Dominant ACO2 mutations are a frequent cause of isolated optic atrophy. Issue 2 (7th April 2021)

Record Type:: Journal Article
Title:: Dominant ACO2 mutations are a frequent cause of isolated optic atrophy. Issue 2 (7th April 2021)
Main Title:: Dominant ACO2 mutations are a frequent cause of isolated optic atrophy
Authors:: Charif, Majida
Gueguen, Naïg
Ferré, Marc
Elkarhat, Zouhair
Khiati, Salim
LeMao, Morgane
Chevrollier, Arnaud
Desquiret-Dumas, Valerie
Goudenège, David
Bris, Céline
Kane, Selma
Alban, Jennifer
Chupin, Stéphanie
Wetterwald, Céline
Caporali, Leonardo
Tagliavini, Francesca
LaMorgia, Chiara
Carbonelli, Michele
Jurkute, Neringa
Barakat, Abdelhamid
Gohier, Philippe
Verny, Christophe
Barth, Magalie
Procaccio, Vincent
Bonneau, Dominique
Zanlonghi, Xavier
Meunier, Isabelle
Weisschuh, Nicole
Schimpf-Linzenbold, Simone
Tonagel, Felix
… (more)
Abstract:: Abstract: Biallelic mutations in ACO2, encoding the mitochondrial aconitase 2, have been identified in individuals with neurodegenerative syndromes, including infantile cerebellar retinal degeneration and recessive optic neuropathies (locus OPA9). By screening European cohorts of individuals with genetically unsolved inherited optic neuropathies, we identified 61 cases harbouring variants in ACO2, among whom 50 carried dominant mutations, emphasizing for the first time the important contribution of ACO2 monoallelic pathogenic variants to dominant optic atrophy. Analysis of the ophthalmological and clinical data revealed that recessive cases are affected more severely than dominant cases, while not significantly earlier. In addition, 27% of the recessive cases and 11% of the dominant cases manifested with extraocular features in addition to optic atrophy. In silico analyses of ACO2 variants predicted their deleterious impacts on ACO2 biophysical properties. Skin derived fibroblasts from patients harbouring dominant and recessive ACO2 mutations revealed a reduction of ACO2 abundance and enzymatic activity, and the impairment of the mitochondrial respiration using citrate and pyruvate as substrates, while the addition of other Krebs cycle intermediates restored a normal respiration, suggesting a possible short-cut adaptation of the tricarboxylic citric acid cycle. Analysis of the mitochondrial genome abundance disclosed a significant reduction of the mitochondrial DNA amount in … (more)
Is Part Of:: Brain communications. Volume 3:Issue 2(2021)
Journal:: Brain communications
Issue:: Volume 3:Issue 2(2021)
Issue Display:: Volume 3, Issue 2 (2021)
Year:: 2021
Volume:: 3
Issue:: 2
Issue Sort Value:: 2021-0003-0002-0000
Page Start:
Page End:
Publication Date:: 2021-04-07
Subjects:: ACO2 -- aconitase 2 -- mitochondria -- Krebs cycle -- optic neuropathy
616
Journal URLs:: https://academic.oup.com/braincomms ↗
http://www.oxfordjournals.org/ ↗
DOI:: 10.1093/braincomms/fcab063 ↗
Languages:: English
ISSNs:: 2632-1297
Deposit Type:: Legaldeposit
View Content:: Available online (eLD content is only available in our Reading Rooms) ↗
Physical Locations:: British Library DSC - BLDSS-3PM
British Library HMNTS - ELD Digital store
Ingest File:: 25606.xml