Literature DB >> 32338760

Loss of CHCHD2 and CHCHD10 activates OMA1 peptidase to disrupt mitochondrial cristae phenocopying patient mutations.

Yi-Ting Liu1, Xiaoping Huang1, Diana Nguyen1, Mario K Shammas1, Beverly P Wu1, Eszter Dombi2, Danielle A Springer3, Joanna Poulton2, Shiori Sekine4, Derek P Narendra1.   

Abstract

Dominant mutations in the mitochondrial paralogs coiled-helix-coiled-helix (CHCHD) domain 2 (C2) and CHCHD10 (C10) were recently identified as causing Parkinson's disease and amyotrophic lateral sclerosis/frontotemporal dementia/myopathy, respectively. The mechanism by which they disrupt mitochondrial cristae, however, has been uncertain. Using the first C2/C10 double knockout (DKO) mice, we report that C10 pathogenesis and the normal function of C2/C10 are intimately linked. Similar to patients with C10 mutations, we found that C2/C10 DKO mice have disrupted mitochondrial cristae, because of cleavage of the mitochondrial-shaping protein long form of OPA1 (L-OPA1) by the stress-induced peptidase OMA1. OMA1 was found to be activated similarly in affected tissues of mutant C10 knock-in (KI) mice, demonstrating that L-OPA1 cleavage is a novel mechanism for cristae abnormalities because of both C10 mutation and C2/C10 loss. Using OMA1 activation as a functional assay, we found that C2 and C10 are partially functionally redundant, and some but not all disease-causing mutations have retained activity. Finally, C2/C10 DKO mice partially phenocopied mutant C10 KI mice with the development of cardiomyopathy and activation of the integrated mitochondrial integrated stress response in affected tissues, tying mutant C10 pathogenesis to C2/C10 function. Published by Oxford University Press 2020.

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Year:  2020        PMID: 32338760      PMCID: PMC7268789          DOI: 10.1093/hmg/ddaa077

Source DB:  PubMed          Journal:  Hum Mol Genet        ISSN: 0964-6906            Impact factor:   6.150


  53 in total

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Journal:  Cell Death Differ       Date:  2019-05-16       Impact factor: 15.828

2.  CHCHD2 accumulates in distressed mitochondria and facilitates oligomerization of CHCHD10.

Authors:  Xiaoping Huang; Beverly P Wu; Diana Nguyen; Yi-Ting Liu; Melika Marani; Jürgen Hench; Paule Bénit; Vera Kozjak-Pavlovic; Pierre Rustin; Stephan Frank; Derek P Narendra
Journal:  Hum Mol Genet       Date:  2019-01-15       Impact factor: 6.150

3.  Characterization of dimeric ATP synthase and cristae membrane ultrastructure from Saccharomyces and Polytomella mitochondria.

Authors:  Natalya V Dudkina; Stephanie Sunderhaus; Hans-Peter Braun; Egbert J Boekema
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4.  Rhomboid protease PARL mediates the mitochondrial membrane potential loss-induced cleavage of PGAM5.

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Journal:  J Biol Chem       Date:  2012-08-22       Impact factor: 5.157

5.  TRIAP1/PRELI complexes prevent apoptosis by mediating intramitochondrial transport of phosphatidic acid.

Authors:  Christoph Potting; Takashi Tatsuta; Tim König; Mathias Haag; Timothy Wai; Mari J Aaltonen; Thomas Langer
Journal:  Cell Metab       Date:  2013-08-06       Impact factor: 27.287

6.  Concurrent AFG3L2 and SPG7 mutations associated with syndromic parkinsonism and optic atrophy with aberrant OPA1 processing and mitochondrial network fragmentation.

Authors:  Stefania Magri; Valentina Fracasso; Massimo Plumari; Enrico Alfei; Daniele Ghezzi; Cinzia Gellera; Paola Rusmini; Angelo Poletti; Daniela Di Bella; Antonio E Elia; Chiara Pantaleoni; Franco Taroni
Journal:  Hum Mutat       Date:  2018-10-10       Impact factor: 4.878

7.  Mitochondrial Protein Interaction Mapping Identifies Regulators of Respiratory Chain Function.

Authors:  Brendan J Floyd; Emily M Wilkerson; Mike T Veling; Catie E Minogue; Chuanwu Xia; Emily T Beebe; Russell L Wrobel; Holly Cho; Laura S Kremer; Charlotte L Alston; Katarzyna A Gromek; Brendan K Dolan; Arne Ulbrich; Jonathan A Stefely; Sarah L Bohl; Kelly M Werner; Adam Jochem; Michael S Westphall; Jarred W Rensvold; Robert W Taylor; Holger Prokisch; Jung-Ja P Kim; Joshua J Coon; David J Pagliarini
Journal:  Mol Cell       Date:  2016-08-04       Impact factor: 17.970

8.  Impaired OMA1-dependent cleavage of OPA1 and reduced DRP1 fission activity combine to prevent mitophagy in cells that are dependent on oxidative phosphorylation.

Authors:  Thomas D B MacVicar; Jon D Lane
Journal:  J Cell Sci       Date:  2014-03-14       Impact factor: 5.285

9.  Loss of Parkinson's disease-associated protein CHCHD2 affects mitochondrial crista structure and destabilizes cytochrome c.

Authors:  Hongrui Meng; Chikara Yamashita; Kahori Shiba-Fukushima; Tsuyoshi Inoshita; Manabu Funayama; Shigeto Sato; Tomohisa Hatta; Tohru Natsume; Masataka Umitsu; Junichi Takagi; Yuzuru Imai; Nobutaka Hattori
Journal:  Nat Commun       Date:  2017-06-07       Impact factor: 14.919

10.  Inducible proteolytic inactivation of OPA1 mediated by the OMA1 protease in mammalian cells.

Authors:  Brian Head; Lorena Griparic; Mandana Amiri; Shilpa Gandre-Babbe; Alexander M van der Bliek
Journal:  J Cell Biol       Date:  2009-12-28       Impact factor: 10.539
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  16 in total

1.  TDP-43 and PINK1 mediate CHCHD10S59L mutation-induced defects in Drosophila and in vitro.

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Journal:  Nat Commun       Date:  2021-03-26       Impact factor: 14.919

Review 2.  Targeting Mitochondria as a Therapeutic Approach for Parkinson's Disease.

Authors:  Maryam Abrishamdar; Maryam Sadat Jalali; Yaghoob Farbood
Journal:  Cell Mol Neurobiol       Date:  2022-08-11       Impact factor: 4.231

3.  OMA1 mediates local and global stress responses against protein misfolding in CHCHD10 mitochondrial myopathy.

Authors:  Mario K Shammas; Xiaoping Huang; Beverly P Wu; Evelyn Fessler; Insung Y Song; Nicholas P Randolph; Yan Li; Christopher Ke Bleck; Danielle A Springer; Carl Fratter; Ines A Barbosa; Andrew F Powers; Pedro M Quirós; Carlos Lopez-Otin; Lucas T Jae; Joanna Poulton; Derek P Narendra
Journal:  J Clin Invest       Date:  2022-07-15       Impact factor: 19.456

4.  Mouse midbrain dopaminergic neurons survive loss of the PD-associated mitochondrial protein CHCHD2.

Authors:  Mai K Nguyen; Kevin McAvoy; Szu-Chi Liao; Zak Doric; Iris Lo; Huihui Li; Giovanni Manfredi; Ken Nakamura
Journal:  Hum Mol Genet       Date:  2022-05-04       Impact factor: 5.121

5.  Multi-OMICS study of a CHCHD10 variant causing ALS demonstrates metabolic rewiring and activation of endoplasmic reticulum and mitochondrial unfolded protein responses.

Authors:  Isabella R Straub; Woranontee Weraarpachai; Eric A Shoubridge
Journal:  Hum Mol Genet       Date:  2021-05-17       Impact factor: 6.150

Review 6.  OMA1-An integral membrane protease?

Authors:  Marcel V Alavi
Journal:  Biochim Biophys Acta Proteins Proteom       Date:  2020-10-29       Impact factor: 3.036

Review 7.  Mitochondrial CHCHD2: Disease-Associated Mutations, Physiological Functions, and Current Animal Models.

Authors:  Teresa R Kee; Pamela Espinoza Gonzalez; Jessica L Wehinger; Mohammed Zaheen Bukhari; Aizara Ermekbaeva; Apoorva Sista; Peter Kotsiviras; Tian Liu; David E Kang; Jung-A A Woo
Journal:  Front Aging Neurosci       Date:  2021-04-22       Impact factor: 5.750

8.  Reduced erythrocytic CHCHD2 mRNA is associated with brain pathology of Parkinson's disease.

Authors:  Xiaodan Liu; Qilong Wang; Ying Yang; Tessandra Stewart; Min Shi; David Soltys; Genliang Liu; Eric Thorland; Eugene M Cilento; Yiran Hou; Zongran Liu; Tao Feng; Jing Zhang
Journal:  Acta Neuropathol Commun       Date:  2021-03-08       Impact factor: 7.801

Review 9.  Mitochondrial Dysfunction, Protein Misfolding and Neuroinflammation in Parkinson's Disease: Roads to Biomarker Discovery.

Authors:  Anna Picca; Flora Guerra; Riccardo Calvani; Roberta Romano; Hélio José Coelho-Júnior; Cecilia Bucci; Emanuele Marzetti
Journal:  Biomolecules       Date:  2021-10-13

10.  Discovery of bactericides as an acute mitochondrial membrane damage inducer.

Authors:  Ryan Houston; Yusuke Sekine; Mads B Larsen; Kei Murakami; Steven J Mullett; Stacy G Wendell; Derek P Narendra; Bill B Chen; Shiori Sekine
Journal:  Mol Biol Cell       Date:  2021-09-08       Impact factor: 4.138
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