Literature DB >> 31254044

Mechanisms of PINK1, ubiquitin and Parkin interactions in mitochondrial quality control and beyond.

Andrew N Bayne1, Jean-François Trempe2.   

Abstract

Parkinson's disease (PD) is a degenerative movement disorder resulting from the loss of specific neuron types in the midbrain. Early environmental and pathophysiological studies implicated mitochondrial damage and protein aggregation as the main causes of PD. These findings are now vindicated by the characterization of more than 20 genes implicated in rare familial forms of the disease. In particular, two proteins encoded by the Parkin and PINK1 genes, whose mutations cause early-onset autosomal recessive PD, function together in a mitochondrial quality control pathway. In this review, we will describe recent development in our understanding of their mechanisms of action, structure, and function. We explain how PINK1 acts as a mitochondrial damage sensor via the regulated proteolysis of its N-terminus and the phosphorylation of ubiquitin tethered to outer mitochondrial membrane proteins. In turn, phospho-ubiquitin recruits and activates Parkin via conformational changes that increase its ubiquitin ligase activity. We then describe how the formation of polyubiquitin chains on mitochondria triggers the recruitment of the autophagy machinery or the formation of mitochondria-derived vesicles. Finally, we discuss the evidence for the involvement of these mechanisms in physiological processes such as immunity and inflammation, as well as the links to other PD genes.

Entities:  

Keywords:  Kinase; Mitochondria; PINK1; Parkin; Parkinson; Ubiquitin

Mesh:

Substances:

Year:  2019        PMID: 31254044     DOI: 10.1007/s00018-019-03203-4

Source DB:  PubMed          Journal:  Cell Mol Life Sci        ISSN: 1420-682X            Impact factor:   9.261


  219 in total

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Journal:  Science       Date:  1997-06-27       Impact factor: 47.728

3.  Genome-wide Pleiotropy Between Parkinson Disease and Autoimmune Diseases.

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Journal:  JAMA Neurol       Date:  2017-07-01       Impact factor: 18.302

4.  Mitofusin 2 tethers endoplasmic reticulum to mitochondria.

Authors:  Olga Martins de Brito; Luca Scorrano
Journal:  Nature       Date:  2008-12-04       Impact factor: 49.962

5.  Expression and localization of the Parkin co-regulated gene in mouse CNS suggests a role in ependymal cilia function.

Authors:  Gabrielle R Wilson; Jacqueline T Tan; Kate M Brody; Juliet M Taylor; Martin B Delatycki; Paul J Lockhart
Journal:  Neurosci Lett       Date:  2009-05-20       Impact factor: 3.046

6.  Extracellular aggregated alpha synuclein primarily triggers lysosomal dysfunction in neural cells prevented by trehalose.

Authors:  Anna-Carin Hoffmann; Georgia Minakaki; Stefanie Menges; Rachele Salvi; Sergey Savitskiy; Aida Kazman; Hugo Vicente Miranda; Dirk Mielenz; Jochen Klucken; Jürgen Winkler; Wei Xiang
Journal:  Sci Rep       Date:  2019-01-24       Impact factor: 4.379

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Authors:  I P de Castro; A C Costa; I Celardo; R Tufi; D Dinsdale; S H Y Loh; L M Martins
Journal:  Cell Death Dis       Date:  2013-10-24       Impact factor: 8.469

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Authors:  Benjamin Stieglitz; Rohini R Rana; Marios G Koliopoulos; Aylin C Morris-Davies; Veronique Schaeffer; Evangelos Christodoulou; Steven Howell; Nicholas R Brown; Ivan Dikic; Katrin Rittinger
Journal:  Nature       Date:  2013-10-20       Impact factor: 49.962

9.  PINK1-Parkin pathway activity is regulated by degradation of PINK1 in the mitochondrial matrix.

Authors:  Ruth E Thomas; Laurie A Andrews; Jonathon L Burman; Wen-Yang Lin; Leo J Pallanck
Journal:  PLoS Genet       Date:  2014-05-29       Impact factor: 5.917

10.  Structural insights into ubiquitin phosphorylation by PINK1.

Authors:  Kei Okatsu; Yusuke Sato; Koji Yamano; Noriyuki Matsuda; Lumi Negishi; Akiko Takahashi; Atsushi Yamagata; Sakurako Goto-Ito; Masaki Mishima; Yutaka Ito; Toshihiko Oka; Keiji Tanaka; Shuya Fukai
Journal:  Sci Rep       Date:  2018-07-10       Impact factor: 4.379
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  21 in total

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Journal:  Trends Genet       Date:  2022-04-25       Impact factor: 11.821

Review 3.  Mitophagy, a Form of Selective Autophagy, Plays an Essential Role in Mitochondrial Dynamics of Parkinson's Disease.

Authors:  Xiao-Le Wang; Si-Tong Feng; Ya-Ting Wang; Yu-He Yuan; Zhi-Peng Li; Nai-Hong Chen; Zhen-Zhen Wang; Yi Zhang
Journal:  Cell Mol Neurobiol       Date:  2021-02-02       Impact factor: 5.046

4.  Crystal structure of human PACRG in complex with MEIG1 reveals roles in axoneme formation and tubulin binding.

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Journal:  Structure       Date:  2021-02-01       Impact factor: 5.871

5.  Maackiain Ameliorates 6-Hydroxydopamine and SNCA Pathologies by Modulating the PINK1/Parkin Pathway in Models of Parkinson's Disease in Caenorhabditis elegans and the SH-SY5Y Cell Line.

Authors:  Rong-Tzong Tsai; Chia-Wen Tsai; Shih-Ping Liu; Jia-Xin Gao; Yun-Hua Kuo; Pei-Min Chao; Huey-Shan Hung; Woei-Cherng Shyu; Shinn-Zong Lin; Ru-Huei Fu
Journal:  Int J Mol Sci       Date:  2020-06-23       Impact factor: 5.923

6.  PINK1 alleviates thermal hypersensitivity in a paclitaxel-induced Drosophila model of peripheral neuropathy.

Authors:  Young Yeon Kim; Jeong-Hyun Yoon; Jee-Hyun Um; Dae Jin Jeong; Dong Jin Shin; Young Bin Hong; Jong Kuk Kim; Dong Hyun Kim; Changsoo Kim; Chang Geon Chung; Sung Bae Lee; Hyongjong Koh; Jeanho Yun
Journal:  PLoS One       Date:  2020-09-17       Impact factor: 3.240

Review 7.  Mitochondrial ROS-Modulated mtDNA: A Potential Target for Cardiac Aging.

Authors:  Yue Quan; Yanguo Xin; Geer Tian; Junteng Zhou; Xiaojing Liu
Journal:  Oxid Med Cell Longev       Date:  2020-03-26       Impact factor: 6.543

8.  Hypoxic postconditioning promotes mitophagy against transient global cerebral ischemia via PINK1/Parkin-induced mitochondrial ubiquitination in adult rats.

Authors:  Haixia Wen; Luxi Li; Lixuan Zhan; Yunyan Zuo; Kongping Li; Meiqian Qiu; Heying Li; Weiwen Sun; En Xu
Journal:  Cell Death Dis       Date:  2021-06-18       Impact factor: 8.469

9.  Ursolic and Oleanolic Acids Induce Mitophagy in A549 Human Lung Cancer Cells.

Authors:  Nayeli Shantal Castrejón-Jiménez; Kahiry Leyva-Paredes; Shantal Lizbeth Baltierra-Uribe; Juan Castillo-Cruz; Marcia Campillo-Navarro; Alma Delia Hernández-Pérez; Alexandra Berenice Luna-Angulo; Rommel Chacón-Salinas; Ramón Mauricio Coral-Vázquez; Iris Estrada-García; Luvia Enid Sánchez-Torres; Carlos Torres-Torres; Blanca Estela García-Pérez
Journal:  Molecules       Date:  2019-09-23       Impact factor: 4.411

10.  Role of mitochondrial quality control in the pathogenesis of nonalcoholic fatty liver disease.

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