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Timothy H. Murphy

Bio: Timothy H. Murphy is an academic researcher from University of British Columbia. The author has contributed to research in topics: Dendritic spine & Excitatory postsynaptic potential. The author has an hindex of 68, co-authored 195 publications receiving 16792 citations. Previous affiliations of Timothy H. Murphy include Mount Sinai Hospital & Johns Hopkins University.


Papers
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Journal ArticleDOI
TL;DR: Evidence from animal models suggests that a time-limited window of neuroplasticity opens following a stroke, during which the greatest gains in recovery occur, and how to optimally engage and modify surviving neuronal networks is studied.
Abstract: Reductions in blood flow to the brain of sufficient duration and extent lead to stroke, which results in damage to neuronal networks and the impairment of sensation, movement or cognition. Evidence from animal models suggests that a time-limited window of neuroplasticity opens following a stroke, during which the greatest gains in recovery occur. Plasticity mechanisms include activity-dependent rewiring and synapse strengthening. The challenge for improving stroke recovery is to understand how to optimally engage and modify surviving neuronal networks, to provide new response strategies that compensate for tissue lost to injury.

1,554 citations

Journal ArticleDOI
01 Jun 1989-Neuron
TL;DR: Glutamate-induced cytotoxicity in N18-RE-105 cells is due to inhibition of cystine uptake, resulting in lowered glutathione levels leading to oxidative stress and cell death.

966 citations

Journal ArticleDOI
TL;DR: It is shown that Nrf2 overexpression can reengineer neurons to express this glial pathway and enhance antioxidant gene expression and protect fully cocultured naive neurons from oxidative glutamate toxicity associated with glutathione (GSH) depletion.
Abstract: Astrocytes have a higher antioxidant potential in comparison to neurons. Pathways associated with this selective advantage include the transcriptional regulation of antioxidant enzymes via the action of the Cap'n'Collar transcription factor Nrf2 at the antioxidant response element (ARE). Here we show that Nrf2 overexpression can reengineer neurons to express this glial pathway and enhance antioxidant gene expression. However, Nrf2-mediated protection from oxidative stress is conferred primarily by glia in mixed cultures. The antioxidant properties of Nrf2-overexpressing glia are more pronounced than those of neurons, and a relatively small number of these glia (< 1% of total cell number added) could protect fully cocultured naive neurons from oxidative glutamate toxicity associated with glutathione (GSH) depletion. Microarray and biochemical analyses indicate a coordinated upregulation of enzymes involved in GSH biosynthesis (xCT cystine antiporter, gamma-glutamylcysteine synthetase, and GSH synthase), use (glutathione S-transferase and glutathione reductase), and export (multidrug resistance protein 1) with Nrf2 overexpression, leading to an increase in both media and intracellular GSH. Selective inhibition of glial GSH synthesis and the supplementation of media GSH indicated that an Nrf2-dependent increase in glial GSH synthesis was both necessary and sufficient for the protection of neurons, respectively. Neuroprotection was not limited to overexpression of Nrf2, because activation of endogenous glial Nrf2 by the small molecule ARE inducer, tert-butylhydroquinone, also protected against oxidative glutamate toxicity.

700 citations

Journal ArticleDOI
TL;DR: It is found that glutathione depletion leads to hypercondensation and fragmentation of chromatin into spherical or irregular shapes, a morphologic signature of apoptosis, which suggests that oxidative stress can induce apoptosis in neurons.
Abstract: Glutamate-induced glutathione depletion in immature embryonic cortical neurons has been shown to lead to oxidative stress and cell death. We have used this in vitro model to investigate the mechanism(s) by which free radicals induce neuronal degeneration. We find that glutathione depletion leads to hyper-condensation and fragmentation of chromatin into spherical or irregular shapes, a morphologic signature of apoptosis. These morphologic changes are accompanied by laddering of DNA into multiple oligonucleosomal fragments and can be prevented by the antioxidants idebenone and butylated hydroxyanisole. Cell death induced by glutathione depletion can also be prevented by inhibitors of macromolecular synthesis. Taken together, these observations suggest that oxidative stress can induce apoptosis in neurons.

611 citations

Journal ArticleDOI
28 Jan 2010-Neuron
TL;DR: Elevated extrasynaptic NMDAR activity is demonstrated in an animal model of neurodegenerative disease and a candidate mechanism linking several pathways previously implicated in HD pathogenesis is provided and successful early therapeutic intervention in mice is demonstrated.

477 citations


Cited by
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28 Jul 2005
TL;DR: PfPMP1)与感染红细胞、树突状组胞以及胎盘的单个或多个受体作用,在黏附及免疫逃避中起关键的作�ly.
Abstract: 抗原变异可使得多种致病微生物易于逃避宿主免疫应答。表达在感染红细胞表面的恶性疟原虫红细胞表面蛋白1(PfPMP1)与感染红细胞、内皮细胞、树突状细胞以及胎盘的单个或多个受体作用,在黏附及免疫逃避中起关键的作用。每个单倍体基因组var基因家族编码约60种成员,通过启动转录不同的var基因变异体为抗原变异提供了分子基础。

18,940 citations

Journal ArticleDOI
25 May 2012-Cell
TL;DR: This paper identified the small molecule ferrostatin-1 as a potent inhibitor of ferroptosis in cancer cells and glutamate-induced cell death in organotypic rat brain slices, suggesting similarities between these two processes.

7,192 citations

Journal ArticleDOI
01 Oct 1988-Neuron

4,979 citations

Journal Article
TL;DR: The cloning of cDNAs encoding glutamate receptor subunits, which occurred mainly between 1989 and 1992, stimulated the development of ionotropic glutamate receptors in the brain.
Abstract: The ionotropic glutamate receptors are ligand-gated ion channels that mediate the vast majority of excitatory neurotransmission in the brain. The cloning of cDNAs encoding glutamate receptor subunits, which occurred mainly between 1989 and 1992 ([Hollmann and Heinemann, 1994][1]), stimulated this

4,112 citations