Erythropoietin Receptor-mediated Inhibition of Exocytotic Glutamate Release Confers Neuroprotection during Chemical Ischemia

Erythropoietin (EPO) reduced Ca2+-induced glutamate (Glu) release from cultured cerebellar granule neurons. Inhibition was also produced by EPO mimetic peptide 1 (EMP1), a small synthetic peptide agonist of EPO receptor (EPO-R), but not by iEMP1, an inactive analogue of EMP1. EPO and EMP1 induced au...

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Veröffentlicht in:	The Journal of biological chemistry 2001-10, Vol.276 (42), p.39469-39475
Hauptverfasser:	Kawakami, Masakatsu, Sekiguchi, Mariko, Sato, Kazuki, Kozaki, Shunji, Takahashi, Masami
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Sprache:	eng
Schlagworte:	Animals Botulinum Toxins - pharmacology Botulinum Toxins, Type A Cell Death Cells, Cultured Cerebellum - metabolism Dose-Response Relationship, Drug erythropoietin receptors Exocytosis Glutamic Acid - metabolism Hippocampus - cytology Hippocampus - metabolism Immunoblotting Ischemia Janus Kinase 2 Neurons - metabolism Phosphorylation Protein-Tyrosine Kinases - metabolism Proto-Oncogene Proteins Rats Receptors, Erythropoietin - metabolism Time Factors Tyrosine - metabolism
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container_issue	42
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container_title	The Journal of biological chemistry
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creator	Kawakami, Masakatsu Sekiguchi, Mariko Sato, Kazuki Kozaki, Shunji Takahashi, Masami
description	Erythropoietin (EPO) reduced Ca2+-induced glutamate (Glu) release from cultured cerebellar granule neurons. Inhibition was also produced by EPO mimetic peptide 1 (EMP1), a small synthetic peptide agonist of EPO receptor (EPO-R), but not by iEMP1, an inactive analogue of EMP1. EPO and EMP1 induced autophosphorylation of Janus kinase 2 (JAK2), a tyrosine kinase that associates with EPO-R. Furthermore, genistein, but not genistin, antagonized both the phosphorylation of JAK2 and the suppression of Glu release induced by EPO and EMP1. During chemical ischemia, substantial amounts of Glu were released from cultured cerebellar and hippocampal neurons by at least two distinct mechanisms. In the early phase, Glu release occurred by exocytosis of synaptic vesicle contents, because it was abolished by botulinum type B neurotoxin (BoNT/B). In contrast, the later phase of Glu release mainly involved a BoNT/B-insensitive non-exocytotic pathway. EMP1 inhibited Glu release only during the early exocytotic phase. A 20-min exposure of hippocampal slices to chemical ischemia induced neuronal cell death, especially in the CA1 region and the dentate gyrus, which was suppressed by EMP1 but not iEMP1. However, EMP1 did not attenuate neuronal cell death induced by exogenously applied Glu. These results suggest that activation of EPO-R suppresses ischemic cell death by inhibiting the exocytosis of Glu.
doi_str_mv	10.1074/jbc.M105832200
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Inhibition was also produced by EPO mimetic peptide 1 (EMP1), a small synthetic peptide agonist of EPO receptor (EPO-R), but not by iEMP1, an inactive analogue of EMP1. EPO and EMP1 induced autophosphorylation of Janus kinase 2 (JAK2), a tyrosine kinase that associates with EPO-R. Furthermore, genistein, but not genistin, antagonized both the phosphorylation of JAK2 and the suppression of Glu release induced by EPO and EMP1. During chemical ischemia, substantial amounts of Glu were released from cultured cerebellar and hippocampal neurons by at least two distinct mechanisms. In the early phase, Glu release occurred by exocytosis of synaptic vesicle contents, because it was abolished by botulinum type B neurotoxin (BoNT/B). In contrast, the later phase of Glu release mainly involved a BoNT/B-insensitive non-exocytotic pathway. EMP1 inhibited Glu release only during the early exocytotic phase. A 20-min exposure of hippocampal slices to chemical ischemia induced neuronal cell death, especially in the CA1 region and the dentate gyrus, which was suppressed by EMP1 but not iEMP1. However, EMP1 did not attenuate neuronal cell death induced by exogenously applied Glu. 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Inhibition was also produced by EPO mimetic peptide 1 (EMP1), a small synthetic peptide agonist of EPO receptor (EPO-R), but not by iEMP1, an inactive analogue of EMP1. EPO and EMP1 induced autophosphorylation of Janus kinase 2 (JAK2), a tyrosine kinase that associates with EPO-R. Furthermore, genistein, but not genistin, antagonized both the phosphorylation of JAK2 and the suppression of Glu release induced by EPO and EMP1. During chemical ischemia, substantial amounts of Glu were released from cultured cerebellar and hippocampal neurons by at least two distinct mechanisms. In the early phase, Glu release occurred by exocytosis of synaptic vesicle contents, because it was abolished by botulinum type B neurotoxin (BoNT/B). In contrast, the later phase of Glu release mainly involved a BoNT/B-insensitive non-exocytotic pathway. EMP1 inhibited Glu release only during the early exocytotic phase. A 20-min exposure of hippocampal slices to chemical ischemia induced neuronal cell death, especially in the CA1 region and the dentate gyrus, which was suppressed by EMP1 but not iEMP1. However, EMP1 did not attenuate neuronal cell death induced by exogenously applied Glu. These results suggest that activation of EPO-R suppresses ischemic cell death by inhibiting the exocytosis of Glu.</description><subject>Animals</subject><subject>Botulinum Toxins - pharmacology</subject><subject>Botulinum Toxins, Type A</subject><subject>Cell Death</subject><subject>Cells, Cultured</subject><subject>Cerebellum - metabolism</subject><subject>Dose-Response Relationship, Drug</subject><subject>erythropoietin receptors</subject><subject>Exocytosis</subject><subject>Glutamic Acid - metabolism</subject><subject>Hippocampus - cytology</subject><subject>Hippocampus - metabolism</subject><subject>Immunoblotting</subject><subject>Ischemia</subject><subject>Janus Kinase 2</subject><subject>Neurons - metabolism</subject><subject>Phosphorylation</subject><subject>Protein-Tyrosine Kinases - metabolism</subject><subject>Proto-Oncogene Proteins</subject><subject>Rats</subject><subject>Receptors, Erythropoietin - metabolism</subject><subject>Time Factors</subject><subject>Tyrosine - metabolism</subject><issn>0021-9258</issn><issn>1083-351X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2001</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp1kc2LEzEYh4Mobl29epQcxNvUfEymyVFKXQurgih4C_l4ZyfLzKQmGbXgH29qC3sylwTy_H68eYLQS0rWlGzat_fWrT9SIiRnjJBHaEWJ5A0X9PtjtCKE0UYxIa_Qs5zvSV2tok_RFaWCtBtOV-jPLh3LkOIhBihhxl_AwaHE1Ezggyng8X4egg0lxBnHHu9-R3cssQSHb8almKkyNTSCyYC3ce4hZfwJltqYYgH3L-eXFOY7vB1gCs6MeJ_d6Wieoye9GTO8uOzX6Nv73dfth-b2881---62cYJ0pZGgHPWtp70wXrWtEt4qx1RrvRKKUuO544wr8H3HlDKdobKHntt6Yaw1_Bq9OffWmX4skIueQnYwjmaGuGRNJZWdFJsKrs-gSzHnBL0-pDCZdNSU6JNvXX3rB9818OrSvNhq7AG_CK7A6zMwhLvhV0igbYin12u26XTLNFdtpyomzxhUDT8DJJ1dgNnVT0hVovYx_G-Ev0Agnhw</recordid><startdate>20011019</startdate><enddate>20011019</enddate><creator>Kawakami, Masakatsu</creator><creator>Sekiguchi, Mariko</creator><creator>Sato, Kazuki</creator><creator>Kozaki, Shunji</creator><creator>Takahashi, Masami</creator><general>Elsevier Inc</general><general>American Society for Biochemistry and Molecular Biology</general><scope>6I.</scope><scope>AAFTH</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7TK</scope></search><sort><creationdate>20011019</creationdate><title>Erythropoietin Receptor-mediated Inhibition of Exocytotic Glutamate Release Confers Neuroprotection during Chemical Ischemia</title><author>Kawakami, Masakatsu ; 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subjects	Animals Botulinum Toxins - pharmacology Botulinum Toxins, Type A Cell Death Cells, Cultured Cerebellum - metabolism Dose-Response Relationship, Drug erythropoietin receptors Exocytosis Glutamic Acid - metabolism Hippocampus - cytology Hippocampus - metabolism Immunoblotting Ischemia Janus Kinase 2 Neurons - metabolism Phosphorylation Protein-Tyrosine Kinases - metabolism Proto-Oncogene Proteins Rats Receptors, Erythropoietin - metabolism Time Factors Tyrosine - metabolism
title	Erythropoietin Receptor-mediated Inhibition of Exocytotic Glutamate Release Confers Neuroprotection during Chemical Ischemia
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