Cerebellar transcriptional alterations with Purkinje cell dysfunction and loss in mice lacking PGC-1α

Cerebellar transcriptional alterations with Purkinje cell dysfunction and loss in mice lacking PGC-1α

Alterations in the expression and activity of the transcriptional coactivator peroxisome proliferator-activated receptor γ coactivator-1α (ppargc1a or PGC-1α) have been reported in multiple movement disorders, yet it is unclear how a lack of PGC-1α impacts transcription and function of the cerebellu...

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Main Authors: Elizabeth K Lucas, Courtney S. Reid, Laura J. McMeekin, Sarah E. Dougherty, Candace L. Floyd, Rita Marie Cowell
Format: Article
Language:English
Published: Frontiers Media S.A. 2015-01-01
Series:Frontiers in Cellular Neuroscience
Subjects:
Ataxia
Cerebellum
Friedreich Ataxia
Refsum Disease
Stereology
PPARGC1A
Online Access:http://journal.frontiersin.org/Journal/10.3389/fncel.2014.00441/full
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spelling doaj-b64b5c78128f4cc68a16ce6b7928d05d2020-11-24T23:04:17ZengFrontiers Media S.A.Frontiers in Cellular Neuroscience1662-51022015-01-01810.3389/fncel.2014.00441123165Cerebellar transcriptional alterations with Purkinje cell dysfunction and loss in mice lacking PGC-1αElizabeth K Lucas0Elizabeth K Lucas1Courtney S. Reid2Laura J. McMeekin3Sarah E. Dougherty4Sarah E. Dougherty5Candace L. Floyd6Rita Marie Cowell7Icahn School of Medicine at Mount SinaiUniversity of Alabama at BirminghamUniversity of Alabama at BirminghamUniversity of Alabama at BirminghamUniversity of Alabama at BirminghamJohns Hopkins Univeristy School of MedicineUniversity of Alabama at BirminghamUniversity of Alabama at BirminghamAlterations in the expression and activity of the transcriptional coactivator peroxisome proliferator-activated receptor γ coactivator-1α (ppargc1a or PGC-1α) have been reported in multiple movement disorders, yet it is unclear how a lack of PGC-1α impacts transcription and function of the cerebellum, a region with high PGC-1α expression. We show here that mice lacking PGC-1α exhibit ataxia in addition to the previously described deficits in motor coordination. Using q-RT-PCR in cerebellar homogenates from PGC-1α -/- mice, we measured expression of 37 microarray-identified transcripts upregulated by PGC-1α in SH-SY5Y neuroblastoma cells with neuroanatomical overlap with PGC-1α or parvalbumin (PV), a calcium buffer highly expressed by Purkinje cells. We found significant reductions in transcripts with synaptic (complexin1, Cplx1; Pacsin2), structural (neurofilament heavy chain, Nefh), and metabolic (isocitrate dehydrogenase 3a, Idh3a; neutral cholesterol ester hydrolase 1, Nceh1; pyruvate dehydrogenase alpha 1, Pdha1; phytanoyl-CoA hydroxylase, Phyh; ubiquinol-cytochrome c reductase, Rieske iron-sulfur polypeptide 1, Uqcrfs1) functions. Using conditional deletion of PGC-1α in PV-positive neurons, we determined that 50% of PGC-1α expression and a reduction in a subset of these transcripts could be explained by its concentration in PV-positive neuronal populations in the cerbellum. To determine whether there were functional consequences associated with these changes, we conducted stereological counts and spike rate analysis in Purkinje cells, a cell type rich in PV, from PGC-1α -/- mice. We observed a significant loss of Purkinje cells by six weeks of age, and the remaining Purkinje cells exhibited a 50% reduction in spike rate. Together, these data highlight the complexity of PGC-1α’s actions in the central nervous system and suggest that dysfunction in multiple cell types contribute to motor deficits in the context of PGC-1α deficiency.http://journal.frontiersin.org/Journal/10.3389/fncel.2014.00441/fullAtaxiaCerebellumFriedreich AtaxiaRefsum DiseaseStereologyPPARGC1A
collection DOAJ
language English
format Article
sources DOAJ
author Elizabeth K Lucas
Elizabeth K Lucas
Courtney S. Reid
Laura J. McMeekin
Sarah E. Dougherty
Sarah E. Dougherty
Candace L. Floyd
Rita Marie Cowell
spellingShingle Elizabeth K Lucas
Elizabeth K Lucas
Courtney S. Reid
Laura J. McMeekin
Sarah E. Dougherty
Sarah E. Dougherty
Candace L. Floyd
Rita Marie Cowell
Cerebellar transcriptional alterations with Purkinje cell dysfunction and loss in mice lacking PGC-1α
Frontiers in Cellular Neuroscience
Ataxia
Cerebellum
Friedreich Ataxia
Refsum Disease
Stereology
PPARGC1A
author_facet Elizabeth K Lucas
Elizabeth K Lucas
Courtney S. Reid
Laura J. McMeekin
Sarah E. Dougherty
Sarah E. Dougherty
Candace L. Floyd
Rita Marie Cowell
author_sort Elizabeth K Lucas
title Cerebellar transcriptional alterations with Purkinje cell dysfunction and loss in mice lacking PGC-1α
title_short Cerebellar transcriptional alterations with Purkinje cell dysfunction and loss in mice lacking PGC-1α
title_full Cerebellar transcriptional alterations with Purkinje cell dysfunction and loss in mice lacking PGC-1α
title_fullStr Cerebellar transcriptional alterations with Purkinje cell dysfunction and loss in mice lacking PGC-1α
title_full_unstemmed Cerebellar transcriptional alterations with Purkinje cell dysfunction and loss in mice lacking PGC-1α
title_sort cerebellar transcriptional alterations with purkinje cell dysfunction and loss in mice lacking pgc-1α
publisher Frontiers Media S.A.
series Frontiers in Cellular Neuroscience
issn 1662-5102
publishDate 2015-01-01
description Alterations in the expression and activity of the transcriptional coactivator peroxisome proliferator-activated receptor γ coactivator-1α (ppargc1a or PGC-1α) have been reported in multiple movement disorders, yet it is unclear how a lack of PGC-1α impacts transcription and function of the cerebellum, a region with high PGC-1α expression. We show here that mice lacking PGC-1α exhibit ataxia in addition to the previously described deficits in motor coordination. Using q-RT-PCR in cerebellar homogenates from PGC-1α -/- mice, we measured expression of 37 microarray-identified transcripts upregulated by PGC-1α in SH-SY5Y neuroblastoma cells with neuroanatomical overlap with PGC-1α or parvalbumin (PV), a calcium buffer highly expressed by Purkinje cells. We found significant reductions in transcripts with synaptic (complexin1, Cplx1; Pacsin2), structural (neurofilament heavy chain, Nefh), and metabolic (isocitrate dehydrogenase 3a, Idh3a; neutral cholesterol ester hydrolase 1, Nceh1; pyruvate dehydrogenase alpha 1, Pdha1; phytanoyl-CoA hydroxylase, Phyh; ubiquinol-cytochrome c reductase, Rieske iron-sulfur polypeptide 1, Uqcrfs1) functions. Using conditional deletion of PGC-1α in PV-positive neurons, we determined that 50% of PGC-1α expression and a reduction in a subset of these transcripts could be explained by its concentration in PV-positive neuronal populations in the cerbellum. To determine whether there were functional consequences associated with these changes, we conducted stereological counts and spike rate analysis in Purkinje cells, a cell type rich in PV, from PGC-1α -/- mice. We observed a significant loss of Purkinje cells by six weeks of age, and the remaining Purkinje cells exhibited a 50% reduction in spike rate. Together, these data highlight the complexity of PGC-1α’s actions in the central nervous system and suggest that dysfunction in multiple cell types contribute to motor deficits in the context of PGC-1α deficiency.
topic Ataxia
Cerebellum
Friedreich Ataxia
Refsum Disease
Stereology
PPARGC1A
url http://journal.frontiersin.org/Journal/10.3389/fncel.2014.00441/full
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