Preserved striatal innervation maintains motor function despite severe loss of nigral dopaminergic neurons-Reference-Cited by-同舟云学术

Preserved striatal innervation maintains motor function despite severe loss of nigral dopaminergic neurons

Published:2024-04-04 Issue:9 Volume:147 Page:3189-3203
ISSN:0006-8950
Container-title:Brain
language:en
Short-container-title:

Author:

Paß Thomas¹^ORCID,Ricke Konrad M¹,Hofmann Pierre¹,Chowdhury Roy S²,Nie Yu²,Chinnery Patrick²^ORCID,Endepols Heike³⁴,Neumaier Bernd³⁵⁶,Carvalho André⁶⁷,Rigoux Lionel⁶,Steculorum Sophie M⁶⁷,Prudent Julien²,Riemer Trine⁸,Aswendt Markus⁹^ORCID,Liss Birgit¹⁰,Brachvogel Bent⁸,Wiesner Rudolf J¹⁷^ORCID

Affiliation:

1. Center for Physiology and Pathophysiology, Institute of Vegetative Physiology, Faculty of Medicine and University Hospital Cologne , 50931 Cologne , Germany

2. MRC Mitochondrial Biology Unit, University of Cambridge , CB2 0XY Cambridge , UK

3. Faculty of Medicine and University Hospital Cologne, University of Cologne, Institute of Radiochemistry and Experimental Molecular Imaging , 50937 Cologne , Germany

4. Department of Nuclear Medicine, University of Cologne, Faculty of Medicine and University Hospital Cologne , 50937 Cologne , Germany

5. Forschungszentrum Jülich GmbH, Institute of Neuroscience and Medicine, Nuclear Chemistry (INM-5) , 52425 Jülich , Germany

6. Max Planck Institute for Metabolism Research , 50931 Cologne , Germany

7. Cologne Excellence Cluster on Cellular Stress Responses in Aging-associated Diseases (CECAD) and Centre for Molecular Medicine (CMMC), University of Cologne , 50931 Cologne , Germany

8. Department of Paediatrics and Adolescent Medicine, Experimental Neonatology, Faculty of Medicine, University of Cologne , 50937 Cologne , Germany

9. Department of Neurology, University of Cologne, Faculty of Medicine and University Hospital Cologne , 50937 Cologne , Germany

10. Institute of Applied Physiology, University of Ulm , 89081 Ulm , Germany

Abstract

Abstract Degeneration of dopaminergic neurons in the substantia nigra and their striatal axon terminals causes cardinal motor symptoms of Parkinson’s disease. In idiopathic cases, high levels of mitochondrial DNA alterations, leading to mitochondrial dysfunction, are a central feature of these vulnerable neurons. Here we present a mouse model expressing the K320E variant of the mitochondrial helicase Twinkle in dopaminergic neurons, leading to accelerated mitochondrial DNA mutations. These K320E-TwinkleDaN mice showed normal motor function at 20 months of age, although ∼70% of nigral dopaminergic neurons had perished. Remaining neurons still preserved ∼75% of axon terminals in the dorsal striatum and enabled normal dopamine release. Transcriptome analysis and viral tracing confirmed compensatory axonal sprouting of the surviving neurons. We conclude that a small population of substantia nigra dopaminergic neurons is able to adapt to the accumulation of mitochondrial DNA mutations and maintain motor control.

Funder

Parkinson Canada

Medical Research Council

Leverhulme Trust

Deutsche Forschungsgemeinschaft

German Research Foundation

Publisher

Oxford University Press (OUP)

Link

https://academic.oup.com/brain/advance-article-pdf/doi/10.1093/brain/awae089/58901878/awae089.pdf

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