Changes in the sympathetic innervation of the gut in rotenone treated mice as possible early biomarker for Parkinson’s disease

Mike Arnhold; Yanina Dening; Michaël Chopin; Esteban Arévalo; Mathias Schwarz; Heinz Reichmann; Gabriele Gille; Richard H.W. Funk; Francisco Pan-Montojo

doi:10.1007/s10286-016-0358-6

Changes in the sympathetic innervation of the gut in rotenone treated mice as possible early biomarker for Parkinson’s disease

Mike Arnhold, Yanina Dening, Michaël Chopin, Esteban Arévalo, Mathias Schwarz, Heinz Reichmann, Gabriele Gille, Richard H.W. Funk, Francisco Pan-Montojo

Research output: Contribution to journal › Article › Research › peer-review

25 Citations (Scopus)

Abstract

Introduction: Involvement of the peripheral nervous system (PNS) is relatively common in Parkinson’s disease (PD) patients. PNS alterations appear early in the course of the disease and are responsible for some of the non-motor symptoms observed in PD patients. In previous studies, we have shown that environmental toxins can trigger the disease by acting on the enteric nervous system. Material and methods: Here, we analyzed the effect of mitochondrial Complex I inhibition on sympathetic neuritis in vivo and sympathetic neurons in vitro. Combining in vivo imaging and protein expression profiling. Results: we found that rotenone, a widely used mitochondrial Complex I inhibitor decreases the density of sympathetic neurites innervating the gut in vivo, while in vitro, it induces the redistribution of intracellular alpha-synuclein and neurite degeneration. Interestingly, sympathetic neurons are much more resistant to rotenone exposure than mesencephalic dopaminergic neurons. Conclusion: Altogether, these results suggest that enteric sympathetic denervation could be an initial pre-motor alteration in PD progression that could be used as an early biomarker of the disease.

Original language	English
Pages (from-to)	211-222
Number of pages	12
Journal	Clinical Autonomic Research
Volume	26
Issue number	3
DOIs	https://doi.org/10.1007/s10286-016-0358-6
Publication status	Published - Jun 2016
Externally published	Yes

Keywords

Biomarker
Constipation, alpha-synuclein pathology
Enteric sympathetic innervation
Parkinson’s disease

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10.1007/s10286-016-0358-6Licence: CC BY

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title = "Changes in the sympathetic innervation of the gut in rotenone treated mice as possible early biomarker for Parkinson{\textquoteright}s disease",

abstract = "Introduction: Involvement of the peripheral nervous system (PNS) is relatively common in Parkinson{\textquoteright}s disease (PD) patients. PNS alterations appear early in the course of the disease and are responsible for some of the non-motor symptoms observed in PD patients. In previous studies, we have shown that environmental toxins can trigger the disease by acting on the enteric nervous system. Material and methods: Here, we analyzed the effect of mitochondrial Complex I inhibition on sympathetic neuritis in vivo and sympathetic neurons in vitro. Combining in vivo imaging and protein expression profiling. Results: we found that rotenone, a widely used mitochondrial Complex I inhibitor decreases the density of sympathetic neurites innervating the gut in vivo, while in vitro, it induces the redistribution of intracellular alpha-synuclein and neurite degeneration. Interestingly, sympathetic neurons are much more resistant to rotenone exposure than mesencephalic dopaminergic neurons. Conclusion: Altogether, these results suggest that enteric sympathetic denervation could be an initial pre-motor alteration in PD progression that could be used as an early biomarker of the disease.",

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author = "Mike Arnhold and Yanina Dening and Micha{\"e}l Chopin and Esteban Ar{\'e}valo and Mathias Schwarz and Heinz Reichmann and Gabriele Gille and Funk, {Richard H.W.} and Francisco Pan-Montojo",

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doi = "10.1007/s10286-016-0358-6",

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AU - Arnhold, Mike

AU - Dening, Yanina

AU - Chopin, Michaël

AU - Arévalo, Esteban

AU - Schwarz, Mathias

AU - Reichmann, Heinz

AU - Gille, Gabriele

AU - Funk, Richard H.W.

AU - Pan-Montojo, Francisco

PY - 2016/6

Y1 - 2016/6

N2 - Introduction: Involvement of the peripheral nervous system (PNS) is relatively common in Parkinson’s disease (PD) patients. PNS alterations appear early in the course of the disease and are responsible for some of the non-motor symptoms observed in PD patients. In previous studies, we have shown that environmental toxins can trigger the disease by acting on the enteric nervous system. Material and methods: Here, we analyzed the effect of mitochondrial Complex I inhibition on sympathetic neuritis in vivo and sympathetic neurons in vitro. Combining in vivo imaging and protein expression profiling. Results: we found that rotenone, a widely used mitochondrial Complex I inhibitor decreases the density of sympathetic neurites innervating the gut in vivo, while in vitro, it induces the redistribution of intracellular alpha-synuclein and neurite degeneration. Interestingly, sympathetic neurons are much more resistant to rotenone exposure than mesencephalic dopaminergic neurons. Conclusion: Altogether, these results suggest that enteric sympathetic denervation could be an initial pre-motor alteration in PD progression that could be used as an early biomarker of the disease.

AB - Introduction: Involvement of the peripheral nervous system (PNS) is relatively common in Parkinson’s disease (PD) patients. PNS alterations appear early in the course of the disease and are responsible for some of the non-motor symptoms observed in PD patients. In previous studies, we have shown that environmental toxins can trigger the disease by acting on the enteric nervous system. Material and methods: Here, we analyzed the effect of mitochondrial Complex I inhibition on sympathetic neuritis in vivo and sympathetic neurons in vitro. Combining in vivo imaging and protein expression profiling. Results: we found that rotenone, a widely used mitochondrial Complex I inhibitor decreases the density of sympathetic neurites innervating the gut in vivo, while in vitro, it induces the redistribution of intracellular alpha-synuclein and neurite degeneration. Interestingly, sympathetic neurons are much more resistant to rotenone exposure than mesencephalic dopaminergic neurons. Conclusion: Altogether, these results suggest that enteric sympathetic denervation could be an initial pre-motor alteration in PD progression that could be used as an early biomarker of the disease.

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Changes in the sympathetic innervation of the gut in rotenone treated mice as possible early biomarker for Parkinson’s disease

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Keywords

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