Hypoglycemia-induced alterations in hippocampal intrinsic rhythms: Decreased inhibition, increased excitation, seizures and spreading depression

Hypoglycemia-induced alterations in hippocampal intrinsic rhythms: Decreased inhibition, increased excitation, seizures and spreading depression

Seizures are the most common clinical presentation of severe hypoglycemia, usually as a side effect of insulin treatment for juvenile onset type 1 diabetes mellitus and advanced type 2 diabetes. We used the mouse thick hippocampal slice preparation to study the pathophysiology of hypoglycemia-induce...

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Main Authors: C.M. Florez, V. Lukankin, S. Sugumar, R. McGinn, Z.J. Zhang, L. Zhang, P.L. Carlen
Format: Article
Language:English
Published: Elsevier 2015-10-01
Series:Neurobiology of Disease
Subjects:
Hippocampus
In-vitro
Seizure
Spreading depression
Hypoglycemia
Neuroglycopenia
Online Access:http://www.sciencedirect.com/science/article/pii/S0969996115002235
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spelling doaj-4753e62d8ada4b7e836941b552ca20812021-03-22T12:43:07ZengElsevierNeurobiology of Disease1095-953X2015-10-0182213225Hypoglycemia-induced alterations in hippocampal intrinsic rhythms: Decreased inhibition, increased excitation, seizures and spreading depressionC.M. Florez0V. Lukankin1S. Sugumar2R. McGinn3Z.J. Zhang4L. Zhang5P.L. Carlen6Departments of Medicine (Neurology) and Physiology, University of Toronto, Toronto, Canada; Division of Fundamental Neurobiology, TWRI, UHN, Toronto, CanadaDepartments of Medicine (Neurology) and Physiology, University of Toronto, Toronto, CanadaDepartments of Medicine (Neurology) and Physiology, University of Toronto, Toronto, CanadaDepartments of Medicine (Neurology) and Physiology, University of Toronto, Toronto, CanadaDepartments of Medicine (Neurology) and Physiology, University of Toronto, Toronto, CanadaDepartments of Medicine (Neurology) and Physiology, University of Toronto, Toronto, CanadaDepartments of Medicine (Neurology) and Physiology, University of Toronto, Toronto, Canada; Division of Fundamental Neurobiology, TWRI, UHN, Toronto, Canada; Corresponding author at: Toronto Western Hospital, Krembil Discovery Tower, 7th Floor Room 7KD402, 60 Leonard Avenue, Toronto, Ontario M5T 2S8, Canada.Seizures are the most common clinical presentation of severe hypoglycemia, usually as a side effect of insulin treatment for juvenile onset type 1 diabetes mellitus and advanced type 2 diabetes. We used the mouse thick hippocampal slice preparation to study the pathophysiology of hypoglycemia-induced seizures and the effects of severe glucose depletion on the isolated hippocampal rhythms from the CA3 circuitry. Methods and results: Dropping the glucose perfusate concentration from the standard 10 mM to 1 mM produced epileptiform activity in 14/16 of the slices. Seizure-like events (SLEs) originated in the CA3 region and then spread into the CA1 region. Following the SLE, a spreading-depression (SD)-like event occurred (12/16 slices) with irreversible synaptic failure in the CA1 region (8/12 slices). CA3 SD-like events followed ~30 s after the SD-like event in the CA1 region. Less commonly, SD-like events originated in the CA3 region (4/12). Additionally, prior to the onset of the SLE in the CA3 area, there was decreased GABA correlated baseline SPW activity (bSPW), while there was increased large-amplitude sharp wave (LASW) activity, thought to originate from synchronous pyramidal cell firing. CA3 pyramidal cells displayed progressive tonic depolarization prior to the seizure which was resistant to synaptic transmission blockade. The initiation of hypoglycemic seizures and SD was prevented by AMPA/kainate or NMDA receptor blockade. Conclusions: Severe glucose depletion induces rapid changes initiated in the intrinsic CA3 rhythms of the hippocampus including depressed inhibition and enhanced excitation, which may underlie the mechanisms of seizure generation and delayed spreading depression.http://www.sciencedirect.com/science/article/pii/S0969996115002235HippocampusIn-vitroSeizureSpreading depressionHypoglycemiaNeuroglycopenia
collection DOAJ
language English
format Article
sources DOAJ
author C.M. Florez
V. Lukankin
S. Sugumar
R. McGinn
Z.J. Zhang
L. Zhang
P.L. Carlen
spellingShingle C.M. Florez
V. Lukankin
S. Sugumar
R. McGinn
Z.J. Zhang
L. Zhang
P.L. Carlen
Hypoglycemia-induced alterations in hippocampal intrinsic rhythms: Decreased inhibition, increased excitation, seizures and spreading depression
Neurobiology of Disease
Hippocampus
In-vitro
Seizure
Spreading depression
Hypoglycemia
Neuroglycopenia
author_facet C.M. Florez
V. Lukankin
S. Sugumar
R. McGinn
Z.J. Zhang
L. Zhang
P.L. Carlen
author_sort C.M. Florez
title Hypoglycemia-induced alterations in hippocampal intrinsic rhythms: Decreased inhibition, increased excitation, seizures and spreading depression
title_short Hypoglycemia-induced alterations in hippocampal intrinsic rhythms: Decreased inhibition, increased excitation, seizures and spreading depression
title_full Hypoglycemia-induced alterations in hippocampal intrinsic rhythms: Decreased inhibition, increased excitation, seizures and spreading depression
title_fullStr Hypoglycemia-induced alterations in hippocampal intrinsic rhythms: Decreased inhibition, increased excitation, seizures and spreading depression
title_full_unstemmed Hypoglycemia-induced alterations in hippocampal intrinsic rhythms: Decreased inhibition, increased excitation, seizures and spreading depression
title_sort hypoglycemia-induced alterations in hippocampal intrinsic rhythms: decreased inhibition, increased excitation, seizures and spreading depression
publisher Elsevier
series Neurobiology of Disease
issn 1095-953X
publishDate 2015-10-01
description Seizures are the most common clinical presentation of severe hypoglycemia, usually as a side effect of insulin treatment for juvenile onset type 1 diabetes mellitus and advanced type 2 diabetes. We used the mouse thick hippocampal slice preparation to study the pathophysiology of hypoglycemia-induced seizures and the effects of severe glucose depletion on the isolated hippocampal rhythms from the CA3 circuitry. Methods and results: Dropping the glucose perfusate concentration from the standard 10 mM to 1 mM produced epileptiform activity in 14/16 of the slices. Seizure-like events (SLEs) originated in the CA3 region and then spread into the CA1 region. Following the SLE, a spreading-depression (SD)-like event occurred (12/16 slices) with irreversible synaptic failure in the CA1 region (8/12 slices). CA3 SD-like events followed ~30 s after the SD-like event in the CA1 region. Less commonly, SD-like events originated in the CA3 region (4/12). Additionally, prior to the onset of the SLE in the CA3 area, there was decreased GABA correlated baseline SPW activity (bSPW), while there was increased large-amplitude sharp wave (LASW) activity, thought to originate from synchronous pyramidal cell firing. CA3 pyramidal cells displayed progressive tonic depolarization prior to the seizure which was resistant to synaptic transmission blockade. The initiation of hypoglycemic seizures and SD was prevented by AMPA/kainate or NMDA receptor blockade. Conclusions: Severe glucose depletion induces rapid changes initiated in the intrinsic CA3 rhythms of the hippocampus including depressed inhibition and enhanced excitation, which may underlie the mechanisms of seizure generation and delayed spreading depression.
topic Hippocampus
In-vitro
Seizure
Spreading depression
Hypoglycemia
Neuroglycopenia
url http://www.sciencedirect.com/science/article/pii/S0969996115002235
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