Phosphodiesterase 9A Inhibition Facilitates Corticostriatal Transmission in Wild-Type and Transgenic Rats That Model Huntington’s Disease

Phosphodiesterase 9A Inhibition Facilitates Corticostriatal Transmission in Wild-Type and Transgenic Rats That Model Huntington’s Disease

Huntington’s disease (HD) results from abnormal expansion in CAG trinucleotide repeats within the HD gene, a mutation which leads to degeneration of striatal medium-sized spiny neurons (MSNs), deficits in corticostriatal transmission, and loss of motor control. Recent studies also indicate that meta...

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Main Authors: Shreaya Chakroborty, Fredric P. Manfredsson, Alexander M. Dec, Peter W. Campbell, Grace E. Stutzmann, Vahri Beaumont, Anthony R. West
Format: Article
Language:English
Published: Frontiers Media S.A. 2020-06-01
Series:Frontiers in Neuroscience
Subjects:
phosphodiesterase 9A
Huntington’s disease
corticostriatal transmission
medium spiny neurons
fast-spiking interneurons
Online Access:https://www.frontiersin.org/article/10.3389/fnins.2020.00466/full
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spelling doaj-e7b1c0789f0a4898965484e91efeacaf2020-11-25T03:21:30ZengFrontiers Media S.A.Frontiers in Neuroscience1662-453X2020-06-011410.3389/fnins.2020.00466474398Phosphodiesterase 9A Inhibition Facilitates Corticostriatal Transmission in Wild-Type and Transgenic Rats That Model Huntington’s DiseaseShreaya Chakroborty0Fredric P. Manfredsson1Alexander M. Dec2Peter W. Campbell3Grace E. Stutzmann4Vahri Beaumont5Anthony R. West6Department of Neuroscience, Rosalind Franklin University of Medicine and Science, North Chicago, IL, United StatesParkinson’s Disease Research Unit, Department of Neurobiology, Barrow Neurological Institute, Phoenix, AZ, United StatesDepartment of Neuroscience, Rosalind Franklin University of Medicine and Science, North Chicago, IL, United StatesDepartment of Neuroscience, Rosalind Franklin University of Medicine and Science, North Chicago, IL, United StatesDepartment of Neuroscience, Rosalind Franklin University of Medicine and Science, North Chicago, IL, United StatesCHDI Management/CHDI Foundation, Los Angeles, CA, United StatesDepartment of Neuroscience, Rosalind Franklin University of Medicine and Science, North Chicago, IL, United StatesHuntington’s disease (HD) results from abnormal expansion in CAG trinucleotide repeats within the HD gene, a mutation which leads to degeneration of striatal medium-sized spiny neurons (MSNs), deficits in corticostriatal transmission, and loss of motor control. Recent studies also indicate that metabolism of cyclic nucleotides by phosphodiesterases (PDEs) is dysregulated in striatal networks in a manner linked to deficits in corticostriatal transmission. The current study assessed cortically-evoked firing in electrophysiologically-identified MSNs and fast-spiking interneurons (FSIs) in aged (9–11 months old) wild-type (WT) and BACHD transgenic rats (TG5) treated with vehicle or the selective PDE9A inhibitor PF-04447943. WT and TG5 rats were anesthetized with urethane and single-unit activity was isolated during low frequency electrical stimulation of the ipsilateral motor cortex. Compared to WT controls, MSNs recorded in TG5 animals exhibited decreased spike probability during cortical stimulation delivered at low to moderate stimulation intensities. Moreover, large increases in onset latency of cortically-evoked spikes and decreases in spike probability were observed in FSIs recorded in TG5 animals. Acute systemic administration of the PDE9A inhibitor PF-04447943 significantly decreased the onset latency of cortically-evoked spikes in MSNs recorded in WT and TG5 rats. PDE9A inhibition also increased the proportion of MSNs responding to cortical stimulation and reversed deficits in spike probability observed in TG5 rats. As PDE9A is a cGMP specific enzyme, drugs such as PF-04447943 which act to facilitate striatal cGMP signaling and glutamatergic corticostriatal transmission could be useful therapeutic agents for restoring striatal function and alleviating motor and cognitive symptoms associated with HD.https://www.frontiersin.org/article/10.3389/fnins.2020.00466/fullphosphodiesterase 9AHuntington’s diseasecorticostriatal transmissionmedium spiny neuronsfast-spiking interneurons
collection DOAJ
language English
format Article
sources DOAJ
author Shreaya Chakroborty
Fredric P. Manfredsson
Alexander M. Dec
Peter W. Campbell
Grace E. Stutzmann
Vahri Beaumont
Anthony R. West
spellingShingle Shreaya Chakroborty
Fredric P. Manfredsson
Alexander M. Dec
Peter W. Campbell
Grace E. Stutzmann
Vahri Beaumont
Anthony R. West
Phosphodiesterase 9A Inhibition Facilitates Corticostriatal Transmission in Wild-Type and Transgenic Rats That Model Huntington’s Disease
Frontiers in Neuroscience
phosphodiesterase 9A
Huntington’s disease
corticostriatal transmission
medium spiny neurons
fast-spiking interneurons
author_facet Shreaya Chakroborty
Fredric P. Manfredsson
Alexander M. Dec
Peter W. Campbell
Grace E. Stutzmann
Vahri Beaumont
Anthony R. West
author_sort Shreaya Chakroborty
title Phosphodiesterase 9A Inhibition Facilitates Corticostriatal Transmission in Wild-Type and Transgenic Rats That Model Huntington’s Disease
title_short Phosphodiesterase 9A Inhibition Facilitates Corticostriatal Transmission in Wild-Type and Transgenic Rats That Model Huntington’s Disease
title_full Phosphodiesterase 9A Inhibition Facilitates Corticostriatal Transmission in Wild-Type and Transgenic Rats That Model Huntington’s Disease
title_fullStr Phosphodiesterase 9A Inhibition Facilitates Corticostriatal Transmission in Wild-Type and Transgenic Rats That Model Huntington’s Disease
title_full_unstemmed Phosphodiesterase 9A Inhibition Facilitates Corticostriatal Transmission in Wild-Type and Transgenic Rats That Model Huntington’s Disease
title_sort phosphodiesterase 9a inhibition facilitates corticostriatal transmission in wild-type and transgenic rats that model huntington’s disease
publisher Frontiers Media S.A.
series Frontiers in Neuroscience
issn 1662-453X
publishDate 2020-06-01
description Huntington’s disease (HD) results from abnormal expansion in CAG trinucleotide repeats within the HD gene, a mutation which leads to degeneration of striatal medium-sized spiny neurons (MSNs), deficits in corticostriatal transmission, and loss of motor control. Recent studies also indicate that metabolism of cyclic nucleotides by phosphodiesterases (PDEs) is dysregulated in striatal networks in a manner linked to deficits in corticostriatal transmission. The current study assessed cortically-evoked firing in electrophysiologically-identified MSNs and fast-spiking interneurons (FSIs) in aged (9–11 months old) wild-type (WT) and BACHD transgenic rats (TG5) treated with vehicle or the selective PDE9A inhibitor PF-04447943. WT and TG5 rats were anesthetized with urethane and single-unit activity was isolated during low frequency electrical stimulation of the ipsilateral motor cortex. Compared to WT controls, MSNs recorded in TG5 animals exhibited decreased spike probability during cortical stimulation delivered at low to moderate stimulation intensities. Moreover, large increases in onset latency of cortically-evoked spikes and decreases in spike probability were observed in FSIs recorded in TG5 animals. Acute systemic administration of the PDE9A inhibitor PF-04447943 significantly decreased the onset latency of cortically-evoked spikes in MSNs recorded in WT and TG5 rats. PDE9A inhibition also increased the proportion of MSNs responding to cortical stimulation and reversed deficits in spike probability observed in TG5 rats. As PDE9A is a cGMP specific enzyme, drugs such as PF-04447943 which act to facilitate striatal cGMP signaling and glutamatergic corticostriatal transmission could be useful therapeutic agents for restoring striatal function and alleviating motor and cognitive symptoms associated with HD.
topic phosphodiesterase 9A
Huntington’s disease
corticostriatal transmission
medium spiny neurons
fast-spiking interneurons
url https://www.frontiersin.org/article/10.3389/fnins.2020.00466/full
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