3-14 N-tetradecyl-N,N-dimethyl-3-ammonio-1-propanesulfonate     

Molecular,pharmacological, and signaling properties of octopamine receptors from honeybee (Apis mellifera) brain

G protein‐coupled receptors are important regulators of cellular signaling processes. Within the large family of rhodopsin‐like receptors, those binding to biogenic amines form a discrete subgroup. Activation of biogenic amine receptors leads to transient changes of intracellular Ca²⁺‐([Ca²⁺]_i) or 3′,5′‐cyclic adenosine monophosphate ([cAMP]_i) concentrations. Both second messengers modulate cellular signaling processes and thereby contribute to long‐lasting behavioral effects in an organism. In vivo pharmacology has helped to reveal the functional effects of different biogenic amines in honeybees. The phenolamine octopamine is an important modulator of behavior. Binding of octopamine to its receptors causes elevation of [Ca²⁺]_i or [cAMP]_i. To date, only one honeybee octopamine receptor that induces Ca²⁺ signals has been molecularly and pharmacologically characterized. Here, we examined the pharmacological properties of four additional honeybee octopamine receptors. When heterologously expressed, all receptors induced cAMP production after binding to octopamine with EC_50s in the nanomolar range. Receptor activity was most efficiently blocked by mianserin, a substance with antidepressant activity in vertebrates. The rank order of inhibitory potency for potential receptor antagonists was very similar on all four honeybee receptors with mianserin >> cyproheptadine > metoclopramide > chlorpromazine > phentolamine. The subroot of octopamine receptors activating adenylyl cyclases is the largest that has so far been characterized in arthropods, and it should now be possible to unravel the contribution of individual receptors to the physiology and behavior of honeybees.

     

Neurochemical,pharmacological, and developmental studies on cerebellar receptors for dicarboxylic amino acids

Specific binding ofl-[³H]glutamate ([³H]Glu) andl-[³H]asparate ([³H]Asp) to cerebellar membranes represented a time-, temperature- pH- and protein-dependent interaction which was both saturable and reversible. Binding sites for both radioligands appeared maximally enriched in synaptosomal fractions isolated by gradient centrifugation. Kinetically derived dissociation constant (K _off/K _on=K _d) for [³H]Glu binding to this fraction indicated high-affinity (443 nM). Competition experiments employing analogs of excitatory amino acids, including new antagonists, helped identify binding sites for [³H]Glu and [³H]Asp as receptors with differential pharmacological, specificities. Membrane freezing reduced numbers of both receptor types, but binding activity could be recovered partially by incubation at 37°C. Glu receptors exhibited a pronounced deleterious sensitivity to thiol modifying reagents andl-Glu (50–1000 M) provided protection, against these compounds during co-incubation with cerebellar membranes. It is suggested that cold storage may induce partially reversible receptor inactivation by promoting sulfhydryl group/bond modification. Rat cerebellar glutamatergic function (endogenous Glu content, Glu uptake and receptor sites) exhibited an apparent ontogenetic peak between days 8–12 postpartum with a plateauing profile from day 30 to adulthood. The accelerated development (days 8–12) coincides with the first demonstrable Glu release and kainic acid neurotoxicity, as described previously.