Accumulation of inositol phosphates and cyclic AMP in guinea-pig cerebral cortical preparations: Effects of norepinephrine,histamine, carbamylcholine and 2-chloroadenosine

Norepinephrine and serotonin augment by about 2-fold the accumulation of cyclic [3H]AMP elicited by 2-chloroadenosine in [³H]adenine-labeled guinea-pig cerebral cortical slices. Histamine causes a 3-fold augmentation. The first two agents have no effect on cyclic AMP alone, while histamine has only a small effect alone. The augmentation of the 2-chloroadenosine response appears to be mediated by α₁-adrenergic, 5HT₂-serotonergic and H₂-histaminergic receptors. VIP-elicited accumulations of cyclic AMP are also augmented through stimulation of α₁-adrenergic, 5HT₂-serotonergic and H₁-histaminergic receptors. Activation of these amine receptors also increases the turnover of phosphatidylinositols in [³H]inositol-labeled guinea pig cerebral cortical slices. Norepinephrine causes a 5-fold, serotonin a 1.2-fold, and histamine a 2.5-fold increase in accumulations of [³H]inositol phosphates. 2-Chloroadenosine, vasoactive intestinal peptide, baclofen, and somatostatin have no effect on phosphatidylinositol turnover, nor do the last two agents augment accumulations of cyclic AMP elicited by 2-chloroadenosine. The data suggest a possible relationship between turnover of phosphatidylinositol and the augmentations of the cyclic AMP accumulations elicited by biogenic amines in brain slices.     

Uptake, Release, and Subcellular Localization of l-Methyl-4-Phenylpyridinium in Blood Platelets

The neurotoxic compound 1-[methyl-3H]-4-phenylpyridinium ([3H]MPP+) was actively taken up by human, rabbit, and guinea pig platelets incubated in plasma. In human platelets, the apparent Km of this uptake (22.6 microM) was 50 times higher than that for serotonin [5-hydroxytryptamine (5-HT]). The uptake of [3H]MPP+ by human platelets was inhibited by selective 5-HT uptake blockers [cianopramine, (-)-paroxetine, and clomipramine], by metabolic inhibitors (KCN and ouabain), and by drugs that interfere with amine storage in the 5-HT organelles (reserpine, mepacrine, and Ro 4-1284). Impairment of the transmembrane proton gradient by ionophores (monensin and nigericin) induced a marked release of radioactivity from platelets preincubated with [3H]MPP+. Fractionation of homogenates of rabbit platelets preincubated with [3H]MPP+ showed that the drug was concentrated to a great extent in the 5-HT organelle fraction. MPP+ competitively inhibited [14C]5-HT uptake by human platelets and reduced the endogenous 5-HT content of human, rabbit, and guinea pig platelets. These investigations show that MPP+ is transported into the platelets via the 5-HT carrier and is accumulated predominantly in the subcellular organelles that store 5-HT and other monoamines. It is suggested that an accumulation of MPP+ in amine storage vesicles of neurons may be involved in the effects of the drug in the CNS, e.g., by protecting other subcellular compartments from exposure to high concentrations of MPP+, by sustaining a gradual release of the toxin, or both.     

Determination of Daily Variations of Brain 5-Hydroxytryptamine and Dopamine Turnovers and of the Clearance of Their Acidic Metabolites in Conscious Rats by Repeated Sampling of Cerebrospinal Fluid

Central 5-hydroxytryptamine (5-HT) and dopamine (DA) turnovers were estimated simultaneously in conscious freely moving rats kept on a 12-h dark/12-h light cycle by sampling cisternal CSF of each animal before and after giving probenecid and determining the accumulation of the acidic metabolites of the two amines. The turnovers of both transmitters and the clearances of their acid metabolites from the brain were shown to be significantly greater during the dark (red light) period than during the white light period.     

Synthesis and multinuclear magnetic resonance spectroscopy of the novel ionic Pt(II) mixed-ligands complexes cis- and trans-[Pt(amine)2(pyrimidine)2](NO3)2

Novel ionic mixed-ligands complexes of the types cis- and trans-[Pt(amine)₂(pm)₂](NO₃)₂ (where pm = pyrimidine) were synthesized and studied in the solid state by IR spectroscopy and in aqueous solution by multinuclear (¹⁹⁵Pt, ¹H and ¹³C) magnetic resonance spectroscopy. The results of the solution NMR characterization have shown that the isolated compounds are pure. In ¹⁹⁵Pt NMR, the cis RNH₂ complexes were observed at slightly lower fields (ave. −2441 ppm) than the equivalent trans analogues (ave. −2448 ppm). For Me₂NH, the difference between the two isomers is larger (29 ppm). The complexes are observed at lower fields (difference of 100 ppm) than the corresponding [Pt(amine)₄]²⁺ complexes, which might indicate the presence of π-backdonation in the Pt-pm bond. In ¹H NMR, the coupling constants ³J(¹⁹⁵Pt-¹H_amine) are larger in the cis compounds (38-48 Hz) than in the trans analogues (30-36 Hz). The ³J(¹⁹⁵Pt-¹H_pm) values are also larger for the cis isomers. In ¹³C NMR spectroscopy, the coupling constants ³J(¹⁹⁵Pt-¹³C_amine) are 36 Hz (ave.) for the cis complexes and 26 Hz (ave.) for the trans isomers, while the ²J(¹⁹⁵Pt-¹³C_amine) are 18 Hz (cis) and 14 Hz (trans), respectively. The ³J(¹⁹⁵Pt-¹³C_5(pm)) values are 36 Hz (cis) and 28 Hz (trans). A few ²J(¹⁹⁵Pt-¹³C_pm) couplings were observed (7-10 Hz).     

Cyanide as a copper and quinone-directed inhibitor of amine oxidases from pea seedlings (<Emphasis Type="Italic">Pisum sativum</Emphasis>) and<Emphasis Type="Italic"> Arthrobacter globiformis</Emphasis>: evidence for both copper coordination and cyanohydrin derivatization of the quinone cofactor

The interactions of cyanide with two copper-containing amine oxidases (CuAOs) from pea seedlings (PSAO) and the soil bacterium Arthrobacter globiformis (AGAO) have been investigated by spectroscopic and kinetic techniques. Previously, we rationalized the effects of azide and cyanide for several CuAOs in terms of copper coordination by these exogenous ligands and their effects on the internal redox equilibrium TPQ_amr-Cu(II)TPQ_sq-Cu(I). The mechanism of cyanide inhibition was proposed to occur through complexation to Cu(I), thereby directly competing with O₂ for reoxidation of TPQ. Although cyanide readily and reversibly reacts with quinones, no direct spectroscopic evidence for cyanohydrin derivatization of TPQ has been previously documented for CuAOs. This work describes the first direct spectroscopic evidence, using both model and enzyme systems, for cyanohydrin derivatization of TPQ. K_d values for Cu(II)-CN^– and Cu(I)-CN^–, as well as the K_i for cyanide inhibition versus substrate amine, are reported for PSAO and AGAO. In spite of cyanohydrin derivatization of the TPQ cofactor in these enzymes, the uncompetitive inhibition of amine oxidation is determined to arise almost exclusively through CN^– complexation of Cu(I).Abbreviations AGAO Arthrobacter globiformis amine oxidase - APAO Arthrobacter P1 amine oxidase - APT attached proton test - BPAO bovine plasma amine oxidase - CuAO quinone-copper containing amine oxidase - LTQ lysyl tyrosylquinone - MAO monoamine oxidase - PKAO porcine kidney amine oxidase - PPAO porcine plasma amine oxidase - PSAO pea seedling amine oxidase - TPQ 2,4,5-trihydroxyphenylalaninequinone - TPQ_amr TPQ aminoresorcinol - TPQ_imq TPQ iminoquinone - TPQ_ox TPQ oxidized - TPQ_sq TPQ semiquinone - WT wild-typeE.M. Shepard and G.A. Juda contributed equally to this workThis revised version was published online in February 2004: Hansenula polymorpha was not italicised at the end of the Introduction, Equation 3 appeared twice, and the resolution of Scheme 3 was insufficient.An erratum to this article can be found at     

Steady-state kinetic mechanism of LodA,a novel cysteine tryptophylquinone-dependent oxidase

LodA is a novel lysine-ε-oxidase which possesses a cysteine tryptophylquinone cofactor. It is the first tryptophylquinone enzyme known to function as an oxidase. A steady-state kinetic analysis shows that LodA obeys a ping-pong kinetic mechanism with values of k_cat of 0.22 ± 0.04 s⁻¹, K_lysine of 3.2 ± 0.5 μM and K_O2 of 37.2 ± 6.1 μM. The k_cat exhibited a pH optimum at 7.5 while k_cat/K_lysine peaked at 7.0 and remained constant to pH 8.5. Alternative electron acceptors could not effectively substitute for O₂ in the reaction. A mechanism for the reductive half reaction of LodA is proposed that is consistent with the ping-pong kinetics.     

Differential effects of proteinase inhibitors and amines on the lysosomal and non-lysosomal pathways of protein degradation in isolated rat hepatocytes

Ammonia, which like other lysosomotropic amines inhibits protein degradation in isolated rat hepatocytes by 70–80%, was utilized as a diagnostic tool to distinguish between the relative effects of various proteinase inhibitors on the lysosomal and non-lysosomal pathways of intracellular protein degradation.Leupeptin was found to inhibit lysosomal protein degradation by 80–85%, and non-lysosomal degradation by about 15%. Antipain had a similar, but somewhat weaker effect. Pepstain, bestatin and aprotinin (Traysylol) produced minor inhibitory effects (possibly on both degradation, pathways), whereas bacitracin and soybean trypsin inhibitor wre ineffective.Chymostatin inhibited lysosomal protein degradation by about 45%, whereas the non-lysosomal pathway was inhibited by more than 50%. Chymostatin was unique among the inhibitors tested in causing such a pronounced effect on non-lysosomal protein degradation, and appeared to selectively inhibit the energy-dependent portion of this pathway.The effects of the various inhibitors were additive to the extent expected on the basis of their kwown actions on lysosomal and non-lysosomal protein degradation. Thus, a combination of methylamine, leupeptine and chymostatin inhibited overall protein degradation by about 90%, resulting in a substantial improvement of the cellular nitrogen balance.The degradation inhibitors caused a partial inhibition of protein synthesis, apparently mainly by shutting down the supply of amino acids from the lysosome. The inhibitory effects of leupeptin and antipain were completely reversed by amino acid addition, whereas some inhibition remained in the case of chymostatin and the lysosomotropic amines, possibly reflecting a certain nonspecific toxicity.     

Structure and luminescence of copper(I) cyanide-amine and -sulfide networks

Copper(I) cyanide reacts with various liquid amines and sulfides (L) under solvent-less conditions to form (CuCN)L_n, n = 0.5, 0.57, 0.75, 0.8, 1, 1.25, 1.5, 2. New X-ray structures are reported for L = Py (Py = pyridine, n = 0.57), 2-MePy (n = 1), 3-EtPy (n = 1.5), 2-ClPy (n = 1), 3-ClPy (n = 2), 3-MeOPy (n = 2), 4-^tBuPy (n = 1.5), piperidine (n = 1.25), N-methylmorpholine (n = 1), N,N-dimethylcyclohexylamine (n = 1), 1-methylimidazole (n = 3), Me₂S (n = 1), and tetrahydrothiophene (n = 1). The amine structures (except for the monomeric 1-methylimidazole complex) reveal 1D CuCN chains decorated with 0-2 L per metal atom. Chain structures observed include zigzag, helical and figure-8 helical. The CuCN-sulfide structures show sulfur-bridging of CuCN chains. In some cases (CuCN)L_?1.5 species are transformed to (CuCN)L under vacuum. Thermal analysis shows facile release of ligand, yielding CuCN. Most of the (CuCN)L_n products are photoluminescent, emitting in the visible region. In some cases, coordination of very similar amines results in remarkably different emission spectra.     

Structural variability in manganese(II) complexes of N,N′-bis(2-pyridinylmethylene) ethane (and propane) diamine ligands

Manganese(II) complexes, Mn₂L¹₃(ClO₄)₄, MnL¹(H₂O)₂(ClO₄)₂, MnL²(H₂O)₂(ClO₄)₂, and {(μ-Cl)MnL²(PF₆)}₂ based on N,N′-bis(2-pyridinylmethylene) ethanediamine (L¹) and N,N′-bis(2-pyridinylmethylene) propanediamine (L²) ligands have been prepared and characterized. The single crystal X-ray diffraction analysis of Mn₂L²₃(ClO₄)₄ shows that each of the two Mn(II) ion centers with a Mn-Mn distance of 7.15 Å are coordinated by one ligand while a common third ligand bridges the metal centers. Solid-state magnetic susceptibility measurements as well as DFT calculations confirm that each of the manganese centers is high-spin S = 5/2. The electronic structure obtained shows no orbital overlap between the Mn(II) centers indicating that the observed weak antiferromagentism is a result of through space interactions between the two Mn(II) centers. Under different reaction conditions, L¹ and Mn(II) yielded a one-dimensional polymer, MnL¹(H₂O)₂(ClO₄)₂. Ligand L² when reacted with manganese(II) perchlorate gives contrarily to L¹ mononuclear MnL²(H₂O)₂(ClO₄)₂ complex. The analysis of the structural properties of the MnL²(H₂O)₂(ClO₄)₂ lead to the design of dinuclear complex {(μ-Cl)MnL²(PF₆)} where two chlorine atoms were utilized as bridging moieties. This complex has a rhomboidal Mn₂Cl₂ core with a Mn-Mn distance of 3.726 Å. At room temperature {(μ-Cl)MnL²(PF₆)} is ferromagnetic with observed μ_eff = 4.04 μ_B per Mn(II) ion. With cooling, μ_eff grows reaching 4.81 μ_B per Mn(II) ion at 8 K, and then undergoes ferromagnetic-to-antiferromagnetic phase transition.