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Glutamate: A potential mediator of inorganic mercury neurotoxicity (1996)

Albrecht, Jan ; Matyja, Ewa

Springer

Metabolic brain disease 11 (1996), S. 175-184

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ISSN: 1573-7365

Keywords: Mercuric chloride ; glutamate neurotoxicity ; astrocytes ; glutamate transport

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Exposure to mercury vapor (Hgo) produces neurotoxic effects which are for the most part subsequent to its biotransformation in brain to the mercuric cation (Hg2+), which has an exceptionally strong affinity towards the SH groups in proteins. However, neurologic symptoms are often encountered in subjects in which Hg2+ concentration in the brain remains in the submicromolar range, markedly below the anticipated threshold for direct inhibition of cerebral metabolism and function. In this report we review biochemical and morphological evidence obtained in this and other laboratories in tissue culture studies suggesting that in such instances mercury neurotoxicity may be mediated by excitotoxic activity of glutamate (GLU). Mercuric chloride (MC) at 1 μM concentration (or less) inhibits GLU uptake and stimulates GLU release in cultured astrocytes, whichin vivo is likely to result in excessive GLU accumulation in the extracellular space of the CNS. Inhibition of GLU uptake and stimulation of GLU release by MC may be attenuated by addition to the cultures of a cell membrane-penetrating agent dithiothreitol (DTT) but not of glutathione (GSH), which is not transported to the inside of the cells. However, MC-stimulated release of GLU is suppressed when the intracellular GSH levels are increased by metabolic manipulation. The results indicate that the MC-vulnerable SH groups critical for GLU transport are located within the astrocytic membranes. Ultrastructural evidence for GLU-mediated MC neurotoxicity came from studies in an organotypic culture of rat cerebellum. We have shown that: 1) 1 μM MC lowers the threshold of GLU neurotoxicity, 2) the combined neurotoxic effect of GLU plus MC is attenuated by DTT but not by GSH, which is consistent with the involvement of impaired astrocytic GLU transport, and 3) neuronal damage induced by GLU plus MC becomes less accentuated in a medium with dizocilpine (MK-801), a noncompetitive NMDA receptor antagonist.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02069504

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Contrasting effects of thioacetamide-induced liver damage on the brain uptake indices of ornithine, arginine and lysine: Modulation by treatment with ornithine aspartate (1996)

Albrecht, Jan ; Hilgier, Wojciech ; Januszewski, Stawomir ; [et al.]

Springer

Metabolic brain disease 11 (1996), S. 229-237

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ISSN: 1573-7365

Keywords: Thioacetamide ; liver failure ; ornithine aspartate treatment ; brain uptake index ; ornithine ; arginine ; lysine

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The dibasic amino acids arginine (ARG), ornithine (ORN) and lysine (LYS) are transported by a common saturable transporter (system γ+) at the blood-brain barrier (BBB). In the present study we compared the brain uptake index (BUI) for radiolabelled ORN, ARG and LYS in control rats and in rats treated with thioacetamide (TAA) to induce hepatic encephalopathy (HE). Some animals received i.v. ornithine aspartate (OA), a drug structurally related to the γ+ substrates that ameliorates neurological symptoms following liver damage by improving detoxification of ammonia in peripheral tissues: the compound was administered either by continuous infusion for 6h at a concentration of 2 g/kg (final blood concentration ranging from 0.19–0.5 mM), or as a 15 sec. bolus together with the radiolabelled amino acids, at a concentration of 0.35 mM. TAA treatment resulted in a delayed and progressive increase of BUI for ORN, to 186% of control at 7d post-treatment and to 345% of control at 21d post-treatment, when despite sustained liver damage, HE symptoms were already absent. In contrast, the BUI for ARG decreased to 30% of control at 7d post-treatment and remained low (42% of control) at 21d post-treatment. A 6h infusion of OA to untreated rats resulted in a reduction of the BUI for ARG and ORN to 51% and 62% of the control levels, respectively. Reductions of a similar magnitude were noted with both amino acids following the 15 sec OA bolus, indicating direct interaction of OA with the transport site in both cases. OA administered by either route abolished the enhancement of BUI for ORN, but did not further inhibit the BUI for ARG in the TAA-treated animals. The results indicate that some as yet unspecified factors released from damaged liver either modify the structure or conformation of the γ+ transporter at the BBB from the normally ARG-preferring to the ORN-preferring state, or activate (induce) a different transporter specific for ORN which is normally latent.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02237960

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Ammonia addedin vitro, but not moderate hyperammonemiain vivo, stimulates glutamate uptake and H+-ATPase activity in synaptic vesicles of the rat brain (1994)

Albrecht, Jan ; Hilgier, Wojciech ; Walski, Michal

Springer

Metabolic brain disease 9 (1994), S. 257-266

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ISSN: 1573-7365

Keywords: hepatic encephalopathy ; hyperammonemia ; ammonium chloride ; ammonium acetate ; synaptic vesicles ; H+-ATPase ; glutamate ; GABA ; dopamine

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The uptake of radiolabelled neurotransmitters: glutamate (GLU), GABA, and dopamine (DA) and the activity of the vacuolar type H+-pumping ATPase (H+-ATPase), were measured in crude synaptic vesicles treatedin vitro with a neurotoxic (3 mM) dose of NH4 + (acetate or chloride), or isolated from rats with a moderate increase of brain ammonia (to ∼ 0.6 mM) induced by i.p. administration of ammonium acetate (HA rats) or a hepatotoxin-thioacetamide (HE rats).In vitro treatment with ammonium salts increased the sodium-independent, chloride-dependent uptake of GLU but did not stimulate the uptake of GABA or DA. Thein vitro treatment also stimulated the H+-ATPase activity. Since H+-ATPase generates the electrochemical gradient driving synaptic vesicular neurotransmitter transport, its stimulation by ammonia may have facilitated GLU uptake. However the GLU specificity of the effect must be related to other factors differentially affecting GLU uptake and the uptake of other neurotransmitters. Enhanced GLU accumulation in the synaptic vesicles may contribute to the increase of synaptic GLU exocytosis previously reported to accompany acute increases of brain ammonia to toxic levels. However, GLU uptake and H+-ATPase activity, but also the uptake of GABA and DA, were unchanged in synaptic vesicles prepared from rats with HA or HE. This indicates that changes in GLU and/or GABA release reported for moderate hyperammonemic conditions must be elicited by factors unrelated to the synaptic vesicular transport of the amino acids.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01991199

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