AMPA receptors and seizures mediate hippocampal radial glia-like stem cell proliferation
AMPA receptors and seizures mediate hippocampal radial glia-like stem cell proliferation
Neurogenesis is sustained throughout life in the mammalian brain, supporting hippocampus-dependent learning and memory. Its permanent alteration by status epilepticus (SE) is associated with learning and cognitive impairments. The mechanisms underlying the initiation of altered neurogenesis after SE are not understood. Glial fibrillary acidic protein-positive radial glia (RG)-like cells proliferate early after SE, but their proliferation dynamics and signaling are largely unclear. We have previously reported a polarized distribution of AMPA receptors (AMPARs) on RG-like cells in vivo and postulated that these may signal their proliferation. Here, we examined the acute effects of kainate on hippocampal precursor cells in vitro and in kainate-induced SE on proliferating and quiescent clones of 5-bromo-2-deoxyuridine prelabeled hippocampal precursors in vivo. In vitro, we found that 5 μM kainate shortened the cell cycle time of RG-like cells via AMPAR activation and accelerated cell cycle re-entry of their progeny. It also shifted their fate choice expanding the population of RG-like cells and reducing the population of downstream amplifying neural progenitors. Kainate enhanced the survival of all precursor cell subtypes. Pharmacologically, kainate's proliferative and survival effects were abolished by AMPAR blockade. Functional AMPAR expression was confirmed on RG-like cells in vitro. In agreement with these observations, kainate/seizures enhanced the proliferation and expansion predominantly of constitutively cycling RG-like cell clones in vivo. Our results identify AMPARs as key potential players in initiating the proliferation of dentate RG-like cells and unravel a possible receptor target for modifying the radial glia-like cell response to SE.
AMPARs, epilepsy, Kainate, precursors, radial glia-like, rat
2397-2413
Shtaya, Anan
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Sadek, Ahmed Ramadan
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Zaben, Malik
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Seifert, Gerald
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Pringle, Ashley
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Steinhäuser, Christian
cab5fada-73bf-46d4-bc68-5cb976e0b3ad
Gray, William Peter
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November 2018
Shtaya, Anan
082268ec-9fa6-4103-ab5a-e50a5ea20b85
Sadek, Ahmed Ramadan
745c319c-82b0-4eb4-b8ea-48ea7be1f2fa
Zaben, Malik
cde8ed3c-f512-43f6-8ead-4eb0c8e33c77
Seifert, Gerald
9ffd88b2-df8b-4ba5-b2f1-e78f067652e2
Pringle, Ashley
6339ed95-c491-43a8-b2fb-2384466dc80d
Steinhäuser, Christian
cab5fada-73bf-46d4-bc68-5cb976e0b3ad
Gray, William Peter
1d25fc21-c58d-4342-9264-e4f53e04f702
Shtaya, Anan, Sadek, Ahmed Ramadan, Zaben, Malik, Seifert, Gerald, Pringle, Ashley, Steinhäuser, Christian and Gray, William Peter
(2018)
AMPA receptors and seizures mediate hippocampal radial glia-like stem cell proliferation.
GLIA, 66 (11), .
(doi:10.1002/glia.23479).
Abstract
Neurogenesis is sustained throughout life in the mammalian brain, supporting hippocampus-dependent learning and memory. Its permanent alteration by status epilepticus (SE) is associated with learning and cognitive impairments. The mechanisms underlying the initiation of altered neurogenesis after SE are not understood. Glial fibrillary acidic protein-positive radial glia (RG)-like cells proliferate early after SE, but their proliferation dynamics and signaling are largely unclear. We have previously reported a polarized distribution of AMPA receptors (AMPARs) on RG-like cells in vivo and postulated that these may signal their proliferation. Here, we examined the acute effects of kainate on hippocampal precursor cells in vitro and in kainate-induced SE on proliferating and quiescent clones of 5-bromo-2-deoxyuridine prelabeled hippocampal precursors in vivo. In vitro, we found that 5 μM kainate shortened the cell cycle time of RG-like cells via AMPAR activation and accelerated cell cycle re-entry of their progeny. It also shifted their fate choice expanding the population of RG-like cells and reducing the population of downstream amplifying neural progenitors. Kainate enhanced the survival of all precursor cell subtypes. Pharmacologically, kainate's proliferative and survival effects were abolished by AMPAR blockade. Functional AMPAR expression was confirmed on RG-like cells in vitro. In agreement with these observations, kainate/seizures enhanced the proliferation and expansion predominantly of constitutively cycling RG-like cell clones in vivo. Our results identify AMPARs as key potential players in initiating the proliferation of dentate RG-like cells and unravel a possible receptor target for modifying the radial glia-like cell response to SE.
Text
AMPA receptors and Seizures paper
- Accepted Manuscript
More information
Accepted/In Press date: 4 June 2018
e-pub ahead of print date: 25 October 2018
Published date: November 2018
Keywords:
AMPARs, epilepsy, Kainate, precursors, radial glia-like, rat
Identifiers
Local EPrints ID: 427536
URI: http://eprints.soton.ac.uk/id/eprint/427536
ISSN: 0894-1491
PURE UUID: cf6eff99-3b5e-4b6e-a91e-a768a256168a
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Date deposited: 22 Jan 2019 17:30
Last modified: 16 Mar 2024 07:15
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Author:
Anan Shtaya
Author:
Ahmed Ramadan Sadek
Author:
Malik Zaben
Author:
Gerald Seifert
Author:
Christian Steinhäuser
Author:
William Peter Gray
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