Jung Jin Choi scite author profile

The present study investigates whether immunostimulated glial expression of inducible nitric oxide synthase influences the glucose deprivation-induced death of rat cerebellar granule cells (CGC). CGC/glia cocultures were immunostimulated by interferon-gamma (200 U/ml) and lipopolysaccharides (1 microg/ml) and 2 days later were challenged by glucose deprivation. Neurotoxicity was assessed by measuring the release of lactate dehydrogenase. Neither a 2-h glucose deprivation nor a 2-day immunostimulation altered the viability of CGC. A 2-day immunostimulation, however, markedly potentiated the glucose deprivation-induced death of CGC. The increased death of glucose-deprived CGC after immunostimulation was mimicked by the nitric oxide (NO) releasing reagent 3-morpholinosydnonimine (SIN-1) and was partially prevented by the NO synthase (NOS) inhibitor N(G)-nitroarginine. The increased death of glucose-deprived CGC either after immunostimulation or by SIN-1 was not altered by various N-methyl-D-aspartate (NMDA) and non-NMDA receptor antagonists. Because superoxide dismutase and catalase, which remove superoxide anion, decreased the augmented death of glucose-deprived immunostimulated CGC, the reaction of NO with superoxide to form peroxynitrite appears to be implicated in the potentiated neurotoxicity. Our data indicate that immunostimulated glial cells potentiate the death of glucose-deprived neurons in part through the expression of inducible NOS but not through NMDA receptor activation. Potentiation of glucose-deprived CGC death by immunostimulated glial cells may be clinically implicated in the tendency of recurrent ischemic insults to be more severe and fatal than an initial ischemic insult.

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Proliferation-dependent vulnerability of glucose-deprived astrocytes to nitric oxide-induced cytotoxicity

Choi¹,

Kim

1998

Neuroscience Letters

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Hydrogen peroxide induces the death of astrocytes through the down-regulation of the constitutive nuclear factor-kappaB activity

Choi

Kang

et al. 2007

Free Radical Research

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Nuclear factor-kappaB (NF-kappaB) has a dual role in the promotion or attenuation of cell death. Here, we demonstrated the role of NF-kappaB in the H(2)O(2)-induced death of astrocytes. H(2)O(2) evoked the release of lactate dehydrogenase (LDH), a marker of cell death, and concomitantly decreased the DNA binding and transcriptional activity of NF-kappaB in cultured astrocytes. H(2)O(2)-induced astrocyte death was markedly increased by the co-treatment with pyrrolidinedithiocarbamate, an NF-kappaB inhibitor. Moreover, the elevation of constitutive NF-kappaB activity by overexpressing p65 NF-kappaB subunit attenuated H(2)O(2) toxicity, whereas NF-kappaB inhibition by overexpressing IkappaB potentiated the toxicity. NF-kappaB activity and H(2)O(2) cytotoxicity was further found to be dependent on cell density. Compared with astrocytes in low cell density, those in high cell density exhibited a higher constitutive NF-kappaB activity and a stronger resistance to H(2)O(2) cytotoxicity. These results indicate that the constitutive activity of NF-kappaB in astrocytes is required for their survival under oxidative stress such as H(2)O(2).

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Mimosine prevents the death of glucose‐deprived immunostimulated astrocytes by scavenging peroxynitrite

Choi¹,

Oh²,

Kim³

et al. 2002

Glia

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Immunostimulated astrocytes become highly vulnerable to glucose deprivation (Choi and Kim: J Neurosci Res 54:870-875, 1998a). The increased vulnerability is caused by the enhanced level of peroxynitrite endogenously produced in glucose-deprived immunostimulated astrocytes. In the present study, we report that the plant amino acid mimosine can attenuate the increased death by scavenging peroxynitrite. Treatment with mimosine blocked the increase of nitrotyrosine immunoreactivity, a marker of peroxynitrite, in glucose-deprived immunostimulated astrocytes. Furthermore, mimosine directly inhibited the nitration of tyrosine residues of bovine serum albumin and the oxidation of dihydrorhodamine-123 to rhodamine-123 by peroxynitrite. Mimosine has been used experimentally as a cell cycle G1/S phase transition blocker (Lalande: Exp Cell Res 186:332-339, 1990; Hoffman et al.: Cytometry 12:26-32, 1991). Flow cytometry analysis, however, showed that the cytoprotective effect of mimosine was not attributed to its inhibition of cell cycle progression. Furthermore, under our experimental conditions, mimosine did not alter the levels of cell cycle regulatory proteins, including p21(WAF1/CIP1), cyclins D1 and E, and proliferating cell nuclear antigen. In addition, cyclin-dependent kinase inhibitors olomoucine and roscovitine did not block the increased death. These results indicate that mimosine inhibits the augmented death of glucose-deprived immunostimulated astrocytes by scavenging peroxynitrite rather than suppressing the cell cycle progression.

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Jung Jin Choi

Ciclopirox prevents peroxynitrite toxicity in astrocytes by maintaining their mitochondrial function: a novel mechanism for cytoprotection by ciclopirox

Immunostimulated Glial Cells Potentiate Glucose Deprivation-Induced Death of Cultured Rat Cerebellar Granule Cells

Proliferation-dependent vulnerability of glucose-deprived astrocytes to nitric oxide-induced cytotoxicity

Hydrogen peroxide induces the death of astrocytes through the down-regulation of the constitutive nuclear factor-kappaB activity

Mimosine prevents the death of glucose‐deprived immunostimulated astrocytes by scavenging peroxynitrite

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