Springer Nature
Nature
volume 602 issue 7896 pages 328-335

Activation mechanism of PINK1

Zhong Li Gan 1, 2
Sylvie Callegari 1, 2
Simon A Cobbold 1, 2
Thomas R Cotton 1, 2
Michael J Mlodzianoski 1, 2
Alexander F Schubert 3
Niall D Geoghegan 1, 2
Kelly Rogers 1, 2
Andrew Leis 1, 2
Grant Dewson 1, 2
A. Glukhova 1, 2, 4, 5
David Komander 1, 2
1
 
2
 
3
 
Medical Research Council Laboratory of Molecular Biology, Cambridge, UK
4
 
5
 
Publication typeJournal Article
Publication date2021-12-21
Springer Nature
scimago Q1
wos Q1
SJR18.288
CiteScore78.1
Impact factor48.5
ISSN00280836, 14764687
Multidisciplinary
Abstract
Mutations in the protein kinase PINK1 lead to defects in mitophagy and cause autosomal recessive early onset Parkinson’s disease1,2. PINK1 has many unique features that enable it to phosphorylate ubiquitin and the ubiquitin-like domain of Parkin3–9. Structural analysis of PINK1 from diverse insect species10–12 with and without ubiquitin provided snapshots of distinct structural states yet did not explain how PINK1 is activated. Here we elucidate the activation mechanism of PINK1 using crystallography and cryo-electron microscopy (cryo-EM). A crystal structure of unphosphorylated Pediculus humanus corporis (Ph; human body louse) PINK1 resolves an N-terminal helix, revealing the orientation of unphosphorylated yet active PINK1 on the mitochondria. We further provide a cryo-EM structure of a symmetric PhPINK1 dimer trapped during the process of trans-autophosphorylation, as well as a cryo-EM structure of phosphorylated PhPINK1 undergoing a conformational change to an active ubiquitin kinase state. Structures and phosphorylation studies further identify a role for regulatory PINK1 oxidation. Together, our research delineates the complete activation mechanism of PINK1, illuminates how PINK1 interacts with the mitochondrial outer membrane and reveals how PINK1 activity may be modulated by mitochondrial reactive oxygen species. Unphosphorylated PINK1 of Pediculus humanus corporis forms a dimerized state before undergoing trans-autophosphorylation, and phosphorylated PINK1 undergoes a conformational change in the N-lobe to produce its phosphorylated, ubiquitin-binding state.
Found 
Found 

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GOST Copy
Gan Z. L. et al. Activation mechanism of PINK1 // Nature. 2021. Vol. 602. No. 7896. pp. 328-335.
GOST all authors (up to 50) Copy
Gan Z. L., Callegari S., Cobbold S. A., Cotton T. R., Mlodzianoski M. J., Schubert A. F., Geoghegan N. D., Rogers K., Leis A., Dewson G., Glukhova A., Komander D. Activation mechanism of PINK1 // Nature. 2021. Vol. 602. No. 7896. pp. 328-335.
RIS |
Cite this
RIS Copy
TY - JOUR
DO - 10.1038/s41586-021-04340-2
UR - https://doi.org/10.1038/s41586-021-04340-2
TI - Activation mechanism of PINK1
T2 - Nature
AU - Gan, Zhong Li
AU - Callegari, Sylvie
AU - Cobbold, Simon A
AU - Cotton, Thomas R
AU - Mlodzianoski, Michael J
AU - Schubert, Alexander F
AU - Geoghegan, Niall D
AU - Rogers, Kelly
AU - Leis, Andrew
AU - Dewson, Grant
AU - Glukhova, A.
AU - Komander, David
PY - 2021
DA - 2021/12/21
PB - Springer Nature
SP - 328-335
IS - 7896
VL - 602
PMID - 34933320
SN - 0028-0836
SN - 1476-4687
ER -
BibTex |
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BibTex (up to 50 authors) Copy
@article{2021_Gan,
author = {Zhong Li Gan and Sylvie Callegari and Simon A Cobbold and Thomas R Cotton and Michael J Mlodzianoski and Alexander F Schubert and Niall D Geoghegan and Kelly Rogers and Andrew Leis and Grant Dewson and A. Glukhova and David Komander},
title = {Activation mechanism of PINK1},
journal = {Nature},
year = {2021},
volume = {602},
publisher = {Springer Nature},
month = {dec},
url = {https://doi.org/10.1038/s41586-021-04340-2},
number = {7896},
pages = {328--335},
doi = {10.1038/s41586-021-04340-2}
}
MLA
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MLA Copy
Gan, Zhong Li, et al. “Activation mechanism of PINK1.” Nature, vol. 602, no. 7896, Dec. 2021, pp. 328-335. https://doi.org/10.1038/s41586-021-04340-2.