Takayuki Kawano scite author profile

Cyclooxygenase-2 (COX-2), a rate-limiting enzyme for prostanoid synthesis, has been implicated in the neurotoxicity resulting from hypoxia-ischemia, and its inhibition has therapeutic potential for ischemic stroke. However, COX-2 inhibitors increase the risk of cardiovascular complications. We therefore sought to identify the downstream effectors of COX-2 neurotoxicity, and found that prostaglandin E(2) EP1 receptors are essential for the neurotoxicity mediated by COX-2-derived prostaglandin E(2). EP1 receptors disrupt Ca(2+) homeostasis by impairing Na(+)-Ca(2+) exchange, a key mechanism by which neurons cope with excess Ca(2+) accumulation after an excitotoxic insult. Thus, EP1 receptors contribute to neurotoxicity by augmenting the Ca(2+) dysregulation underlying excitotoxic neuronal death. Pharmacological inhibition or gene inactivation of EP1 receptors ameliorates brain injury induced by excitotoxicity, oxygen glucose deprivation and middle cerebral artery (MCA) occlusion. An EP1 receptor inhibitor reduces brain injury when administered 6 hours after MCA occlusion, suggesting that EP1 receptor inhibition may be a viable therapeutic option in ischemic stroke.

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Activation of Akt/Protein Kinase B Contributes to Induction of Ischemic Tolerance in the CA1 Subfield of Gerbil Hippocampus

Yano

Morioka

Fukunaga

et al. 2001

J Cereb Blood Flow Metab

213

147

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Apoptosis plays an important role in delayed neuronal cell death after cerebral ischemia. Activation of Akt/protein kinase B has been recently reported to prevent apoptosis in several cell types. In this article the authors examine whether induction of ischemic tolerance resulting from a sublethal ischemic insult requires Akt activation. Sublethal ischemia gradually and persistently stimulated phosphorylation of Akt-Ser-473 in the hippocampal CA1 region after reperfusion. After lethal ischemia, phosphorylation of Akt-Ser-473 showed no obvious decrease in preconditioned gerbils but a marked decrease in nonconditioned gerbils. Changes in Akt-Ser-473 phosphorylation were correlated with changes in Akt activities, as measured by an in vitro kinase assay. Intracerebral ventricular infusion of wortmannin before preconditioning blocked both the increase in Akt-Ser-473 phosphorylation in a dose-dependent manner and the neuroprotective action of preconditioning. These results suggest that Akt activation is induced by a sublethal ischemic insult in gerbil hippocampus and contributes to neuroprotective ischemic tolerance in CA1 pyramidal neurons.

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Angiographic Dilatation and Branch Extension of the Anterior Choroidal and Posterior Communicating Arteries Are Predictors of Hemorrhage in Adult Moyamoya Patients

Morioka

Hamada

Kawano

et al. 2003

Stroke

145

115

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Prostanoids, not reactive oxygen species, mediate COX‐2–dependent neurotoxicity

Manabe

Anrather

Kawano

et al. 2004

Annals of Neurology

129

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The prostaglandin synthesizing enzyme cyclooxygenase-2 (COX-2) has emerged as a critical pathogenic factor in brain diseases associated with activation of N-methyl-D-aspartate (NMDA) receptors, including stroke and neurodegenerative diseases. However, the COX-2 reaction products responsible for these deleterious effects have not been identified. In particular, the relative contribution to the neurotoxicity of COX-2-derived prostanoids and reactive oxygen species has not been defined. We found that the brain damage produced by direct injection of NMDA into the somatosensory cortex is attenuated by the COX-2 inhibitor NS-398 or in COX-2-null mice, but that the associated production of free radicals is not. Furthermore, COX-2 inhibition reduces the lesions even if the deleterious effects of free radicals are eliminated by the scavenger superoxide dismutase. The protection exerted by NS-398 is counteracted by a stable analog of prostaglandin E2. The findings directly implicate COX-2-derived prostanoids, rather then radicals, in the COX-2-dependent component of the damage mediated by NMDA receptors and strengthen the rationale for using COX-2 inhibitors in the treatment of neurological diseases associated with glutamate neurotoxicity.

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RAGE mediates vascular injury and inflammation after global cerebral ischemia

Kamide

Kitao

Takeichi

et al. 2012

Neurochemistry International

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Neuroprotective Effect of Sodium Orthovanadate on Delayed Neuronal Death after Transient Forebrain Ischemia in Gerbil Hippocampus

Kawano

Fukunaga

Takeuchi

et al. 2001

J Cereb Blood Flow Metab

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In transient forebrain ischemia, sodium orthovanadate as well as insulinlike growth factor-1 (IGF-1) rescued cells from delayed neuronal death in the hippocampal CA1 region. Adult Mongolian gerbils were subjected to 5-minute forebrain ischemia. Immunoblotting analysis with anti-phospho-Akt/PKB (Akt) antibody showed that phosphorylation of Akt at serine-473 (Akt-Ser-473) in the CA1 region decreased immediately after reperfusion, and in turn transiently increased 6 hours after reperfusion. The decreased phosphorylation of Akt-Ser-473 was not observed in the CA3 region. The authors then tested effects of intraventricular injection of orthovanadate and IGF-1, which are known to activate Akt. Treatment with orthovanadate or IGF-1 30 minutes before ischemia blocked delayed neuronal death in the CA1 region. The neuroprotective effects of orthovanadate and IGF-1 were associated with preventing decreased Akt-Ser-473 phosphorylation in the CA1 region observed immediately after reperfusion. Immunohistochemical studies with the anti-phospho-Akt-Ser-473 antibody also demonstrated that Akt was predominantly in the nucleus and was moderately activated in the cell bodies and dendrites of pyramidal neurons after orthovanadate treatment. The orthovanadate treatment also prevented the decrease in phosphorylation of mitogen-activated protein kinase (MAPK). Pretreatment with combined blockade of phosphatidylinositol 3-kinase and MAPK pathways totally abolished the orthovanadate-induced neuroprotective effect. These results suggest that the activation of both Akt and MAPK activities underlie the neuroprotective effects of orthovanadate on the delayed neuronal death in the CA1 region after transient forebrain ischemia.

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Akt Is a Molecular Target for Signal Transduction Therapy in Brain Ischemic Insult

Fukunaga¹,

Kawano²

2003

J Pharmacol Sci

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Growth factors including insulin-like growth factor-1 (IGF-1) promote cell survival in ischemic brain injury. Stimulation of IGF-1 receptor coupled with tyrosine kinase activates phosphatidylinositol 3-kinase and subsequently, protein kinase B (Akt) in hippocampal neurons. Here we introduce a new approach of signal transduction therapy for brain damage occurring in ischemic insult. As has been shown for IGF-1, intracerebroventricular injection of sodium orthovanadate, a protein tyrosine phosphatase inhibitor, prior to ischemic insult blocked delayed neuronal death in the CA1 region. The neuroprotective effects of orthovanadate and IGF-1 were associated with an increased Akt activity in the CA1 region. We discuss here potential targets for Akt relevant to such neuroprotective activity. Our findings lead to the conclusion that Akt activity is a potential target for neuroprotective drugs in brain ischemic insult and other episodes of excitotoxic neuronal apoptosis such as seizure and Huntington's and Parkinson's diseases.

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Strategy for Treating Unruptured Vertebral Artery Dissecting Aneurysms

Kai¹,

Nishi

Watanabe

et al. 2011

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Takayuki Kawano

Prostaglandin E2 EP1 receptors: downstream effectors of COX-2 neurotoxicity

Activation of Akt/Protein Kinase B Contributes to Induction of Ischemic Tolerance in the CA1 Subfield of Gerbil Hippocampus

Angiographic Dilatation and Branch Extension of the Anterior Choroidal and Posterior Communicating Arteries Are Predictors of Hemorrhage in Adult Moyamoya Patients

Prostanoids, not reactive oxygen species, mediate COX‐2–dependent neurotoxicity

RAGE mediates vascular injury and inflammation after global cerebral ischemia

Neuroprotective Effect of Sodium Orthovanadate on Delayed Neuronal Death after Transient Forebrain Ischemia in Gerbil Hippocampus

Akt Is a Molecular Target for Signal Transduction Therapy in Brain Ischemic Insult

Strategy for Treating Unruptured Vertebral Artery Dissecting Aneurysms

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