Toxicity of organotins towards cyanobacterial photosynthesis and nitrogen fixation

Abstract Inhibition of photosynthesis by a range of organotin compounds in Plectonema boryanum was concentration-dependent and decreased in the order tributyltin (Bu₃SnCl) > tripropyltin (Pr₃SnCl) ≥ dibutyltin (Bu₂SnCl₂) ≥ triphenyltin (Ph₃SnCl) > triethyltin (Et₃SnCl) > trimethyltin (Me₃SnCl) > monobutyltin (BuSnCl₃). IC₅₀ values were determined for the most toxic organotin species and varied from approximately 1.2 μM for Bu₃SnCl to approximately 13 μM for Ph₃SnCl. A similar order of inhibition of photosynthesis was observed in Anabaena cylindrica , although here IC₅₀ values were slightly lower (e.g. approximately 1 μM for Bu₃SnCl and 5 μM for Ph₃SnCl).Nitrogenase activity was generally more sensitive to inhibition by organotin compounds than photosynthesis in A. cylindrica and this was particularlyy evident for Bu₂SnCl₂; approximate IC₅₀ values for Bu₂SnCl₂ were 3 and 9 μM, as estimated by nitrogenase activity and photosynthesis, respectively. These results indicate that organotin compounds have the potential to inhibit cyanobacterial metabolism in aquatic systems.     

Effect of Inhibitors of GABA Transaminase on the Synthesis, Binding, Uptake and Metabolism of GABA

Abstract: Four catalytic inhibitors of GABA aminotransferase (gabaculine, γ-acetylenic GABA, γ-vinyl GABA, ethanolamine O -sulphate) as well as aminooxyacetic acid and valproate were studied for effects on neurochemical assays for GABA synthesis, receptor binding, uptake and metabolism in mouse and rat brain preparations. Gabaculine did not interfere with GABA synthesis as reflected by the activity of glutamate decarboxylase (GAD), it was only a weak inhibitor (IC₅₀= 0.94 mM) of GABA receptor binding sites but was a moderately potent inhibitor of GABA uptake (IC₅₀= 81 μM) and very potent (IC₅₀= 1.8 μM) with respect to inhibition of the GABA-metabolizing enzyme GABA aminotransferase (GABA-T). γ-Acetylenic GABA was a weak inhibitor of GAD and GABA binding (IC₅₀ > 1 mM), but virtually equipotent to inhibit uptake and metabolism of GABA (IC₅₀ 560 and 150 μM, respectively). This was very similar to γ-vinyl GABA, except that this drug did not decrease GAD activity. Ethanolamine O -sulphate was found to show virtually no inhibition of GAD and GABA uptake, but was a fairly potent inhibitor of GABA binding (IC₅₀= 67 μM) and in this respect, 500 times more potent than as an inhibitor of GABA-T. Aminooxyacetic acid was a powerful inhibitor of both GAD and GABA-T (IC₅₀ 14 and 2.7 μM, respectively), but had very little affinity to receptor and uptake sites for GABA. Valproate showed no effects on GABA neurochemical assays which could be related to anticonvulsant action. The present results suggest that the anticonvulsant properties of the four catalytic inhibitors of GABA-T tested are at least in part mediated through a direct influence on GABA receptors and uptake sites.     

Interaction of α-conotoxin ImII and its analogs with nicotinic receptors and acetylcholine-binding proteins: additional binding sites on Torpedo receptor

α-Conotoxins interact with nicotinic acetylcholine receptors (nAChRs) and acetylcholine-binding proteins (AChBPs) at the sites for agonists/competitive antagonists. α-Conotoxins blocking muscle-type or α7 nAChRs compete with α-bungarotoxin. However, α-conotoxin ImII, a close homolog of the α7 nAChR-targeting α-conotoxin ImI, blocked α7 and muscle nAChRs without displacing α-bungarotoxin ( Ellison et al. 2003, 2004 ), suggesting binding at a different site. We synthesized α-conotoxin ImII, its ribbon isomer (ImII iso ), 'mutant' ImII(W10Y) and found similar potencies in blocking human α7 and muscle nAChRs in Xenopus oocytes. Both isomers displaced [¹²⁵I]-α-bungarotoxin from human α7 nAChRs in the cell line GH₄C₁ (IC₅₀ 17 and 23 μM, respectively) and from Lymnaea stagnalis and Aplysia californica AChBPs (IC₅₀ 2.0–9.0 μM). According to SPR measurements, both isomers bound to immobilized AChBPs and competed with AChBP for immobilized α-bungarotoxin ( K _d and IC₅₀ 2.5–8.2 μM). On Torpedo nAChR, α-conotoxin [¹²⁵I]-ImII(W10Y) revealed specific binding ( K _d 1.5–6.1 μM) and could be displaced by α-conotoxin ImII, ImII iso and ImII(W10Y) with IC₅₀ 2.7, 2.2 and 3.1 μM, respectively. As α-cobratoxin and α-conotoxin ImI displaced [¹²⁵I]-ImII(W10Y) only at higher concentrations (IC₅₀≥ 90 μM), our results indicate that α-conotoxin ImII and its congeners have an additional binding site on Torpedo nAChR distinct from the site for agonists/competitive antagonists.     

Spiroethers of German chamomile inhibit production of aflatoxin G1 and trichothecene mycotoxin by inhibiting cytochrome P450 monooxygenases involved in their biosynthesis

The essential oil of German chamomile showed specific inhibition toward aflatoxin G₁ (AFG₁) production, and ( E )- and ( Z )-spiroethers were isolated as the active compounds from the oil. The ( E )- and ( Z )-spiroethers inhibited AFG₁ production of Aspergillus parasiticus with inhibitory concentration 50% (IC₅₀) values of 2.8 and 20.8 μM, respectively, without inhibiting fungal growth. Results of an O- methylsterigmatocystin (OMST) conversion study indicated that the spiroethers specifically inhibited the OMST to AFG₁ pathway. A cytochrome P450 monooxygenase, CYPA, is known as an essential enzyme for this pathway. Because CYPA has homology with TRI4, a key enzyme catalyzing early steps in the biosynthesis of trichothecenes, the inhibitory actions of the two spiroethers against TRI4 reactions and 3-acetyldeoxynivalenol (3-ADON) production were tested. ( E ) - and ( Z ) - spiroethers inhibited the enzymatic activity of TRI4 dose-dependently and interfered with 3-ADON production by Fusarium graminearum , with IC₅₀ values of 27.1 and 103 μM, respectively. Our results suggest that the spiroethers inhibited AFG₁ and 3-ADON production by inhibiting CYPA and TRI4, respectively.     

Phloretin as an Antagonist of Prostaglandin F2α Receptor in Cultured Rat Astrocytes

Abstract: The effect of phloretin on prostaglandin (PG) F_2α-induced phosphoinositide hydrolysis and elevation of intracellular Ca²⁺ concentration was examined in cultured rat astrocytes. Phloretin inhibited PGF_2α (1 μ M )-induced phosphoinositide hydrolysis in a concentration-dependent manner with an IC₅₀ value of 16 μ M . The inhibitory action of phloretin was specific for PGs. The addition of increasing concentrations of phloretin caused progressive shifts of the dose-response curves of PGF_2α to the right. In digitoninpermeabilized astrocytes, phloretin (100 μ M ) inhibited the stimulation induced by PGF_2α (1 μ M ) plus GTPγS (50 μ M ) without affecting that induced by GTPγS alone. PGF_2α at 1 μ M transiently increased astrocytic intracellular Ca²⁺ concentration in 39% of the cells tested. The response was completely blocked by 100 μ M phloretin and the calcium response recovered again after washing out phloretin. These results suggest that phloretin is an antagonist of PGF_2α receptor linked to phospholipase C in astrocytes.     

Binding Characteristics and Interactions of Depressant Drugs with [35S]t-Butylbicyclophosphorothionate, a Ligand that Binds to the Picrotoxinin Site

Abstract: [³⁵S]r-Butylbicyclophosphorothionate (TBPT), a cage convulsant with picrotoxinin-like activity, binds to rat brain membranes to a single site with an apparent K_D of 25.1 ± 5.6 n M and a B_max of 1.40 ± 0.22 pmol/mg protein. TBPT binding to rat brain membranes was inhibited by a variety of convulsant, depressant, anxiolytic, and anticonvulsant drugs that had previously been shown to inhibit [³H]a-dihydropicrotoxinin binding. Depressant drugs such as pentobarbital and the nonbarbiturate (+)etomidate inhibited TBPT binding in an uncompetitive manner. Thus, pentobarbital and (+)etomidate decreased both the affinity and the number of binding sites of TBPT to whole brain membranes. The IC₅₀ values of (+)etomidate (9 μ M ) and pentobarbital (90 μ M ) are similar to the EC₅₀ values at which they enhance both [³H]-γ-aminobutyric acid and [³H]diazepam binding in cerebral cortex membranes. RO5–4864, which has recently been shown to be a convulsant, also inhibited TBPT binding (IC₅₀= 10 μ M ). These results suggest that TBPT binds to the picrotoxinin site and further supports the notion that the picrotoxinin site is an important modulatory site at the benzodiazepine-GABA receptor-ionophore complex.     

Structure and Functional Characterization of a Novel Human Low-Voltage Activated Calcium Channel

Abstract : We have isolated and characterized overlapping cDNAs encoding a novel, voltage-gated Ca²⁺ channel α₁ subunit, α_1H, from a human medullary thyroid carcinoma cell line. The α_1H subunit is structurally similar to previously described α₁ subunits. Northern blot analysis indicates that α_1H mRNA is expressed throughout the brain, primarily in the amygdala, caudate nucleus, and putamen, as well as in several nonneuronal tissues, with relatively high levels in the liver, kidney, and heart. Ba²⁺ currents recorded from human embryonic kidney 293 cells transiently expressing α_1H activated at relatively hyperpolarized potentials (-50 mV), rapidly inactivated (τ = 17 ms), and slowly deactivated. Similar results were observed in Xenopus oocytes expressing α_1H. Singlechannel measurements in human embryonic kidney 293 cells revealed a single-channel conductance of ~9 pS. These channels are blocked by Ni²⁺ (IC₅₀ = 6.6 μ M ) and the T-type channel antagonists mibefradil (~50% block at 1 μ M ) and amiloride (IC₅₀ = 167 μ M ). Thus, α_1H-containing channels exhibit biophysical and pharmacological properties characteristic of low voltage-activated, or T-type, Ca²⁺ channels.     

Aurintricarboxylic Acid Prevents NMDA-Mediated Excitotoxicity: Evidence for Its Action as an NMDA Receptor Antagonist

Abstract: The effect of the endonuclease inhibitor aurintricarboxylic acid (ATA) versus NMDA-mediated delayed cell death was examined in an ex vivo chick retinal preparation. Transient exposure to 100 μM NMDA for 60 min followed by a 24-h recovery period resulted in a sevenfold increase in lactate dehydrogenase (LDH) release into the medium. ATA at 100 μM significantly reduced NMDA-mediated LDH release by 60%. In clarifying the mechanism of protection versus NMDA, ATA was found to inhibit several acute NMDA-mediated effects: ATA attenuated NMDA-mediated GABA release in a dose-dependent manner (IC₅₀= 29.5 μM ), prevented NMDA-stimulated cyclic GMP formation, and blocked NMDA-mediated ²²Na⁺ influx. These acute inhibitory effects of ATA were overcome by increasing the NMDA concentration, which suggested a competitive interaction between NMDA and ATA. In a binding assay using membranes prepared from adult rat forebrain, ATA displaced the competitive NMDA receptor ligand [³H]CGS 19755 with an IC₅₀ of 26.9 μM. Maximal displacement was 88% with 100 μM ATA. These studies demonstrate that ATA protected neurons from NMDA-mediated cell death upstream of endonuclease inhibition, i.e., by antagonizing NMDA receptor activity in a manner consistent with competitive antagonism.     

Anti-Candida activity of four antifungal benzothiazoles

Abstract Anti- Candida activity of 6-amino-2- n -pentylthiobenzothiazole (I), benzylester of (6-amino-2-benzothiazolylthio)acetic acid (II) and of 3-butylthio-(1,2,4-triazolo)-2,3-benzothiazole (III) was followed and compared to that of 2-mercaptobenzothiazole (IV). I and II exhibited good activity against the C. albicans yeast form, similar to IV. They were inhibitorily active against other Candida strains, IC₅₀ values being of the order of 10⁻⁵ M, which means better activity than IV. Compound I also exhibited inhibitory activity on germ-tube formation and mycelial growth in the C. albicans strains, while II, III and IV were not active in these tests. III was the least active form of the compounds tested, IC₅₀ values being of the order of 10⁻⁴ M. All the compounds tested were highly active on a nystatin-resistant C. albicans mutant, with IC₅₀s of the order of 10⁻⁶ M−10⁻⁵ M.     

Effects of Polyamines on the Uptake of Neurotransmitters by Rat Brain Synaptosomes

Abstract: The influence of putrescine, spermidine, spermine, and some aliphatic α,ω-diamines on the uptake of neurotransmitters by rat forebrain synaptosomes was investigated. Choline uptake was most effectively inhibited by spermine (IC₅₀= 0.22 m M ), less so by spermidine (IC₅₀= 4.0 m M ), but not by putrescine (IC₅₀ > 100 m M ). At 10 m M, 1,3-diaminopropane, cadaverine, and 1,8-diaminooctane all inhibited choline uptake by 50% or more. Spermine and spermidine inhibited the uptake of dopamine with IC₅₀ values of 2.7 and 2.2 m M , respectively. Putrescine was only slightly inhibitory (IC₅₀= 17.3 m M ) and the other diamines were inactive. The uptake of γ-aminobutyrate (GABA) was only slightly inhibited (15–40%) by the polyamines at 10 m M . With the exception of inhibition of glycine uptake by 1,8-diaminooctane (60%) and of glutamate uptake by cadaverine (35%) none of the polyamines, tested at 10 m M , affected the uptake of adenosine, glutamate, and glycine significantly. A possible modulatory role for polyamines in synaptic transmission through interaction by negatively charged groups of the synaptic membrane with the polycationic compounds is discussed.     

Effect of Homo-β-Proline and Other Heterocyclic GAB A Analogues on GABA Uptake in Neurons and Astroglial Cells and on GABA Receptor Binding

Abstract: Two groups of GABA (γ-aminobutyric acid) analogues, one comprising derivatives of β-proline and the other compounds structurally related to nipecotic acid, were investigated as potential inhibitors of high-affinity GABA transport in neurons and glial cells, as well as displacers of GABA receptor binding. In addition to cis -4-hydroxynipecotic acid, which is known as a potent inhibitor of GABA uptake, homo-β-proline was the only compound which proved to be a potent inhibitor of glial as well as neuronal GABA uptake. IC₅₀ values for GABA uptake into glial cells and brain cortex "prisms" were 20 and 75 μM, respectively, and the IC₅₀ value obtained for GABA uptake into cultured neurons was 10 μM. A kinetic analysis of the action of homo-β-proline on GABA uptake into cultured astrocytes and neurons showed that this compound acts as a competitive inhibitor of GABA uptake in both cell types. From the apparent K _m values, K _i values for homo-β-proline of 16 and 6 μM could be calculated for glial and neuronal uptake, respectively. This mechanism of action strongly suggests that homo-β-proline interacts with the GABA carriers. Furthermore, homo-β-proline also displaced GABA from its receptor with an IC₅₀ value of 0.3 μM. The cis -4-hydroxynipecotic acid analogues, cis- and trans-4-mercaptonipecotic acid, had no inhibitory effect on glial or neuronal GABA uptake. Other SH reagents, PCMB, NEM and DTNB, were shown to be relatively weak inhibitors of GABA uptake into cultured astrocytes, suggesting that SH groups are not directly involved in the interaction between GABA and its transport carrier.     

A Comparison of 2-Hydroxyestradiol and U-0521 (3'4'-Dihydroxy-2-methylpropiophenone, Upjohn) as In Situ and In Vitro Inhibitors of Tyro sine Hydroxylase

Abstract: Feedback inhibition of tyrosine hydroxylase by catechols was evaluated using in situ and in vitro enzyme assays. The three catechol compounds used were norepinephrine, 2-hydroxyestradiol, and 3'4'-dihydroxy-2-methylpropiophenone (U-0521, Upjohn); representing endogenous catechol-amines, catechol estrogens, and a synthetic catechol, respectively. The in situ experiments were performed with dissociated retinal cells from rats and with stationary phase adrenergic-like neuroblastoma cells (N1E-115). The catechol estrogen, 2-hydroxyestradiol, resembled the endogenous catecholamines in its potency to inhibit in vitro and in situ tyrosine hydroxylations with IC₅₀ values of 10 μM in vitro and 100 μM in situ. The drug U-0521, which has been used as an inhibitor of catechol- O -methyltransferase (COMT), was also found to be an inhibitor of tyrosine hydroxylase. Further, it was shown to be more potent than the natural catechols, both in vitro and in situ , with IC₅₀ values of 30–600 nM.     

Inhibition of Brain Glycolysis by Aluminum

Abstract: Aluminum inhibited both the cytosolic and mitochondrial hexokinase activities in rat brain. The IC₅₀ values were between 4 and 9 μ M . Aluminum was effective at mildly acidic (pH 6.8) or slightly alkaline (pH 7.2–7.5) pH, in the presence of a physiological level of magnesium (0.5 m M ). However, saturating (8 m M ) magnesium antagonized the effect of aluminum on both forms of hexokinase activity. Other enzymes examined were considerably less sensitive to inhibition by aluminum. The IC₅₀ of aluminum for phosphofructokinase was 1.8 m M and for lactate dehydrogenase 0.4 m M . At 10–600 μ M , aluminum actually stimulated pyruvate kinase. Aluminum also inhibited lactate production by rat brain extracts: this effect was much more marked with glucose as substrate than with glucose-6-phosphate. However, the IC₅₀ for inhibiting lactate production using glucose as substrate was 280 μ M , higher than that required to inhibit hexokinase. This concentration of aluminum is comparable to those reportedly found in the brains of patients who had died with dialysis dementia and in the brains of some of the patients who had died with Alzheimer disease. Inhibition of carbohydrate utilization may be one of the mechanisms by which aluminum can act as a neurotoxin.     

Coupling of the Human Y2 Receptor for Neuropeptide Y and Peptide YY to Guanine Nucleotide Inhibitory Proteins in Permeabilized SMS-KAN Cells

Abstract: Using guanine nucleotides, pertussis toxin, and specific antisera against the COOH-terminals of the α-subunits of G_i1/2, G_i3, and G_o, the binding and biological response of the Y2 receptor (Y2R) for peptide YY (PYY) was probed in SMS-KAN neuroblastoma cells. The specific binding of radiolabeled PYY exhibited a single apparent dissociation constant, K _D = 76 p M for intact cells and K _D = 906 p M for permeabilized cells. However, other data suggested existence of multiple receptor affinity states. A shift in K _D and a decrease in apparent number of binding sites ( B _max) was observed in permeabilized cells when incubated with guanine nucleotides. By contrast, in membrane preparations guanine nucleotides induced only a decrease in B _max. In intact cells, agonist exposure inhibited the intracellular accumulation of forskolin-stimulated cyclic AMP by 80% (IC₅₀ = 420 n M ) compared with 94% inhibition (IC₅₀ = 380 n M ) in permeabilized cells. In permeabilized cells, preincubation with antisera against α_i1/2 and α_i3 blocked the functional response of PYY, with anti-α_i3 being the most potent; whereas anti-α_o failed to affect the cyclic AMP levels. These results suggest that permeabilized SMS-KAN cells serve as a good model system for analysis of Y2R binding kinetics and functional response and that the Y2R interacts directly with several different G_is (but not G_o).     

Endogenous cannabinoid anandamide inhibits nicotinic acetylcholine receptor function in mouse thalamic synaptosomes

The effects of the endogenous cannabinoid anandamide [arachidonylethanolamide (AEA)] on the function of nicotinic acetylcholine receptor (nAChR) were investigated using the ⁸⁶Rb⁺ efflux assay in thalamic synaptosomes. AEA reversibly inhibited ⁸⁶Rb⁺ efflux induced by 300 μM ACh with an IC₅₀ value of 0.9 ± 2 μM. Pre-treatment with the cannabinoid (CB₁) receptor antagonist SR141716A (1 μM), the CB₂ receptor antagonist SR144528 (1 μM), or pertussis toxin (0.2 mg/mL) did not alter the inhibitory effects of AEA, suggesting that known CB receptors are not involved in AEA inhibition of nAChRs. AEA inhibition of ⁸⁶Rb⁺ efflux was not reversed by increasing acetylcholine (ACh) concentrations. In radioligand binding studies, the specific binding of [³H]-nicotine was not altered in the presence of AEA, indicating that AEA inhibits the function of nAChR in a non-competitive manner. Neither the amidohydrolase inhibitor phenylmethylsulfonyl fluoride (0.2 mM) nor the cyclooxygenase inhibitor, indomethacin, (5 μM) affected AEA inhibition of nAChRs, suggesting that the effect of AEA is not mediated by its metabolic products. Importantly, the extent of AEA inhibition of ⁸⁶Rb⁺ efflux was significantly attenuated by the absence of 1% fatty acid free bovine serum albumin pre-treatment, supporting previous findings that fatty acid-like compounds modulate the activity of nAChRs. Collectively, the results indicate that AEA inhibits the function of nAChRs in thalamic synaptosomes via a CB-independent mechanism and that the background activity of these receptors is affected by fatty acids and AEA.     

A Comparison of the Effects of Ethanol and the Competitive Glycine Antagonist 7-Chlorokynurenic Acid on N-Methyl-d-Aspartic Acid-Induced Neurotransmitter Release from Rat Hippocampal Slices

Abstract: N -Methyl- d -aspartate (NMDA; 500 μ M ) stimulated the net release of preloaded tritiated norepinephrine from rat hippocampal slices. Both ethanol and the competitive glycine antagonist 7-chlorokynurenic acid (7-CK) dose-dependently inhibited NMDA-stimulated release without affecting basal, nonstimulated efflux. These inhibitory effects were readily reversed upon washout of the drugs. Over the concentration range tested (25–200 m M ), ethanol inhibited ∼65% of NMDA-stimulated release with an estimated IC₅₀ of ∼70 m M . In contrast, 7-CK fully inhibited release (>95%) at a concentration of 30 μ M with half-maximal inhibition occurring at ∼2 μ M . The combination of 7-CK (1–30 μ M ) and ethanol (25–100 m M ) had an additive inhibitory effect on NMDA-stimulated release but did not alter the inhibitory potency of 7-CK. Calculated IC₅₀values for 7-CK in the presence of 25, 50, or 100 m M ethanol were (mean × SEM; μ M ) 2.33 (0.11), 2.38 (0.23), and 1.99 (0.30), respectively. 7-CK (3 μ M ) inhibited NMDA-stimulated [³H]norepinephrine release by ∼50%. This inhibition was fully attenuated by the addition of the glycine agonistserine with complete reversal occurring at 30 μ M d -serine. Increasing the 7-CK concentration to 10 μ M shifted the d -serine dose-effect curve to the right in a parallel fashion as expected for a competitive antagonist. In contrast, the inhibitory effects of ethanol or the combination of 7-CK (3 μ M ) and ethanol (25 or 50 m M ) were not reversed by the addition of d -serine (0.1–1,000 μ M ). Together, these results suggest that ethanol's inhibition of NMDA-stimulated [³H]norepinephrine release from hippocampal slices is not due to a simple competitive interaction with the glycine site on the NMDA receptor.     

Effects of di-n-butyl phthalate on growth and photosynthesis in algae and on isolated organelles from higher plants

Di- n -butyl phthalate (DBF) is widely used as a plasticizer and has been found in all types of ecosystems. It inhibits growth and photosynthesis of green algae ( Chlorella emersonii CCAP strain 211/8 h and Selenastrum capricornutum CCAP strain 278/4) at concentrations higher than 10-⁵ M . The IC₅₀ value for CO₂-dependent oxygen evolution in algae was 3 × 10^-4M. The CO₂-reduction in isolated protoplasts prepared from barley ( Hordeum vulgare L. cv. Simba) was also inhibited by phthalate. The IC₅₀ value was 2 × 10^-4 M . The electron transport in isolated thylakoids prepared from spinach was inhibited with an IC₅₀ value of 3 × 10^-4 M . The IC₅₀ value for uncoupled electron transport extrapolated to zero chlorophyll concentration was 2.5 × 10^-5 M . The effect of di-n-butyl phthalate was localized to reactions in photosystem II. Di-n-butyl phthalate could thus be a pollutant which affects growth and photosynthesis of plants. The reported IC₅₀ values may be underestimated since di- n -butyl phthalate can attach to surfaces. The results are discussed in relation to observed effects of di- n -butyl phthalate on other organisms.     

Proadrenomedullin N-Terminal 20 Peptide (PAMP), an Endogenous Anticholinergic Peptide: Its Exocytotic Secretion and Inhibition of Catecholamine Secretion in Adrenal Medulla

Abstract: In cultured bovine adrenal medullary cells, stimulation of nicotinic receptors by carbachol evoked the Ca²⁺-dependent exocytotic cosecretion of proadrenomedullin N-terminal 20 peptide (PAMP) (EC₅₀ = 50.1 µ M ) and catecholamines (EC₅₀ = 63.0 µ M ), with the molar ratio of PAMP/catecholamines secreted being equal to the ratio in the cells. Addition of PAMP[1–20]NH₂ inhibited carbachol-induced ²²Na⁺ influx via nicotinic receptors (IC₅₀ = 2.5 µ M ) in a noncompetitive manner and thereby reduced carbachol-induced ⁴⁵Ca²⁺ influx via voltage-dependent Ca²⁺ channels (IC₅₀ = 1.0 µ M ) and catecholamine secretion (IC₅₀ = 1.6 µ M ). It did not alter high K⁺-induced ⁴⁵Ca²⁺ influx via voltage-dependent Ca²⁺ channels or veratridine-induced ²²Na⁺ influx via voltage-dependent Na⁺ channels. PAMP seems to be a novel antinicotinic peptide cosecreted with catecholamines by a Ca²⁺-dependent exocytosis in response to nicotinic receptor stimulation.     

[3H]LY303870, a Novel Nonpeptide Radioligand for the NK-1 Receptor

Abstract: We synthesized a potent and selective antagonist radioligand for the neurokinin (NK)-1 receptor and characterized its binding to guinea pig striatal membranes. ( R ) - N - [2 - [Acetyl[³H₃][(2 - methoxyphenyl) - methyl]amino] - 1 - (1 H - indol - 3 - ylmethyl)ethyl][1,4' - bipiperidine]-1'-acetamide ([³H]LY303870) binds to a single class of sites with an equilibrium K _D of 0.22 n M and a B _max of 723 fmol/mg of protein. Unlabeled LY303870 potently inhibited the binding with an IC₅₀ of 0.56 n M , whereas the less active ( S )-enantiomer (LY306155) was substantially less potent. The nonpeptide NK-1 antagonists (±)-CP96,345 and (±)-RP 67580 had IC₅₀ values of 0.74 and 49 n M , respectively. Substance P (SP) was also a potent inhibitor with with an IC₅₀ of 3.1 n M . The inhibition by SP could be separated into two components: a high-affinity component with a K _i of 0.53 n M and a lower-affinity component with a K _i of 155 n M . Addition of 100 µ M guanylyl 5'-imidodiphosphate [Gpp(NH)p] in the incubation increased the relative amount of the low-affinity agonist state of the receptor. Consistent with the antagonist properties of LY303870, the dissociation rate of [³H]LY303870 was not changed by the presence of 100 µ M Gpp(NH)p. The distribution of [³H]LY303870 binding sites in the guinea pig brain closely matched the distribution of NK-1 receptors labeled by [³H]SP. Therefore, [³H]LY303870 is a potent and selective antagonist radioligand for NK-1 receptors in guinea pig brain. In addition, regulation of NK-1 agonist affinity by guanine nucleotides is similar to that seen for monoaminergic receptors.     

(S)-Carboxy-3-Hydroxyphenylglycine, an Antagonist of Metabotropic Glutamate Receptor (mGluR)1a and an Agonist of mGluR2, Protects Against Audiogenic Seizures in DBA/2 Mice

Abstract: The in vivo anticonvulsant effects and in vitro metabo-tropic glutamate receptor selectivity of ( S )-4-carboxy-3-hydroxy-phenylglycine [(S)-4C3HPG] were examined. Intracerebroventricular injection of (S)-4C3HPG dose-dependently antagonized audiogenic-induced clonic and tonic convulsions in DBA/2 mice with ED₆₀ values of 76 and 110-nmol per mouse, respectively. (S)-4C3HPG dose-dependently inhibited the spontaneously evoked epileptic spikes in a cingulate cortex-corpus callosum slice preparation. (SJ-4C3HPG displaced the binding of [³H]glutamate in membranes prepared from baby hamster kidney (BHK) cells expressing the metabotropic glutamate receptor mGluR1a with an EC₅₀ of 5 β 1 u M. ( S )-4C3HPG dose-dependently antagonized glutamate-stimulated phosphoinositide hydrolysis in BHK cells expressing mGluR 1a with an IC₅₀ of 15 β 3 μ M. ( S )-4C3HPG was, however, an agonist at mGluR2 with an EC₆₀ of 21 β 4 μ M for inhibition of forskolin-stimulated cyclic AMP formation in BHK cells expressing the mGluR2. ( S )-4C3HPG had no effects at mGluR4a. These data suggest that the anticonvulsant action of ( S )-4C3HPG is mediated by combined antagonism of mGluRIa and agonism of mGluR2. These results suggest the importance of mGluR1a and/or mGluR2 in the control of epileptic activity.