Masako M. Bilak scite author profile

Recent studies suggest that the inducible isoform of cyclooxygenase, COX-2, promotes motor neuron loss in rodent models of ALS. We investigated the effects of PGE2, a principal downstream prostaglandin product of COX-2 activity, on motor neuron survival in an organotypic culture model of ALS. We find that PGE2 paradoxically protects motor neurons at physiological concentrations in this model. PGE2 exerts its downstream effects by signaling through a class of four distinct G-protein-coupled E-prostanoid receptors (EP1-EP4) that have divergent effects on cAMP. EP2 and EP3 are dominantly expressed in ventral spinal cord in neurons and astrocytes, and activation of these receptor subtypes individually or in combination also rescued motor neurons. The EP2 receptor is positively coupled to cAMP, and its neuroprotection was mimicked by application of forskolin and blocked by inhibition of PKA, suggesting that its protective effect is mediated by downstream effects of cAMP. Conversely, the EP3 receptor is negatively coupled to cAMP, and its neuroprotective effect was blocked by pertussis toxin, suggesting that its protective effect is dependent on Gi-coupled heterotrimeric signaling. Taken together, these data demonstrate an unexpected neuroprotective effect mediated by PGE2, in which activation of its EP2 and EP3 receptors protected motor neurons from chronic glutamate toxicity.

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Function of COX-2 and Prostaglandins in Neurological Disease

Liang

Wang

et al. 2007

J Mol Neurosci

107

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Induction of COX-2 expression and enzymatic activity promotes neuronal injury in a number of models of neurological disease. Inhibition of COX-2 activity, either genetically or pharmacologically, has been shown to be neuroprotective in rodent models of stroke, Parkinson's disease, and amyotrophic lateral sclerosis. Inhibition of COX activity with nonsteroidal anti-inflammatory drugs (NSAIDs) reduces inflammation and amyloid accumulation in murine transgenic models of Familial Alzheimer's disease, and the use of NSAIDs decreases the risk of developing Alzheimer's disease in healthy aging populations. COX-mediated neuronal injury is presumed be due to downstream effects of one or more prostaglandin products including PGE2, PGD2, PGF2alpha, PGI2 (prostacylin) and TXA2 (thromboxane) that effect cellular changes through activation of specific prostaglandin receptor subtypes and second messenger systems. In this proceeding, we review recent data demonstrating effects of prostaglandin signaling on neuronal viability that are paradoxically protective, when taken in the context that COX-2 induces neuronal injury in the setting of excitotoxicity. Conversely, in the context of an inflammatory stimulus, the EP2 receptor enhances neuronal injury. These findings argue for an additional level of complexity in the prostaglandin response in neurological disease.

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Identification of the Neuroprotective Molecular Region of Pigment Epithelium-Derived Factor and Its Binding Sites on Motor Neurons

et al. 2002

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Pigment epithelium-derived factor (PEDF), a member of the serine protease inhibitor (serpin) family, is a survival factor for various types of neurons. We studied the mechanisms by which human PEDF protects motor neurons from degeneration, with the goal of eventually conducting human clinical trials. We first searched for a molecular region of human PEDF essential to motor neuron protection. Using a spinal cord culture model of chronic glutamate toxicity, we show herein that a synthetic 44 mer peptide from an N-terminal region of the human PEDF molecule that lacks the homologous serpin-reactive region contains its full neuroprotective activity. We also investigated the presence and distribution of PEDF receptors in the spinal cord. Using a fluoresceinated PEDF probe, we show that spinal motor neurons contain specific binding sites for PEDF. Kinetics analyses using a radiolabeled PEDF probe demonstrate that purified rat motor neurons contain a single class of saturable and specific binding sites. This study indicates that a small peptide fragment of the human PEDF molecule could be engineered to contain all of its motor neuron protective activity, and that the neuroprotective action is likely to be mediated directly on motor neurons via a single class of PEDF receptors. The data support the pharmacotherapeutic potential of PEDF as a neuroprotectant in human motor neuron degeneration.

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Difference in Expression of Phosphorylated Tau Epitopes between Sporadic Inclusion-body Myositis and Hereditary Inclusion-body Myopathies

Mirabella

Alvarez

Bilak

et al. 1996

Journal of Neuropathology and Experimental Neurology

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Properties of the Novel Intermediate Filament Protein Synemin and Its Identification in Mammalian Muscle

Bilak

Sernett

Bilak

et al. 1998

Archives of Biochemistry and Biophysics

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New Growth of Axons in the Cochlear Nucleus of Adult Chinchillas after Acoustic Trauma

Bilak

Kim

Potashner

et al. 1997

Experimental Neurology

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Preclinical Testing of Neuroprotective Neurotrophic Factors in a Model of Chronic Motor Neuron Degeneration

Corse

Bilak

et al. 1999

Neurobiology of Disease

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Masako M. Bilak

Pigment Epithelium-derived Factor (PEDF) Protects Motor Neurons from Chronic Glutamate-mediated Neurodegeneration

PGE₂ receptors rescue motor neurons in a model of amyotrophic lateral sclerosis

Function of COX-2 and Prostaglandins in Neurological Disease

Identification of the Neuroprotective Molecular Region of Pigment Epithelium-Derived Factor and Its Binding Sites on Motor Neurons

Difference in Expression of Phosphorylated Tau Epitopes between Sporadic Inclusion-body Myositis and Hereditary Inclusion-body Myopathies

Properties of the Novel Intermediate Filament Protein Synemin and Its Identification in Mammalian Muscle

New Growth of Axons in the Cochlear Nucleus of Adult Chinchillas after Acoustic Trauma

Preclinical Testing of Neuroprotective Neurotrophic Factors in a Model of Chronic Motor Neuron Degeneration

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Masako M. Bilak

Pigment Epithelium-derived Factor (PEDF) Protects Motor Neurons from Chronic Glutamate-mediated Neurodegeneration

PGE2 receptors rescue motor neurons in a model of amyotrophic lateral sclerosis

Function of COX-2 and Prostaglandins in Neurological Disease

Identification of the Neuroprotective Molecular Region of Pigment Epithelium-Derived Factor and Its Binding Sites on Motor Neurons

Difference in Expression of Phosphorylated Tau Epitopes between Sporadic Inclusion-body Myositis and Hereditary Inclusion-body Myopathies

Properties of the Novel Intermediate Filament Protein Synemin and Its Identification in Mammalian Muscle

New Growth of Axons in the Cochlear Nucleus of Adult Chinchillas after Acoustic Trauma

Preclinical Testing of Neuroprotective Neurotrophic Factors in a Model of Chronic Motor Neuron Degeneration

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Product

Resources

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PGE₂ receptors rescue motor neurons in a model of amyotrophic lateral sclerosis