PINK1 Kinase Catalytic Activity Is Regulated by Phosphorylation on Serines 228 and 402*

  1. Vanessa A. Morais,§3
  1. From the Center for the Biology of Disease, Flemish Institute for Biotechnology (VIB) and
  2. §Center for Human Genetics, Leuven Institute for Neurodegenerative Disorders and University Hospitals Leuven, University of Leuven, 3000 Leuven, Belgium and
  3. the University College London, Institute of Neurology, Queen Square, London WC1N 3BG, United Kingdom
  1. 3 To whom correspondence may be addressed: Center for the Biology of Disease, Flemish Institute for Biotechnology (VIB), Herestraat 49, Box 602, 3000 Leuven, Belgium. Tel.: 32-16-37-31-05; E-mail: Vanessa.Morais{at}cme.vib-kuleuven.be.

Background: PINK1 mutations affect mitochondrial homeostasis and cause Parkinson disease.

Results: PINK1 is phosphorylated on the outer mitochondrial membrane. We show here that phosphorylation of serines 228 and 402 increases the capacity of PINK1 to phosphorylate its substrates Parkin and Ubiquitin.

Conclusion: PINK1 phosphorylation regulates its kinase activity.

Significance: Understanding PINK1 regulation is pivotal to unravel its mitochondrial function.

Abstract

Mutations in the PINK1 gene cause early-onset recessive Parkinson disease. PINK1 is a mitochondrially targeted kinase that regulates multiple aspects of mitochondrial biology, from oxidative phosphorylation to mitochondrial clearance. PINK1 itself is also phosphorylated, and this might be linked to the regulation of its multiple activities. Here we systematically analyze four previously identified phosphorylation sites in PINK1 for their role in autophosphorylation, substrate phosphorylation, and mitophagy. Our data indicate that two of these sites, Ser-228 and Ser-402, are autophosphorylated on truncated PINK1 but not on full-length PINK1, suggesting that the N terminus has an inhibitory effect on phosphorylation. We furthermore establish that phosphorylation of these PINK1 residues regulates the phosphorylation of the substrates Parkin and Ubiquitin. Especially Ser-402 phosphorylation appears to be important for PINK1 function because it is involved in Parkin recruitment and the induction of mitophagy. Finally, we identify Thr-313 as a residue that is critical for PINK1 catalytic activity, but, in contrast to previous reports, we find no evidence that this activity is regulated by phosphorylation. These data clarify the regulation of PINK1 through multisite phosphorylation.

Footnotes

  • 1 Supported by an IWT doctoral grant.

  • 2 Arthur Bax and Anna Vanluffelen chair for Alzheimer disease. Center for the Biology of Disease, Flemish Institute for Biotechnology (VIB), Herestraat 49, Box 602, 3000 Leuven, Belgium. Tel.: 32-16-37-32-46; E-mail: Bart.DeStrooper{at}cme.vib-kuleuven.be.

  • * This work was supported by the Flemish agency for Innovation by Science and Technology (IWT), by the Fund for Scientific Research Flanders (FWO), by Research Fund KU Leuven, by the Hercules Foundation, by Federal Office for Scientific Affairs Grant IAP P7/16, by a Methusalem grant of the Flemish government, and by the Flemish Institute for Biotechnology. B. D. S. is a paid consultant for the Alzheimer disease research programs at Janssen Pharmaceutica, Envivo, and Remynd NV.

  • Received October 22, 2014.
  • Revision received December 8, 2014.
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  1. First Published on December 19, 2014 doi: 10.1074/jbc.M114.620906 The Journal of Biological Chemistry 290, 2798-2811.
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