Hai Quyen Tran scite author profile

Clinical and preclinical studies have indicated that chronic methamphetamine (MA) use is associated with extensive neurodegeneration, psychosis, and cognitive impairment. Evidence from animal models has suggested a considerable role of excess dopamine or glutamate, oxidative stress, neuroinflammation, and apoptosis in MA-induced neurotoxicity, and that protein kinase Cδ might mediate the interaction among these factors. In addition, the relatively long-lasting and recurrent nature of MA psychosis has been reproduced in animals treated with various dosing regimens of MA, which have shown behavioral sensitization, sociability deficits, and impaired prepulse inhibition. Genetic predisposition as well as dopaminergic and glutamatergic alterations might be important in the development of MA psychosis. Neuroimaging studies have identified functional and morphological changes related to the cognitive dysfunction shown in chronic MA users. Failure in the task-evoked phosphorylation of extracellular signal-related kinase likely underlies MA-induced memory impairment. Recent progress has suggested certain roles of oxidative stress and neuroinflammation in the psychosis and cognitive deficits induced by repeated low doses of MA. This review provides a comprehensive description of pertinent findings from human and animal studies, with an emphasis on the current understanding of the underlying mechanisms of MA neuropsychotoxicity and its relevance to Parkinson's disease or schizophrenia.

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Role of Mitochondria in Methamphetamine-Induced Dopaminergic Neurotoxicity: Involvement in Oxidative Stress, Neuroinflammation, and Pro-apoptosis—A Review

Shin

Tran

Nguyen

et al. 2018

Neurochem Res

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Methamphetamine (MA), an amphetamine-type psychostimulant, is associated with dopaminergic toxicity and has a high abuse potential. Numerous in vivo and in vitro studies have suggested that impaired mitochondria are critical in dopaminergic toxicity induced by MA. Mitochondria are important energy-producing organelles with dynamic nature. Evidence indicated that exposure to MA can disturb mitochondrial energetic metabolism by inhibiting the Krebs cycle and electron transport chain. Alterations in mitochondrial dynamic processes, including mitochondrial biogenesis, mitophagy, and fusion/fission, have recently been shown to contribute to dopaminergic toxicity induced by MA. Furthermore, it was demonstrated that MA-induced mitochondrial impairment enhances susceptibility to oxidative stress, pro-apoptosis, and neuroinflammation in a positive feedback loop. Protein kinase Cδ has emerged as a potential mediator between mitochondrial impairment and oxidative stress, pro-apoptosis, or neuroinflammation in MA neurotoxicity. Understanding the role and underlying mechanism of mitochondrial impairment could provide a molecular target to prevent or alleviate dopaminergic toxicity induced by MA.

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5-HT1A receptor agonist 8-OH-DPAT induces serotonergic behaviors in mice via interaction between PKCδ and p47phox

Tran

Shin

Nguyen

et al. 2019

Food and Chemical Toxicology

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PKCδ Knockout Mice Are Protected from Dextromethorphan-Induced Serotonergic Behaviors in Mice: Involvements of Downregulation of 5-HT1A Receptor and Upregulation of Nrf2-Dependent GSH Synthesis

et al. 2018

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We investigated whether a specific serotonin (5-HT) receptor-mediated mechanism was involved in dextromethorphan (DM)-induced serotonergic behaviors. We firstly observed that the activation of 5-HT receptor, but not 5-HT receptor, contributed to DM-induced serotonergic behaviors in mice. We aimed to determine whether the upregulation of 5-HT receptor induced by DM facilitates the specific induction of certain PKC isoform, because previous reports suggested that 5-HT receptor activates protein kinase C (PKC). A high dose of DM (80 mg/kg, i.p.) induced a selective induction of PKCδ out of PKCα, PKCβI, PKCβII, PKCξ, and PKCδ in the hypothalamus of wild-type (WT) mice. More importantly, 5-HT receptor co-immunoprecipitated PKCδ in the presence of DM. Consistently, rottlerin, a pharmacological inhibitor of PKCδ, or PKCδ knockout significantly protected against increases in 5-HT receptor gene expression, 5-HT turnover rate, and serotonergic behaviors induced by DM. Treatment with DM resulted in an initial increase in nuclear factor erythroid-2-related factor 2 (Nrf2) nuclear translocation and DNA-binding activity, γ-glutamylcysteine (GCL) mRNA expression, and glutathione (GSH) level. This compensative induction was further potentiated by rottlerin or PKCδ knockout. However, GCL mRNA and GSH/GSSG levels were decreased 6 and 12 h post-DM. These decreases were attenuated by PKCδ inhibition. Our results suggest that interaction between 5-HT receptor and PKCδ is critical for inducing DM-induced serotonergic behaviors and that inhibition of PKCδ attenuates the serotonergic behaviors via downregulation of 5-HT receptor and upregulation of Nrf2-dependent GSH synthesis.

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Role of protein kinase Cδ in dopaminergic neurotoxic events

Shin

Hwang

Sharma

et al. 2018

Food and Chemical Toxicology

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Hai Quyen Tran

Current understanding of methamphetamine-associated dopaminergic neurodegeneration and psychotoxic behaviors

Role of Mitochondria in Methamphetamine-Induced Dopaminergic Neurotoxicity: Involvement in Oxidative Stress, Neuroinflammation, and Pro-apoptosis—A Review

5-HT1A receptor agonist 8-OH-DPAT induces serotonergic behaviors in mice via interaction between PKCδ and p47phox

PKCδ Knockout Mice Are Protected from Dextromethorphan-Induced Serotonergic Behaviors in Mice: Involvements of Downregulation of 5-HT1A Receptor and Upregulation of Nrf2-Dependent GSH Synthesis

Role of protein kinase Cδ in dopaminergic neurotoxic events

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