Basal activity of PINK1 and PRKN in cell models and rodent brain

Jens O. Watzlawik; Fabienne C. Fiesel; Gabriella Fiorino; Bernardo A. Bustillos; Zahra Baninameh; Briana N. Markham; Xu Hou; Caleb S. Hayes; Jenny M. Bredenberg; Nicholas W. Kurchaba; Dominika Fričová; Joanna Siuda; Zbigniew K. Wszolek; Sachiko Noda; Shigeto Sato; Nobutaka Hattori; Asheeta A. Prasad; Deniz Kirik; Howard S. Fox; Kelly L. Stauch; Matthew S. Goldberg; Wolfdieter Springer

doi:10.1080/15548627.2023.2286414

Basal activity of PINK1 and PRKN in cell models and rodent brain

Jens O. Watzlawik, Fabienne C. Fiesel, Gabriella Fiorino, Bernardo A. Bustillos, Zahra Baninameh, Briana N. Markham, Xu Hou, Caleb S. Hayes, Jenny M. Bredenberg, Nicholas W. Kurchaba, Dominika Fričová, Joanna Siuda, Zbigniew K. Wszolek, Sachiko Noda, Shigeto Sato, Nobutaka Hattori, Asheeta A. Prasad, Deniz Kirik, Howard S. Fox, Kelly L. StauchMatthew S. Goldberg, Wolfdieter Springer

Research output: Contribution to journal › Article › peer-review

Abstract

The ubiquitin kinase-ligase pair PINK1-PRKN recognizes and transiently labels damaged mitochondria with ubiquitin phosphorylated at Ser65 (p-S65-Ub) to mediate their selective degradation (mitophagy). Complete loss of PINK1 or PRKN function unequivocally leads to early-onset Parkinson disease, but it is debated whether impairments in mitophagy contribute to disease later in life. While the pathway has been extensively studied in cell culture upon acute and massive mitochondrial stress, basal levels of activation under endogenous conditions and especially in vivo in the brain remain undetermined. Using rodent samples, patient-derived cells, and isogenic neurons, we here identified age-dependent, brain region-, and cell type-specific effects and determined expression levels and extent of basal and maximal activation of PINK1 and PRKN. Our work highlights the importance of defining critical risk and therapeutically relevant levels of PINK1-PRKN signaling which will further improve diagnosis and prognosis and will lead to better stratification of patients for future clinical trials.

Original language	English (US)
Journal	Autophagy
DOIs	https://doi.org/10.1080/15548627.2023.2286414
State	Accepted/In press - 2023

Keywords

Mitophagy
parkin
Parkinson disease
PINK1
PRKN
ubiquitin

ASJC Scopus subject areas

Molecular Biology
Cell Biology

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10.1080/15548627.2023.2286414

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Watzlawik, J. O., Fiesel, F. C., Fiorino, G., Bustillos, B. A., Baninameh, Z., Markham, B. N., Hou, X., Hayes, C. S., Bredenberg, J. M., Kurchaba, N. W., Fričová, D., Siuda, J., Wszolek, Z. K., Noda, S., Sato, S., Hattori, N., Prasad, A. A., Kirik, D., Fox, H. S., ... Springer, W. (Accepted/In press). Basal activity of PINK1 and PRKN in cell models and rodent brain. Autophagy. https://doi.org/10.1080/15548627.2023.2286414

Watzlawik, JO, Fiesel, FC, Fiorino, G, Bustillos, BA, Baninameh, Z, Markham, BN, Hou, X, Hayes, CS, Bredenberg, JM, Kurchaba, NW, Fričová, D, Siuda, J, Wszolek, ZK, Noda, S, Sato, S, Hattori, N, Prasad, AA, Kirik, D, Fox, HS, Stauch, KL, Goldberg, MS & Springer, W 2023, 'Basal activity of PINK1 and PRKN in cell models and rodent brain', Autophagy. https://doi.org/10.1080/15548627.2023.2286414

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title = "Basal activity of PINK1 and PRKN in cell models and rodent brain",

abstract = "The ubiquitin kinase-ligase pair PINK1-PRKN recognizes and transiently labels damaged mitochondria with ubiquitin phosphorylated at Ser65 (p-S65-Ub) to mediate their selective degradation (mitophagy). Complete loss of PINK1 or PRKN function unequivocally leads to early-onset Parkinson disease, but it is debated whether impairments in mitophagy contribute to disease later in life. While the pathway has been extensively studied in cell culture upon acute and massive mitochondrial stress, basal levels of activation under endogenous conditions and especially in vivo in the brain remain undetermined. Using rodent samples, patient-derived cells, and isogenic neurons, we here identified age-dependent, brain region-, and cell type-specific effects and determined expression levels and extent of basal and maximal activation of PINK1 and PRKN. Our work highlights the importance of defining critical risk and therapeutically relevant levels of PINK1-PRKN signaling which will further improve diagnosis and prognosis and will lead to better stratification of patients for future clinical trials.",

keywords = "Mitophagy, parkin, Parkinson disease, PINK1, PRKN, ubiquitin",

author = "Watzlawik, {Jens O.} and Fiesel, {Fabienne C.} and Gabriella Fiorino and Bustillos, {Bernardo A.} and Zahra Baninameh and Markham, {Briana N.} and Xu Hou and Hayes, {Caleb S.} and Bredenberg, {Jenny M.} and Kurchaba, {Nicholas W.} and Dominika Fri{\v c}ov{\'a} and Joanna Siuda and Wszolek, {Zbigniew K.} and Sachiko Noda and Shigeto Sato and Nobutaka Hattori and Prasad, {Asheeta A.} and Deniz Kirik and Fox, {Howard S.} and Stauch, {Kelly L.} and Goldberg, {Matthew S.} and Wolfdieter Springer",

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year = "2023",

doi = "10.1080/15548627.2023.2286414",

language = "English (US)",

journal = "Autophagy",

issn = "1554-8627",

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T1 - Basal activity of PINK1 and PRKN in cell models and rodent brain

AU - Watzlawik, Jens O.

AU - Fiesel, Fabienne C.

AU - Fiorino, Gabriella

AU - Bustillos, Bernardo A.

AU - Baninameh, Zahra

AU - Markham, Briana N.

AU - Hou, Xu

AU - Hayes, Caleb S.

AU - Bredenberg, Jenny M.

AU - Kurchaba, Nicholas W.

AU - Fričová, Dominika

AU - Siuda, Joanna

AU - Wszolek, Zbigniew K.

AU - Noda, Sachiko

AU - Sato, Shigeto

AU - Hattori, Nobutaka

AU - Prasad, Asheeta A.

AU - Kirik, Deniz

AU - Fox, Howard S.

AU - Stauch, Kelly L.

AU - Goldberg, Matthew S.

AU - Springer, Wolfdieter

PY - 2023

Y1 - 2023

N2 - The ubiquitin kinase-ligase pair PINK1-PRKN recognizes and transiently labels damaged mitochondria with ubiquitin phosphorylated at Ser65 (p-S65-Ub) to mediate their selective degradation (mitophagy). Complete loss of PINK1 or PRKN function unequivocally leads to early-onset Parkinson disease, but it is debated whether impairments in mitophagy contribute to disease later in life. While the pathway has been extensively studied in cell culture upon acute and massive mitochondrial stress, basal levels of activation under endogenous conditions and especially in vivo in the brain remain undetermined. Using rodent samples, patient-derived cells, and isogenic neurons, we here identified age-dependent, brain region-, and cell type-specific effects and determined expression levels and extent of basal and maximal activation of PINK1 and PRKN. Our work highlights the importance of defining critical risk and therapeutically relevant levels of PINK1-PRKN signaling which will further improve diagnosis and prognosis and will lead to better stratification of patients for future clinical trials.

AB - The ubiquitin kinase-ligase pair PINK1-PRKN recognizes and transiently labels damaged mitochondria with ubiquitin phosphorylated at Ser65 (p-S65-Ub) to mediate their selective degradation (mitophagy). Complete loss of PINK1 or PRKN function unequivocally leads to early-onset Parkinson disease, but it is debated whether impairments in mitophagy contribute to disease later in life. While the pathway has been extensively studied in cell culture upon acute and massive mitochondrial stress, basal levels of activation under endogenous conditions and especially in vivo in the brain remain undetermined. Using rodent samples, patient-derived cells, and isogenic neurons, we here identified age-dependent, brain region-, and cell type-specific effects and determined expression levels and extent of basal and maximal activation of PINK1 and PRKN. Our work highlights the importance of defining critical risk and therapeutically relevant levels of PINK1-PRKN signaling which will further improve diagnosis and prognosis and will lead to better stratification of patients for future clinical trials.

KW - Mitophagy

KW - parkin

KW - Parkinson disease

KW - PINK1

KW - PRKN

KW - ubiquitin

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SN - 1554-8627

JO - Autophagy

JF - Autophagy

ER -

Basal activity of PINK1 and PRKN in cell models and rodent brain

Abstract

Keywords

ASJC Scopus subject areas

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