1 We investigated the ability of N-benzyl-N-ethyl-2-(7,8-dihydro-7-methyl-8-oxo-2-phenyl-9H-purin-9-yl)acetamide (AC-5216), a novel mitochondrial benzodiazepine receptor (MBR) ligand, to produce anti-anxiety and antidepressant-like effects in various animal models. 2 AC-5216 showed high affinity for MBRs prepared from rat whole brain (K i 0.297 nM), rat glioma cells (IC 50 3.04 nM) and human glioma cells (IC 50 2.73 nM), but only negligible affinity for the other main receptors including central benzodiazepine receptors. 3 AC-5216 produced anti-anxiety effects in the Vogel-type conflict test in rats, and in the light/dark box and social interaction tests in mice at 0.1-3, 0.003-0.01 and 0.01-0.3 mg kg À1 , p.o., respectively. These effects of AC-5216 were antagonized by PK11195, an MBR antagonist. In the forced swimming test in rats, AC-5216 (3-30 mg kg À1 , p.o.) reduced the immobility time, and this effect was blocked by PK11195. 4 AC-5216 had no myorelaxant effects, did not affect the memory or prolong hexobarbitoneinduced sleep in mice, even at doses as high as 1000 mg kg À1 , p.o. Although it did slightly prolong the ethanol-induced sleep time at 1000 mg kg À1 , AC-5216 (1-100 mg kg À1 , p.o.) produced no distinct change in the rat electroencephalogram. 5 These results indicate that AC-5216 produces anti-anxiety and antidepressant-like effects that are mediated by MBR, but does not cause the side effects normally associated with conventional benzodiazepines. Hence, AC-5216 shows potential for the treatment of stress-related disorders including anxiety and depression.
The protective effect of prostaglandins (PGs) against cerebral hypoxia/anoxia was investigated with a variety of experimental models in relation to their CNS depressant effects in mice. Furthermore, the effect of PGs on the changes of cerebral energy metabolites and cyclic nucleotide was examined in hypoxic mice. Mice were given s.c. doses of PGs 30 min before tests. Among the PGs tested, treatment with PGD2, PGE1 and PGI2 Na showed a consistent and dose-dependent protection against cerebral anoxia induced by all models studied: histotoxic anoxia by KCN, hypobaric hypoxia, normobaric hypoxia and decapitation-induced gasping. However, PGA1, PGA2, PGB1, PGB2, PGE2, PGF1 alpha, PGF2 alpha and 6-keto-PGF1 alpha at a dose of 3 mg/kg were without effect against normobaric hypoxia and gasping duration. The three PGs, i.e. PGD2, PGE1 and PGI2 which showed anti-hypoxic effects decreased locomotor activity and potentiated hexobarbital-induced sleep. On the other hand, PGE2, PGA1, PGA2 and PGB2 also caused a decrease in locomotor activity. Similarly, PGE2 and PGA1 caused a potentiation of hexobarbital-induced sleep, but interestingly they did not cause clear-cut increase in cerebral resistance to hypoxia, in contrast with the former three PGs. Thus general depression of CNS function appears not to be responsible for the PGD2-, PGE1- and PGI2-induced increase in cerebral resistance to hypoxia. The levels of Cr-P and ATP were significantly reduced and those of ADP and AMP were markedly elevated in hypoxic brain, resulting in a decrease in a calculated energy charge potential. The lactate level and lactate/pyruvate ratio increased and the glucose level decreased markedly.(ABSTRACT TRUNCATED AT 250 WORDS)
To separate and extract the native states of lysozyme from chicken egg white, a hybrid method for the mobilization of proteins after non-denaturing gel isoelectric focusing (IEF) combined with detection of lysozyme activity was developed. When the proteins in the chicken egg white were first separated using non-denaturing gel IEF, a lysozyme was obtained at the top of the gel column at the cathode end of the IEF. And, when the IEF-separated proteins of the egg white were mobilized by replacing the cathodic sodium hydroxide solution with phosphoric acid solution, an additional active state of the lysozyme that could be bound to proteins, such as ovotransferrin, was extracted from the solution. Furthermore, it was shown that the addition of lysozyme, obtained via IEF, to pure ovotransferrin generated a complex manifesting lysozyme activity, clearly indicating a successful reconstruction of the lysozyme-ovotransferrin complex in vitro. Therefore, the obtained results demonstrated that the native states of lysozymes, such as lysozyme and the lysozyme-ovotransferrin complex, can be effectively separated and extracted using non-denaturing gel IEF. Thus, this method can be applied to separate and extract different charge states of native proteins that retain their biological activities.
Previously we reported the augmentative effect of nonionic hydrophilic polymers such as polyethylene glycol (PEG), polyvinyl alcohol (PVA) and dextran on thyroid-stimulating antibody (TSAb) activity in porcine thyroid cell assays. We examined whether a similar phenomenon occurs in FRTL-5 thyroid cells and CHO cells expressing the human (h) TSH receptor (CHO-hTSHR cells). As with porcine thyroid cells, PEG 22.5% precipitated crude IgG from serum of patients with Graves’ disease, significantly increased cAMP production as compared with PEG 12.5% precipitated crude IgG in both FRTL-5 cells and CHO-hTSHR cells. PEG 5% augmented purified-TSAb-IgG-stimulated cAMP production in both cell assays. TSAb activities and positivity by the direct assay using whole serum (0.05 ml) in the presence of 5% PEG in untreated Graves’ patients were significantly increased as compared with the absence of 5% PEG. The augmentative effects of PVA 10% or dextran T-70 10% on TSAb-IgG-stimulated cAMP production were also observed in both cell assays. PVA 10% did not augment TSH-stimulated cAMP production in spite of weak augmentation by dextran 10% in both cell assays. Lack of the augmentative effects of PEG 5%, PVA 10% and dextran 10% on cAMP produced by GTPγS, forskolin and pituitary adenylate cyclase activating polypeptide was observed in both cell assays. The augmentative effects of these polymers in both cell assays similar to porcine thyroid cells suggest that there is no apparent species specificity among human, porcine and rat thyroid cells as far as TSH receptor linked cAMP production in cell membranes existed.
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