Multiple Mechanisms for Inhibition of Excitatory Amino Acid Receptors Coupled to Phosphoinositide Hydrolysis

Littman, Louis; Munir, Muhammad; Flagg, Stephanie D.; Robinson, Michael B.

doi:10.1111/j.1471-4159.1992.tb11025.x

Cited by 34 publications

(37 citation statements)

References 39 publications

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“…47,48 Moreover, HDX could inhibit matrix metalloproteinases and AAT activities, in addition to reversing the increased AAT levels in plasma as demonstrated by a few rat experiments. [49][50][51] Furthermore, HDX could inhibit AAT activities and the generation of endogenous SO 2 in both pulmonary tissues and myocardium.…”

Section: Discussionmentioning

confidence: 99%

Endogeous sulfur dioxide protects against oleic acid-induced acute lung injury in association with inhibition of oxidative stress in rats

Chen

Zheng

Liu

et al. 2015

Laboratory Investigation

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The role of endogenous sulfur dioxide (SO 2 ), an efficient gasotransmitter maintaining homeostasis, in the development of acute lung injury (ALI) remains unidentified. We aimed to investigate the role of endogenous SO 2 in the pathogenesis of ALI. An oleic acid (OA)-induced ALI rat model was established. Endogenous SO 2 levels, lung injury, oxidative stress markers and apoptosis were examined. OA-induced ALI rats showed a markedly downregulated endogenous SO 2 /aspartate aminotransferase 1 (AAT1)/AAT2 pathway and severe lung injury. Chemical colorimetry assays demonstrated upregulated reactive oxygen species generation and downregulated antioxidant capacity in OA-induced ALI rats. However, SO 2 increased endogenous SO 2 levels, protected against oxidative stress and alleviated ALI. Moreover, compared with OA-treated cells, in human alveolar epithelial cells SO 2 downregulated O 2 À and OH À generation. In contrast, L-aspartic acid-b-hydroxamate (HDX, Sigma-Aldrich Corporation), an inhibitor of endogenous SO 2 generating enzyme, promoted free radical generation, upregulated poly (ADP-ribose) polymerase expression, activated caspase-3, as well as promoted cell apoptosis. Importantly, apoptosis could be inhibited by the free radical scavengers glutathione (GSH) and N-acetyl-L-cysteine (NAC). The results suggest that SO 2 /AAT1/AAT2 pathway might protect against the development of OA-induced ALI by inhibiting oxidative stress.

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Section: Discussionmentioning

confidence: 99%

Endogeous sulfur dioxide protects against oleic acid-induced acute lung injury in association with inhibition of oxidative stress in rats

Chen

Zheng

Liu

et al. 2015

Laboratory Investigation

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“…Although AP3 has been shown to inhibit 3[H]-glutamate uptake into synaptosomes (Littman et al, 1992), it is not clear whether AP3 is a substrate for transport. We addressed this issue using whole-cell patch clamp recordings in microcultures of hippocampal astrocytes (Mennerick and Zorumski, 1994).…”

Section: L-ap3 Exhibits Features Of a Glutamate "Ransport Substratementioning

confidence: 99%

“…Previous studies indicate that AF' 3 inhibits glutamate transport (Littman et al, 1992). To determine whether effects on glutamate transporters contribute t o AP3-induced damage, we examined the effects of the glutamate transport inhibitors D,L-threo-3-hydroxyaspartate (THA), pyrrolidine dicarboxylic acid (PDC), D,L-aminoadipic acid (AAA), and dihydrokainate (DHK) ( Table 1).…”

Section: Glutamate Transport Inhibitors Mimic Ap3-induced Glial Swellingmentioning

confidence: 99%

“…In support of this possibility, recent studies indicate that the severe neurotoxicity produced by repeated AP3 injections in neonatal rats is mimicked by certain agents that antagonize metabotropic receptors (Price et al, 1995), and 2-amino-4-phosphonobutyrate (AP4), a structural analog of AP3 that also has partial agonistantagonist effects at metabotropic receptors, causes C) 1996 Wiley-Liss, Inc. astrocyte swelling (Bender et al, 1995;Hansson, 1994). However, other studies indicate that AP3 inhibits glutamate transport in hippocampal synaptosomes (Littman et al, 1992), suggesting that effects on glial glutamate transporters might contribute to the swelling. Indeed, the Muller cell swelling produced by glutamate appears to result from glutamate transport into cells (Casper et al, 1982).…”

Section: Introductionmentioning

confidence: 99%

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Swelling of Müller cells induced by AP3 and glutamate transport substrates in rat retina

Izumi

Kirby-Sharkey

Benz

et al. 1996

Glia

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“…The fact that L-trans-PDC is transportable also implies that, when it is applied extracellularly, it may also produce carrier-mediated efflux of glutamate (heteroexchange) (Waldmeier et al 1993;Griffiths et al 1994). Some studies have suggested that L-trans-PDC may have agonistic actions on metabotropic receptors (mGluR) (Littman et al 1992;Miller et al 1994). However, there is some controversy on the origin of these effects, because they could actually be secondary to heteroexchange (Thomsen et al 1994;Desai et al 1995).…”

Section: Advantages and Limitations Of L-trans-pdcmentioning

confidence: 99%

Effects of pharmacological inhibition of glutamate-uptake on ischaemia-induced glutamate efflux and anoxic depolarization latency

Obrenovitch¹,

Zilkha

Urenjak

1998

Naunyn-Schmiedeberg's Arch Pharmacol

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It has been proposed that deficient glutamate uptake, by increasing the extracellular concentration of this excitatory neurotransmitter, may contribute to the pathophysiology of cerebral ischaemia. This study aimed to examine whether pharmacological inhibition of glutamate uptake altered the kinetics of ischaemia-induced glutamate efflux, and precipitated anoxic depolarisation. Microdialysis was used for application of the glutamate-uptake inhibitor L-trans-pyrrolidine-2,4-dicarboxylate (L-trans-PDC), recording of the EEG and extracellular direct current (DC) potential with an electrode within the probe, and continuous monitoring of changes in extracellular glutamate. L-trans-PDC was applied locally from 8 min prior to cardiac arrest to the end of the recording period. L-trans-PDC (2.5 mM) barely altered the time course of postmortem glutamate efflux in the cortex. Only the maximum rate of efflux during the first exocytotic phase, and the concentration reached at the end of this phase, appeared slightly increased. L-trans-PDC (5 mM) reduced significantly the delay between EEG silence and anoxic depolarization in the cerebral cortex (59.2 +/- 9.2 s vs. 79.7 +/- 11.5 s; n = 6), but not in the striatum and hippocampus. These effects contrast with the marked increase in dialysate glutamate that L-trans-PDC produces in all these three brain regions. Together, these data do not support the hypothesis that inhibition of glutamate uptake plays a critical role, early in cerebral ischaemia. However, a contribution of reversed glutamate uptake to the secondary Ca2+-independent phase of ischaemia-induced glutamate efflux cannot be ruled out.

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Multiple Mechanisms for Inhibition of Excitatory Amino Acid Receptors Coupled to Phosphoinositide Hydrolysis

Cited by 34 publications

References 39 publications

Endogeous sulfur dioxide protects against oleic acid-induced acute lung injury in association with inhibition of oxidative stress in rats

Endogeous sulfur dioxide protects against oleic acid-induced acute lung injury in association with inhibition of oxidative stress in rats

Swelling of Müller cells induced by AP3 and glutamate transport substrates in rat retina

Effects of pharmacological inhibition of glutamate-uptake on ischaemia-induced glutamate efflux and anoxic depolarization latency

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