APC conditional knock-out mouse is a model of infantile spasms with elevated neuronal β-catenin levels, neonatal spasms, and chronic seizures

APC conditional knock-out mouse is a model of infantile spasms with elevated neuronal β-catenin levels, neonatal spasms, and chronic seizures

Infantile spasms (IS) are a catastrophic childhood epilepsy syndrome characterized by flexion-extension spasms during infancy that progress to chronic seizures and cognitive deficits in later life. The molecular causes of IS are poorly defined. Genetic screens of individuals with IS have identified...

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Main Authors: Antonella Pirone, Jonathan Alexander, Lauren A. Lau, David Hampton, Andrew Zayachkivsky, Amy Yee, Audrey Yee, Michele H. Jacob, Chris G. Dulla
Format: Article
Language:English
Published: Elsevier 2017-02-01
Series:Neurobiology of Disease
Subjects:
Infantile spasms
Epilepsy
β-Catenin
Wnt signaling
Cortex
Online Access:http://www.sciencedirect.com/science/article/pii/S0969996116302534
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spelling doaj-94d13c1024c34bd5a7655b870ce5fd1d2021-03-22T12:44:54ZengElsevierNeurobiology of Disease1095-953X2017-02-0198149157APC conditional knock-out mouse is a model of infantile spasms with elevated neuronal β-catenin levels, neonatal spasms, and chronic seizuresAntonella Pirone0Jonathan Alexander1Lauren A. Lau2David Hampton3Andrew Zayachkivsky4Amy Yee5Audrey Yee6Michele H. Jacob7Chris G. Dulla8Department of Neuroscience, Tufts University School of Medicine, Boston, MA 02111, United StatesDepartment of Neuroscience, Tufts University School of Medicine, Boston, MA 02111, United States; Neuroscience Program, Tufts Sackler School of Biomedical Sciences, Boston, MA 02111, United StatesDepartment of Neuroscience, Tufts University School of Medicine, Boston, MA 02111, United States; Neuroscience Program, Tufts Sackler School of Biomedical Sciences, Boston, MA 02111, United StatesDepartment of Neuroscience, Tufts University School of Medicine, Boston, MA 02111, United StatesDepartment of Neurosurgery, Yale University School of Medicine, New Haven, CT 06520, United StatesDepartment of Developmental, Molecular, and Chemical Biology, Tufts University School of Medicine, Boston, MA 02111, United StatesVA Eastern Colorado Health System, Golden, CO 80401, United StatesDepartment of Neuroscience, Tufts University School of Medicine, Boston, MA 02111, United States; Corresponding authors at: Dept. of Neuroscience, Tufts University School of Medicine, 136 Harrison Ave, Boston, MA 02111, United States.Department of Neuroscience, Tufts University School of Medicine, Boston, MA 02111, United States; Corresponding authors at: Dept. of Neuroscience, Tufts University School of Medicine, 136 Harrison Ave, Boston, MA 02111, United States.Infantile spasms (IS) are a catastrophic childhood epilepsy syndrome characterized by flexion-extension spasms during infancy that progress to chronic seizures and cognitive deficits in later life. The molecular causes of IS are poorly defined. Genetic screens of individuals with IS have identified multiple risk genes, several of which are predicted to alter β-catenin pathways. However, evidence linking malfunction of β-catenin pathways and IS is lacking. Here, we show that conditional deletion in mice of the adenomatous polyposis coli gene (APC cKO), the major negative regulator of β-catenin, leads to excessive β-catenin levels and multiple salient features of human IS. Compared with wild-type littermates, neonatal APC cKO mice exhibit flexion-extension motor spasms and abnormal high-amplitude electroencephalographic discharges. Additionally, the frequency of excitatory postsynaptic currents is increased in layer V pyramidal cells, the major output neurons of the cerebral cortex. At adult ages, APC cKOs display spontaneous electroclinical seizures. These data provide the first evidence that malfunctions of APC/β-catenin pathways cause pathophysiological changes consistent with IS. Our findings demonstrate that the APC cKO is a new genetic model of IS, provide novel insights into molecular and functional alterations that can lead to IS, and suggest novel targets for therapeutic intervention.http://www.sciencedirect.com/science/article/pii/S0969996116302534Infantile spasmsEpilepsyβ-CateninWnt signalingCortex
collection DOAJ
language English
format Article
sources DOAJ
author Antonella Pirone
Jonathan Alexander
Lauren A. Lau
David Hampton
Andrew Zayachkivsky
Amy Yee
Audrey Yee
Michele H. Jacob
Chris G. Dulla
spellingShingle Antonella Pirone
Jonathan Alexander
Lauren A. Lau
David Hampton
Andrew Zayachkivsky
Amy Yee
Audrey Yee
Michele H. Jacob
Chris G. Dulla
APC conditional knock-out mouse is a model of infantile spasms with elevated neuronal β-catenin levels, neonatal spasms, and chronic seizures
Neurobiology of Disease
Infantile spasms
Epilepsy
β-Catenin
Wnt signaling
Cortex
author_facet Antonella Pirone
Jonathan Alexander
Lauren A. Lau
David Hampton
Andrew Zayachkivsky
Amy Yee
Audrey Yee
Michele H. Jacob
Chris G. Dulla
author_sort Antonella Pirone
title APC conditional knock-out mouse is a model of infantile spasms with elevated neuronal β-catenin levels, neonatal spasms, and chronic seizures
title_short APC conditional knock-out mouse is a model of infantile spasms with elevated neuronal β-catenin levels, neonatal spasms, and chronic seizures
title_full APC conditional knock-out mouse is a model of infantile spasms with elevated neuronal β-catenin levels, neonatal spasms, and chronic seizures
title_fullStr APC conditional knock-out mouse is a model of infantile spasms with elevated neuronal β-catenin levels, neonatal spasms, and chronic seizures
title_full_unstemmed APC conditional knock-out mouse is a model of infantile spasms with elevated neuronal β-catenin levels, neonatal spasms, and chronic seizures
title_sort apc conditional knock-out mouse is a model of infantile spasms with elevated neuronal β-catenin levels, neonatal spasms, and chronic seizures
publisher Elsevier
series Neurobiology of Disease
issn 1095-953X
publishDate 2017-02-01
description Infantile spasms (IS) are a catastrophic childhood epilepsy syndrome characterized by flexion-extension spasms during infancy that progress to chronic seizures and cognitive deficits in later life. The molecular causes of IS are poorly defined. Genetic screens of individuals with IS have identified multiple risk genes, several of which are predicted to alter β-catenin pathways. However, evidence linking malfunction of β-catenin pathways and IS is lacking. Here, we show that conditional deletion in mice of the adenomatous polyposis coli gene (APC cKO), the major negative regulator of β-catenin, leads to excessive β-catenin levels and multiple salient features of human IS. Compared with wild-type littermates, neonatal APC cKO mice exhibit flexion-extension motor spasms and abnormal high-amplitude electroencephalographic discharges. Additionally, the frequency of excitatory postsynaptic currents is increased in layer V pyramidal cells, the major output neurons of the cerebral cortex. At adult ages, APC cKOs display spontaneous electroclinical seizures. These data provide the first evidence that malfunctions of APC/β-catenin pathways cause pathophysiological changes consistent with IS. Our findings demonstrate that the APC cKO is a new genetic model of IS, provide novel insights into molecular and functional alterations that can lead to IS, and suggest novel targets for therapeutic intervention.
topic Infantile spasms
Epilepsy
β-Catenin
Wnt signaling
Cortex
url http://www.sciencedirect.com/science/article/pii/S0969996116302534
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