PI3K isoform-selective inhibition in neuron-specific PTEN-deficient mice rescues molecular defects and reduces epilepsy-associated phenotypes

PI3K isoform-selective inhibition in neuron-specific PTEN-deficient mice rescues molecular defects and reduces epilepsy-associated phenotypes

Epilepsy affects all ages, races, genders, and socioeconomic groups. In about one third of patients, epilepsy is uncontrolled with current medications, leaving a vast need for improved therapies. The causes of epilepsy are diverse and not always known but one gene mutated in a small subpopulation of...

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Main Authors: Angela R. White, Durgesh Tiwari, Molly C. MacLeod, Steve C. Danzer, Christina Gross
Format: Article
Language:English
Published: Elsevier 2020-10-01
Series:Neurobiology of Disease
Subjects:
PTEN deficiency
PI3K
Epilepsy
Seizure
Protein synthesis
Signal transduction
Online Access:http://www.sciencedirect.com/science/article/pii/S0969996120303016
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spelling doaj-bb5722439dfc4391970874582645cad02021-03-22T08:42:17ZengElsevierNeurobiology of Disease1095-953X2020-10-01144105026PI3K isoform-selective inhibition in neuron-specific PTEN-deficient mice rescues molecular defects and reduces epilepsy-associated phenotypesAngela R. White0Durgesh Tiwari1Molly C. MacLeod2Steve C. Danzer3Christina Gross4Division of Neurology, Cincinnati Children's Hospital Medical Center, Cincinnati, OH 45229, USADivision of Neurology, Cincinnati Children's Hospital Medical Center, Cincinnati, OH 45229, USA; Department of Pediatrics, University of Cincinnati College of Medicine, OH 45229, USADivision of Neurology, Cincinnati Children's Hospital Medical Center, Cincinnati, OH 45229, USADepartment of Anesthesia, Cincinnati Children's Hospital Medical Center, Cincinnati, OH 45229, USA; Department of Anesthesiology, University of Cincinnati College of Medicine, OH 45229, USADivision of Neurology, Cincinnati Children's Hospital Medical Center, Cincinnati, OH 45229, USA; Department of Pediatrics, University of Cincinnati College of Medicine, OH 45229, USA; Corresponding author at: Cincinnati Children's Hospital Medical Center, Research Building, R.2407, 3333 Burnet Avenue, Cincinnati, OH 45229, USA.Epilepsy affects all ages, races, genders, and socioeconomic groups. In about one third of patients, epilepsy is uncontrolled with current medications, leaving a vast need for improved therapies. The causes of epilepsy are diverse and not always known but one gene mutated in a small subpopulation of patients is phosphatase and tensin homolog (PTEN). Moreover, focal cortical dysplasia, which constitutes a large fraction of refractory epilepsies, has been associated with signaling defects downstream of PTEN. So far, most preclinical attempts to reverse PTEN deficiency-associated neurological deficits have focused on mTOR, a signaling hub several steps downstream of PTEN. Phosphoinositide 3-kinases (PI3Ks), by contrast, are the direct enzymatic counteractors of PTEN, and thus may be alternative treatment targets. PI3K activity is mediated by four different PI3K catalytic isoforms. Studies in cancer, where PTEN is commonly mutated, have demonstrated that inhibition of only one isoform, p110β, reduces progression of PTEN-deficient tumors. Importantly, inhibition of a single PI3K isoform leaves critical functions of general PI3K signaling throughout the body intact. Here, we show that this disease mechanism-targeted strategy borrowed from cancer research rescues or ameliorates neuronal phenotypes in male and female mice with neuron-specific PTEN deficiency. These phenotypes include cell signaling defects, protein synthesis aberrations, seizures, and cortical dysplasia. Of note, p110β is also dysregulated and a promising treatment target in the intellectual disability Fragile X syndrome, pointing towards a shared biological mechanism that is therapeutically targetable in neurodevelopmental disorders of different etiologies. Overall, this work advocates for further assessment of p110β inhibition not only in PTEN deficiency-associated neurodevelopmental diseases but also other brain disorders characterized by defects in the PI3K/mTOR pathway.http://www.sciencedirect.com/science/article/pii/S0969996120303016PTEN deficiencyPI3KEpilepsySeizureProtein synthesisSignal transduction
collection DOAJ
language English
format Article
sources DOAJ
author Angela R. White
Durgesh Tiwari
Molly C. MacLeod
Steve C. Danzer
Christina Gross
spellingShingle Angela R. White
Durgesh Tiwari
Molly C. MacLeod
Steve C. Danzer
Christina Gross
PI3K isoform-selective inhibition in neuron-specific PTEN-deficient mice rescues molecular defects and reduces epilepsy-associated phenotypes
Neurobiology of Disease
PTEN deficiency
PI3K
Epilepsy
Seizure
Protein synthesis
Signal transduction
author_facet Angela R. White
Durgesh Tiwari
Molly C. MacLeod
Steve C. Danzer
Christina Gross
author_sort Angela R. White
title PI3K isoform-selective inhibition in neuron-specific PTEN-deficient mice rescues molecular defects and reduces epilepsy-associated phenotypes
title_short PI3K isoform-selective inhibition in neuron-specific PTEN-deficient mice rescues molecular defects and reduces epilepsy-associated phenotypes
title_full PI3K isoform-selective inhibition in neuron-specific PTEN-deficient mice rescues molecular defects and reduces epilepsy-associated phenotypes
title_fullStr PI3K isoform-selective inhibition in neuron-specific PTEN-deficient mice rescues molecular defects and reduces epilepsy-associated phenotypes
title_full_unstemmed PI3K isoform-selective inhibition in neuron-specific PTEN-deficient mice rescues molecular defects and reduces epilepsy-associated phenotypes
title_sort pi3k isoform-selective inhibition in neuron-specific pten-deficient mice rescues molecular defects and reduces epilepsy-associated phenotypes
publisher Elsevier
series Neurobiology of Disease
issn 1095-953X
publishDate 2020-10-01
description Epilepsy affects all ages, races, genders, and socioeconomic groups. In about one third of patients, epilepsy is uncontrolled with current medications, leaving a vast need for improved therapies. The causes of epilepsy are diverse and not always known but one gene mutated in a small subpopulation of patients is phosphatase and tensin homolog (PTEN). Moreover, focal cortical dysplasia, which constitutes a large fraction of refractory epilepsies, has been associated with signaling defects downstream of PTEN. So far, most preclinical attempts to reverse PTEN deficiency-associated neurological deficits have focused on mTOR, a signaling hub several steps downstream of PTEN. Phosphoinositide 3-kinases (PI3Ks), by contrast, are the direct enzymatic counteractors of PTEN, and thus may be alternative treatment targets. PI3K activity is mediated by four different PI3K catalytic isoforms. Studies in cancer, where PTEN is commonly mutated, have demonstrated that inhibition of only one isoform, p110β, reduces progression of PTEN-deficient tumors. Importantly, inhibition of a single PI3K isoform leaves critical functions of general PI3K signaling throughout the body intact. Here, we show that this disease mechanism-targeted strategy borrowed from cancer research rescues or ameliorates neuronal phenotypes in male and female mice with neuron-specific PTEN deficiency. These phenotypes include cell signaling defects, protein synthesis aberrations, seizures, and cortical dysplasia. Of note, p110β is also dysregulated and a promising treatment target in the intellectual disability Fragile X syndrome, pointing towards a shared biological mechanism that is therapeutically targetable in neurodevelopmental disorders of different etiologies. Overall, this work advocates for further assessment of p110β inhibition not only in PTEN deficiency-associated neurodevelopmental diseases but also other brain disorders characterized by defects in the PI3K/mTOR pathway.
topic PTEN deficiency
PI3K
Epilepsy
Seizure
Protein synthesis
Signal transduction
url http://www.sciencedirect.com/science/article/pii/S0969996120303016
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AT durgeshtiwari pi3kisoformselectiveinhibitioninneuronspecificptendeficientmicerescuesmoleculardefectsandreducesepilepsyassociatedphenotypes
AT mollycmacleod pi3kisoformselectiveinhibitioninneuronspecificptendeficientmicerescuesmoleculardefectsandreducesepilepsyassociatedphenotypes
AT stevecdanzer pi3kisoformselectiveinhibitioninneuronspecificptendeficientmicerescuesmoleculardefectsandreducesepilepsyassociatedphenotypes
AT christinagross pi3kisoformselectiveinhibitioninneuronspecificptendeficientmicerescuesmoleculardefectsandreducesepilepsyassociatedphenotypes
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