The endogenous inhibitor of Akt, CTMP, is critical to ischemia-induced neuronal death

Takahiro Miyawaki; Dimitry Ofengeim; Kyung Min Noh; Adrianna Latuszek-Barrantes; Brian A. Hemmings; Antonia Follenzi; R. Suzanne Zukin

doi:10.1038/nn.2299

The endogenous inhibitor of Akt, CTMP, is critical to ischemia-induced neuronal death

Takahiro Miyawaki, Dimitry Ofengeim, Kyung Min Noh, Adrianna Latuszek-Barrantes, Brian A. Hemmings, Antonia Follenzi, R. Suzanne Zukin

Dipartimento di Scienze della Salute

Risultato della ricerca: Contributo su rivista › Articolo in rivista › peer review

Abstract

Dysregulation of Akt signaling is important in a broad range of diseases that includes cancer, diabetes and heart disease. The role of Akt signaling in brain disorders is less clear. We found that global ischemia in intact rats triggered expression and activation of the Akt inhibitor CTMP (carboxyl-terminal modulator protein) in vulnerable hippocampal neurons and that CTMP bound and extinguished Akt activity and was essential to ischemia-induced neuronal death. Although ischemia induced a marked phosphorylation and nuclear translocation of Akt, phosphorylated Akt was not active in post-ischemic neurons, as assessed by kinase assays and phosphorylation of the downstream targets GSK-3Β and FOXO3A. RNA interference-mediated depletion of CTMP in a clinically relevant model of stroke restored Akt activity and rescued hippocampal neurons. Our results indicate that CTMP is important in the neurodegeneration that is associated with stroke and identify CTMP as a therapeutic target for the amelioration of hippocampal injury and cognitive deficits.

Lingua originale	Inglese
pagine (da-a)	618-626
Numero di pagine	9
Rivista	Nature Neuroscience
Volume	12
Numero di pubblicazione	5
DOI	https://doi.org/10.1038/nn.2299
Stato di pubblicazione	Pubblicato - mag 2009

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title = "The endogenous inhibitor of Akt, CTMP, is critical to ischemia-induced neuronal death",

abstract = "Dysregulation of Akt signaling is important in a broad range of diseases that includes cancer, diabetes and heart disease. The role of Akt signaling in brain disorders is less clear. We found that global ischemia in intact rats triggered expression and activation of the Akt inhibitor CTMP (carboxyl-terminal modulator protein) in vulnerable hippocampal neurons and that CTMP bound and extinguished Akt activity and was essential to ischemia-induced neuronal death. Although ischemia induced a marked phosphorylation and nuclear translocation of Akt, phosphorylated Akt was not active in post-ischemic neurons, as assessed by kinase assays and phosphorylation of the downstream targets GSK-3Β and FOXO3A. RNA interference-mediated depletion of CTMP in a clinically relevant model of stroke restored Akt activity and rescued hippocampal neurons. Our results indicate that CTMP is important in the neurodegeneration that is associated with stroke and identify CTMP as a therapeutic target for the amelioration of hippocampal injury and cognitive deficits.",

author = "Takahiro Miyawaki and Dimitry Ofengeim and Noh, {Kyung Min} and Adrianna Latuszek-Barrantes and Hemmings, {Brian A.} and Antonia Follenzi and Zukin, {R. Suzanne}",

note = "Funding Information: We thank J. Backer and L.K. Kaczmarek for helpful scientific discussions and D.T. Borst for editorial assistance. This work was supported by US National Institutes of Health grants NS46742 and NS45693 (to R.S.Z.) and by a generous grant from the F.M. Kirby Foundation Program in Neural Repair and Neuroprotection. R.S.Z. is the F.M. Kirby Professor in Neural Repair and Protection.",

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AU - Miyawaki, Takahiro

AU - Ofengeim, Dimitry

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AU - Hemmings, Brian A.

AU - Follenzi, Antonia

AU - Zukin, R. Suzanne

N1 - Funding Information: We thank J. Backer and L.K. Kaczmarek for helpful scientific discussions and D.T. Borst for editorial assistance. This work was supported by US National Institutes of Health grants NS46742 and NS45693 (to R.S.Z.) and by a generous grant from the F.M. Kirby Foundation Program in Neural Repair and Neuroprotection. R.S.Z. is the F.M. Kirby Professor in Neural Repair and Protection.

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N2 - Dysregulation of Akt signaling is important in a broad range of diseases that includes cancer, diabetes and heart disease. The role of Akt signaling in brain disorders is less clear. We found that global ischemia in intact rats triggered expression and activation of the Akt inhibitor CTMP (carboxyl-terminal modulator protein) in vulnerable hippocampal neurons and that CTMP bound and extinguished Akt activity and was essential to ischemia-induced neuronal death. Although ischemia induced a marked phosphorylation and nuclear translocation of Akt, phosphorylated Akt was not active in post-ischemic neurons, as assessed by kinase assays and phosphorylation of the downstream targets GSK-3Β and FOXO3A. RNA interference-mediated depletion of CTMP in a clinically relevant model of stroke restored Akt activity and rescued hippocampal neurons. Our results indicate that CTMP is important in the neurodegeneration that is associated with stroke and identify CTMP as a therapeutic target for the amelioration of hippocampal injury and cognitive deficits.

AB - Dysregulation of Akt signaling is important in a broad range of diseases that includes cancer, diabetes and heart disease. The role of Akt signaling in brain disorders is less clear. We found that global ischemia in intact rats triggered expression and activation of the Akt inhibitor CTMP (carboxyl-terminal modulator protein) in vulnerable hippocampal neurons and that CTMP bound and extinguished Akt activity and was essential to ischemia-induced neuronal death. Although ischemia induced a marked phosphorylation and nuclear translocation of Akt, phosphorylated Akt was not active in post-ischemic neurons, as assessed by kinase assays and phosphorylation of the downstream targets GSK-3Β and FOXO3A. RNA interference-mediated depletion of CTMP in a clinically relevant model of stroke restored Akt activity and rescued hippocampal neurons. Our results indicate that CTMP is important in the neurodegeneration that is associated with stroke and identify CTMP as a therapeutic target for the amelioration of hippocampal injury and cognitive deficits.

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The endogenous inhibitor of Akt, CTMP, is critical to ischemia-induced neuronal death

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