Post mortem evaluation of inflammation, oxidative stress, and PPARγ activation in a nonhuman primate model of cardiac sympathetic neurodegeneration

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Abstract

Cardiac dysautonomia is a common nonmotor symptom of Parkinson’s disease (PD) associated with loss of sympathetic innervation to the heart and decreased plasma catecholamines. Disease-modifying strategies for PD cardiac neurodegeneration are not available, and biomarkers of target engagement are lacking. Systemic administration of the catecholaminergic neurotoxin 6-hydroxydopamine (6-OHDA) recapitulates PD cardiac dysautonomia pathology. We recently used positron emission tomography (PET) to visualize and quantify cardiac sympathetic innervation, oxidative stress, and inflammation in adult male rhesus macaques ( Macaca mulatta; n = 10) challenged with 6-OHDA (50mg/kg; i.v.). Twenty-four hours post-intoxication, the animals were blindly and randomly assigned to receive daily doses of the peroxisome proliferator-activated receptor gamma (PPARγ) agonist pioglitazone (n = 5; 5mg/kg p.o.) or placebo (n = 5). Quantification of PET radioligand uptake showed increased oxidative stress and inflammation one week after 6-OHDA which resolved to baseline levels by twelve weeks, at which time pioglitazone-treated animals showed regionally preserved sympathetic innervation. Here we report post mortem characterization of heart and adrenal tissue in these animals compared to age and sex matched normal controls (n = 5). In the heart, 6-OHDA-treated animals showed a significant loss of sympathetic nerve fibers density (tyrosine hydroxylase (TH)-positive fibers). The anatomical distribution of markers of sympathetic innervation (TH) and inflammation (HLA-DR) significantly correlated with respective in vivo PET findings across left ventricle levels and regions. No changes were found in alpha-synuclein immunoreactivity. Additionally, CD36 protein expression was increased at the cardiomyocyte intercalated discs following PPARγ-activation compared to placebo and control groups. Systemic 6-OHDA decreased adrenal medulla expression of catecholamine producing enzymes (TH and aromatic L-amino acid decarboxylase) and circulating levels of norepinephrine, which were attenuated by PPARγ-activation. Overall, these results validate in vivo PET findings of cardiac sympathetic innervation, oxidative stress, and inflammation and illustrate cardiomyocyte CD36 upregulation as a marker of PPARγ target engagement.

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Molecular pathways involved in the neurotoxicity of 6-OHDA, dopamine and MPTP: contribution to the apoptotic theory in Parkinson's disease.

David Blum, Sakina Torch, Nathalie Lambeng … (2001)

Parkinson's disease (PD) is a neurodegenerative disorder characterized by a preferential loss of the dopaminergic neurons of the substantia nigra pars compacta. Although the etiology of PD is unknown, major biochemical processes such as oxidative stress and mitochondrial inhibition are largely described. However, despite these findings, the actual therapeutics are essentially symptomatical and are not able to block the degenerative process. Recent histological studies performed on brains from PD patients suggest that nigral cell death could be apoptotic. However, since post-mortem studies do not allow precise determination of the sequence of events leading to this apoptotic cell death, the molecular pathways involved in this process have been essentially studied on experimental models reproducing the human disease. These latter are created by using neurotoxic compounds such as 6-hydroxydopamine (6-OHDA), 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) or dopamine (DA). Extensive study of these models have shown that they mimick, in vitro and in vivo, the histological and/or the biochemical characteristics of PD and thus help to define important cellular actors of cell death presumably critical for the nigral degeneration. This review reports recent data concerning the biochemical and molecular apoptotic mechanisms underlying the experimental models of PD and correlates them to the phenomena occurring in human disease.

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Oxidized LDL regulates macrophage gene expression through ligand activation of PPARgamma.

L. Nagy, P Tontonoz, J Alvarez … (1998)

Macrophage uptake of oxidized low-density lipoprotein (oxLDL) is thought to play a central role in foam cell formation and the pathogenesis of atherosclerosis. We demonstrate here that oxLDL activates PPARgamma-dependent transcription through a novel signaling pathway involving scavenger receptor-mediated particle uptake. Moreover, we identify two of the major oxidized lipid components of oxLDL, 9-HODE and 13-HODE, as endogenous activators and ligands of PPARgamma. Our data suggest that the biologic effects of oxLDL are coordinated by two sets of receptors, one on the cell surface, which binds and internalizes the particle, and one in the nucleus, which is transcriptionally activated by its component lipids. These results suggest that PPARgamma may be a key regulator of foam cell gene expression.

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PPARgamma promotes monocyte/macrophage differentiation and uptake of oxidized LDL.

Carlos Alvarez, Peter Tontonoz, V A Thomázy … (1998)

The formation of foam cells from macrophages in the arterial wall is characterized by dramatic changes in lipid metabolism, including increased expression of scavenger receptors and the uptake of oxidized low-density lipoprotein (oxLDL). We demonstrate here that the nuclear receptor PPARgamma is induced in human monocytes following exposure to oxLDL and is expressed at high levels in the foam cells of atherosclerotic lesions. Ligand activation of the PPARgamma:RXRalpha heterodimer in myelomonocytic cell lines induces changes characteristic of monocytic differentiation and promotes uptake of oxLDL through transcriptional induction of the scavenger receptor CD36. These results reveal a novel signaling pathway controlling differentiation and lipid metabolism in monocytic cells, and suggest that endogenous PPARgamma ligands may be important regulators of gene expression during atherogenesis.

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Author and article information

Contributors

Jeanette M. Metzger: Role: ConceptualizationRole: Data curationRole: Formal analysisRole: InvestigationRole: MethodologyRole: Project administrationRole: SoftwareRole: ValidationRole: VisualizationRole: Writing – original draftRole: Writing – review & editing

Helen N. Matsoff: Role: InvestigationRole: VisualizationRole: Writing – review & editing

Alexandra D. Zinnen: Role: InvestigationRole: MethodologyRole: VisualizationRole: Writing – review & editing

Rachel A. Fleddermann: Role: InvestigationRole: VisualizationRole: Writing – review & editing

Viktoriya Bondarenko: Role: InvestigationRole: MethodologyRole: Project administrationRole: ValidationRole: Writing – review & editing

Heather A. Simmons: Role: InvestigationRole: Writing – review & editing

Andres Mejia: Role: InvestigationRole: Writing – review & editing

Colleen F. Moore: Role: Formal analysisRole: InvestigationRole: MethodologyRole: SoftwareRole: Writing – review & editing

Marina E. Emborg:

ORCID: http://orcid.org/0000-0002-9351-6641

Role: ConceptualizationRole: Data curationRole: Funding acquisitionRole: InvestigationRole: MethodologyRole: Project administrationRole: ResourcesRole: SupervisionRole: ValidationRole: Writing – original draftRole: Writing – review & editing

Michael Bader: Role: Editor

Journal

Journal ID (nlm-ta): PLoS One

Journal ID (iso-abbrev): PLoS ONE

Journal ID (publisher-id): plos

Journal ID (pmc): plosone

Title: PLoS ONE

Publisher: Public Library of Science (San Francisco, CA USA )

ISSN (Electronic): 1932-6203

Publication date (Electronic): 7 January 2020

Publication date Collection: 2020

Volume: 15

Issue: 1

Electronic Location Identifier: e0226999

Affiliations

[1 ] Wisconsin National Primate Research Center, University of Wisconsin–Madison, Madison, WI, United States of America

[2 ] Cellular and Molecular Pathology Graduate Program, University of Wisconsin–Madison, Madison, WI, United States of America

[3 ] Department of Psychology, University of Wisconsin–Madison, Madison, WI, United States of America

[4 ] Department of Medical Physics, University of Wisconsin–Madison, Madison, WI, United States of America

Max Delbruck Centrum fur Molekulare Medizin Berlin Buch, GERMANY

Author notes

Competing Interests: The authors have declared that no competing interests exist.

[¤]

Current address: School of Medicine, The University of New Mexico, Albuquerque, NM, United States of America

* E-mail: emborg@ 123456primate.wisc.edu

Author information

Marina E. Emborg http://orcid.org/0000-0002-9351-6641

Article

Publisher ID: PONE-D-19-17539

DOI: 10.1371/journal.pone.0226999

PMC ID: 6946159

PubMed ID: 31910209

SO-VID: 20adeb03-ff6c-4a7a-801d-7aa4c77d98ee

License:

This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

History

Date received : 20 June 2019

Date accepted : 9 December 2019

Page count

Figures: 6, Tables: 0, Pages: 33

Funding

Funded by: funder-id http://dx.doi.org/10.13039/100000002, National Institutes of Health;

Award ID: P51OD011106

Funded by: funder-id http://dx.doi.org/10.13039/100000002, National Institutes of Health;

Award ID: R21NS084158

Award Recipient :

ORCID: http://orcid.org/0000-0002-9351-6641

Marina E. Emborg

Funded by: funder-id http://dx.doi.org/10.13039/100000050, National Heart, Lung, and Blood Institute;

Award ID: F31HL136047

Award Recipient : Jeanette M. Metzger

Funded by: College of Letters and Sciences, University of Wisconsin–Madison

Award ID: Welton L&S Honors Sophomore Scholarship

Award Recipient : Rachel A. Fleddermann

Funded by: College of Letters and Sciences, University of Wisconsin–Madison

Award ID: Trewartha Undergraduate Honors Research Grant

Award Recipient : Rachel A. Fleddermann

Funded by: funder-id http://dx.doi.org/10.13039/100000040, American Parkinson's Disease Foundation;

Award ID: PF-APDA-SFW-1854

Award Recipient : Helen N. Matsoff

This study was supported by NIH P51OD011106 ( nih.gov), NIH R21NS084158 [MEE] ( nih.gov), NIH Kirschstein-NRSA F31HL136047 [JMM] ( nih.gov), Welton L&S Honors Sophomore Scholarship [RAF] ( honors.ls.wisc.edu), Trewartha Undergraduate Honors Research Grant [R.A.F] ( honors.ls.wisc.edu), PF-APDA-SFW-1854 [HNM] ( apdaparkinson.org), and the University of Wisconsin–Madison Office of Vice Chancellor for Research and Graduate Education ( research.wisc.edu), Cellular and Molecular Pathology Graduate Program ( cmp.wisc.edu), and Department of Medical Physics ( medphysics.wisc.edu). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.

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Post mortem evaluation of inflammation, oxidative stress, and PPARγ activation in a nonhuman primate model of cardiac sympathetic neurodegeneration

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Most cited references 65

Molecular pathways involved in the neurotoxicity of 6-OHDA, dopamine and MPTP: contribution to the apoptotic theory in Parkinson's disease.

Oxidized LDL regulates macrophage gene expression through ligand activation of PPARgamma.

PPARgamma promotes monocyte/macrophage differentiation and uptake of oxidized LDL.

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