COPI-regulated mitochondria-ER contact site formation maintains axonal integrity

Daniel C. Maddison; Bilal Malik; Leonardo Amadio; Dana M. Bis-Brewer; Stephan Züchner; Owen M. Peters; Gaynor A. Smith

Cell Reports (Aug 2023)

COPI-regulated mitochondria-ER contact site formation maintains axonal integrity

Daniel C. Maddison,
Bilal Malik,
Leonardo Amadio,
Dana M. Bis-Brewer,
Stephan Züchner,
Owen M. Peters,
Gaynor A. Smith

Affiliations

Daniel C. Maddison: UK Dementia Research Institute, School of Medicine, Cardiff University, Cardiff CF24 4HQ, UK
Bilal Malik: UK Dementia Research Institute, School of Biosciences, Cardiff University, Cardiff CF24 4HQ, UK
Leonardo Amadio: UK Dementia Research Institute, School of Medicine, Cardiff University, Cardiff CF24 4HQ, UK; UK Dementia Research Institute, School of Biosciences, Cardiff University, Cardiff CF24 4HQ, UK
Dana M. Bis-Brewer: John P. Hussman Institute for Human Genomics, University of Miami, Miami, FL, USA; Dr. John T. Macdonald Foundation Department of Human Genetics, University of Miami, Miami, FL, USA
Stephan Züchner: John P. Hussman Institute for Human Genomics, University of Miami, Miami, FL, USA; Dr. John T. Macdonald Foundation Department of Human Genetics, University of Miami, Miami, FL, USA
Owen M. Peters: UK Dementia Research Institute, School of Biosciences, Cardiff University, Cardiff CF24 4HQ, UK
Gaynor A. Smith: UK Dementia Research Institute, School of Medicine, Cardiff University, Cardiff CF24 4HQ, UK; Corresponding author

Journal volume & issue: Vol. 42, no. 8
p. 112883

Abstract

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Summary: Coat protein complex I (COPI) is best known for its role in Golgi-endoplasmic reticulum (ER) trafficking, responsible for the retrograde transport of ER-resident proteins. The ER is crucial to neuronal function, regulating Ca2+ homeostasis and the distribution and function of other organelles such as endosomes, peroxisomes, and mitochondria via functional contact sites. Here we demonstrate that disruption of COPI results in mitochondrial dysfunction in Drosophila axons and human cells. The ER network is also disrupted, and the neurons undergo rapid degeneration. We demonstrate that mitochondria-ER contact sites (MERCS) are decreased in COPI-deficient axons, leading to Ca2+ dysregulation, heightened mitophagy, and a decrease in respiratory capacity. Reintroducing MERCS is sufficient to rescue not only mitochondrial distribution and Ca2+ uptake but also ER morphology, dramatically delaying neurodegeneration. This work demonstrates an important role for COPI-mediated trafficking in MERC formation, which is an essential process for maintaining axonal integrity.

CP: Cell biology

Published in Cell Reports

ISSN: 2211-1247 (Online)
Publisher: Elsevier
Country of publisher: Netherlands
LCC subjects: Science: Biology (General)
Website: http://www.cell.com/cell-reports/home

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