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5-Hydroxytryptophol and 5-hydroxyindoleacetic acid levels in rat brain: Effects of various drugs affecting serotonergic transmitter mechanisms (1987)

Beck, O. ; Lundman, A. ; Jonsson, G.

Springer

Journal of neural transmission 69 (1987), S. 287-298

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ISSN: 1435-1463

Keywords: 5-hydroxytryptophol ; 5-hydroxyindoleacetic acid ; serotonin ; CNS ; turnover

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The effect of various pharmacological treatments on the levels of free and total 5-hydroxytryptophol (5-HTOL) and 5-hydroxyindoleacetic acid (5-HIAA) in rat brain were investigated using a gas chromatographic-mass spectrometric technique. The disappearance of 5-HTOL following monoamine oxidase (MAO) inhibition induced by pargyline was more rapid (t1/2 10–15 min) than that of 5-HIAA (t1/2 30–40 min) in all regions investigated, indicating a rapid turnover of 5-HTOL. The selective MAO-A inhibitor chlorgyline produced a more pronounced reduction of 5-HTOL than of 5-HIAA, while the MAO-B inhibitor deprenyl was without effect on both serotonin metabolites. The MAO-A inhibitor amiflamine which is selective for serotonin neurons, was also more effective in reducing free 5-HTOL levels than of 5-HIAA levels, suggesting that the formation of 5-HTOL is closely associated with serotonin neurons. Neonatal treatment with the serotonin neurotoxin 5, 7-dihydroxytryptamine (5, 7-HT) led to a more pronounced reduction of 5-HTOL levels in cerebral cortex than that of 5-HIAA levels, while the increase of 5-HTOL levels in pons-medulla was more marked than of 5-HIAA levels. Probenecid treatment increased several fold both conjugated 5-HTOL and 5-HIAA levels in brain tissue. An increase was also noted for free 5-HTOL, although of less magnitude. Treatment with the serotonin receptor active agents methiothepin andd-lysergic acid diethylamide produced similar alterations of free 5-HTOL and 5-HIAA. The present results have demonstrated that free 5-HTOL has a rapid turnover in rat brain and that free 5-HTOL levels may serve as a useful index for serotonin turnover.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01244349

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Electrophysiological and neurochemical correlates of the neurotoxic effects of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) on central catecholamine neurons in the mouse (1985)

Jonsson, G. ; Sundström, E. ; Mefford, I. ; [et al.]

Springer

Naunyn-Schmiedeberg's archives of pharmacology 331 (1985), S. 1-6

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ISSN: 1432-1912

Keywords: MPTP ; Striatum ; Parkinson's disease ; Catecholamines ; Electrophysiology

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) is an agent which produces a parkinsonian syndrome in man. To explore the use of MPTP in a rodent model of parkinsonism, male albino mice (NMRI) were given MPTP (50 mg/kg, s.c.) twice with a 6–8 h interval. Up to 10 weeks after injection, mice were killed and high-pressure liquid chromatography was used to assay dopamine (DA) and noradrenaline (NA) concentrations in various regions of the CNS. At 4 and 10 weeks after injection, DA levels were significantly reduced in occipital cortex (-40%), hippocampus (-30%), and striatum (-60%). NA levels were reduced by 60–80% in frontal and occipital cortex, hippocampus, and cerebellum. Neither DA nor NA concentration was reduced in spinal cord. Dopaminergic denervation was also suggested by electrophysiological data which showed that treatment with MPTP increased the spontaneous discharge rate of caudate neurons and decreased the potency of locally administered phencyclidine, an indirect DA agonist. However, denervation was evidently not complete enough to produce postsynaptic receptor supersensitivity, as MPTP treatment did not increase the potency of locally applied DA, and it did not increase 3H-spiperone binding in striatal membrane preparations. These results suggest that MPTP causes regionally selective and long-term reductions of catecholamine transmission in the CNS of the mouse.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00498844

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Ibotenic acid-induced neuronal degeneration: A morphological and neurochemical study (1979)

Schwarcz, R. ; Hökfelt, T. ; Fuxe, K. ; [et al.]

Springer

Experimental brain research 37 (1979), S. 199-216

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ISSN: 1432-1106

Keywords: Ibotenic acid ; Kainic acid ; Neurotoxins ; Neuronal degeneration ; Striatum

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Possible neurotoxic actions of intracerebral injections of ibotenic acid, a conformationally restricted analogue of glutamic acid, have been evaluated in rat brain and compared with those of kainic acid. Light microscopical analysis revealed that ibotenic acid produced a marked disappearance of nerve cells in all areas studied, namely striatum, the hippocampal formation, substantia nigra and piriform cortex. Lesions in areas distant to the injection site were not seen. Axons of passage and nerve terminals of extrinsic origin did not seem to be damaged, since, e.g., no apparent degeneration of the dopaminergic terminals in the neostriatum was observed except for a small area surrounding the cannula. In the neostriatum, enkephalin immunoreactive neuronal cell bodies as well as nerve terminals disappeared after injection of ibotenic acid into this nucleus. After injection into the substantia nigra tyrosine hydroxylase immunoreactive cell bodies in the zona compacta disappeared, whereas no certain effect could be seen on the enkephalin immunoreactive nerve fibers. In vitro experiments, conducted with striatal synaptosomal and membrane preparations, showed that ibotenic acid differed from kainic acid by being devoid of a significant inhibitory effect on high affinity glutamate uptake and by having a low affinity for 3H-kainic acid binding sites. Furthermore, ibotenic acid did not interfere with the binding of a number of radioligands for other transmitter receptors. As compared to kainic acid, ibotenic acid has the advantage of being less toxic to the animals and of producing more discrete lesions, possibly due to faster metabolism and/or other fundamental biochemical differences. Because of these special features, ibotenic acid seems to represent a valuable new tool in the morphological and functional analysis of central neuronal systems.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00237708

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