2019
DOI: 10.1101/551085
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Unique structural features of the mitochondrial AAA+ protease AFG3L2 reveal the molecular basis for activity in health and disease

Abstract: Mitochondrial AAA+ quality control proteases regulate diverse aspects of mitochondrial biology through specialized protein degradation, but the underlying molecular mechanisms that define the diverse activities of these enzymes remain poorly defined. The mitochondrial AAA+ protease AFG3L2 is of particular interest, as genetic mutations localized throughout AFG3L2 are linked to diverse neurodegenerative disorders. However, a lack of structural data has limited our understanding of how mutations impact enzymatic… Show more

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Cited by 18 publications
(34 citation statements)
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“…Cerebellar atrophy seems common, but can be mild or barely detectable 1. Neuroimaging in two patients with p.Val723Met6 showed cerebellar atrophy, whereas the basal ganglia were spared. The new case of SPAX5 described in the present report corroborates the impression that a wide spectrum of features, including iron deposition in the basal ganglia, can be attributed to m‐AAA protease defects.…”
Section: Discussionmentioning
confidence: 93%
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“…Cerebellar atrophy seems common, but can be mild or barely detectable 1. Neuroimaging in two patients with p.Val723Met6 showed cerebellar atrophy, whereas the basal ganglia were spared. The new case of SPAX5 described in the present report corroborates the impression that a wide spectrum of features, including iron deposition in the basal ganglia, can be attributed to m‐AAA protease defects.…”
Section: Discussionmentioning
confidence: 93%
“…The mechanisms by which different mutations in AFG3L2 lead to distinct neurological phenotypes constitute an important, open question in the field. Recently, Puchades and colleagues6 described distinct biochemical impacts of different mutations in the m‐AAA AGF3L2 protease, suggesting that these differences might constitute the molecular basis for the different neurodegenerative conditions associated with mutations in AFG3L2 . We here describe the case of a child with SPAX5 in whom severe MRI features suggesting a mitochondrial disorder are difficult to reconcile with his milder, fluctuating clinical course.…”
Section: Discussionmentioning
confidence: 99%
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“…Assembly factors play a prominent role in the biogenesis of complex I and perform functions that include the post-translational modification of subunits (Rhein et al, 2013;Rhein et al, 2016;Zurita Rendon et al, 2014), delivery of cofactors (Sheftel et al, 2009), insertion of proteins into the inner membrane, and stabilization of partially assembled, intermediate modules . In cases where complex I subunits are damaged or assembly is compromised, modified, unincorporated, labile or misassembled subunits are degraded by mitochondrial proteases to maintain mitochondrial integrity or reduce levels of reactive oxygen species (Pryde et al, 2016;Puchades et al, 2019;Rendón and Shoubridge, 2012;Stiburek et al, 2012).…”
Section: Introductionmentioning
confidence: 99%