CoA-dependent activation of mitochondrial acyl carrier protein links four neurodegenerative diseases

Roald A. Lambrechts, Hein Schepers, Yi Yu, Marianne van der Zwaag, Kaija J. Autio, Marcel A. Vieira-Lara, Barbara M. Bakker, Marina A. Tijssen, Susan J. Hayflick, Nicola A. Grzeschik, Ody C.M. Sibon*

*Corresponding author for this work

Research output: Contribution to JournalArticleAcademicpeer-review

Abstract

PKAN, CoPAN, MePAN, and PDH-E2 deficiency share key phenotypic features but harbor defects in distinct metabolic processes. Selective damage to the globus pallidus occurs in these genetic neurodegenerative diseases, which arise from defects in CoA biosynthesis (PKAN, CoPAN), protein lipoylation (MePAN), and pyruvate dehydrogenase activity (PDH-E2 deficiency). Overlap of their clinical features suggests a common molecular etiology, the identification of which is required to understand their pathophysiology and design treatment strategies. We provide evidence that CoA-dependent activation of mitochondrial acyl carrier protein (mtACP) is a possible process linking these diseases through its effect on PDH activity. CoA is the source for the 4′-phosphopantetheine moiety required for the posttranslational 4′-phosphopantetheinylation needed to activate specific proteins. We show that impaired CoA homeostasis leads to decreased 4′-phosphopantetheinylation of mtACP. This results in a decrease of the active form of mtACP, and in turn a decrease in lipoylation with reduced activity of lipoylated proteins, including PDH. Defects in the steps of a linked CoA-mtACP-PDH pathway cause similar phenotypic abnormalities. By chemically and genetically re-activating PDH, these phenotypes can be rescued, suggesting possible treatment strategies for these diseases.

Original languageEnglish
Article numbere10488
JournalEmbo Molecular Medicine
Volume11
Issue number12
DOIs
Publication statusPublished - 1 Dec 2019
Externally publishedYes

Funding

We thank the TRiP at Harvard Medical School (NIH/NIGMS R01‐GM084947), the Bloomington Stock Center, and the VDRC for providing fly stocks and transgenic RNAi lines used in this study. We thank Klary Niezen for technical assistance and J. Kalervo Hiltunen and Alexander J. Kastaniotis for critical reading of the manuscript. This work was supported by a VICI grant to O.S. (NWO‐grant 865.10.012). Part of the work has been performed at the UMCG Microscopy and Imaging Center (UMIC), which is sponsored by NWO‐grant 175‐010‐2009‐023. MAVL received a PhD stipendium from UMCG. The authors declare that they have no conflict of interest other than stated below. KJA is supported by grants from the Academy of Finland (267388) and the Sigrid Juselius Foundation.

FundersFunder number
NIH/NIGMSR01-GM084947
NWO-Grant865.10.012
O.S.NWO‐grant 865.10.012, 175‐010‐2009‐023
Sigrid Juselius Foundation
VDRC
VICI
National Institute of General Medical SciencesR01GM084947
Harvard Medical School
Academy of Finland267388

    Keywords

    • 4′-phosphopantetheinylation
    • Coenzyme A
    • mtACP
    • NBIA
    • NDUFAB1

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