Protection against Mitochondrial and Metal Toxicity Depends on Functional Lipid Binding Sites in ATP13A2

Martin, Shaun; Veen, Sarah van; Holemans, Tine; Demirsoy, Şeyma; Haute, Chris Van den; Baekelandt, Veerle; Agostinis, Patrizia; Eggermont, Jan; Vangheluwe, Peter

doi:10.1155/2016/9531917

Cited by 22 publications

(28 citation statements)

References 39 publications

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“…Significance was assessed by one-way ANOVA with either Dunnett's post hoc (e, to Rab11; a, c to mirFluc) or Tukey's (g, i) post hoc whereby, 1 mark P < 0.05, 2 marks P < 0.01, 3 marks P < 0.001, 4 marks P < 0.0001 linked to PD [28,90]. As a lysosomal polyamine exporter, ATP13A2 provides protection to rotenone and MnCl 2 [68,111,112], and also maintains lysosomal functionality and membrane integrity [111], pointing to a remarkable synergy between the two lysosomal export systems. Rotenone is a mitochondrial complex I inhibitor, whereas MnCl 2 may inhibit the mitochondrial respiratory chain at the level of complex II [43,102].…”

Section: Discussionmentioning

confidence: 99%

“…To investigate whether ATP10B exerts a cell protective effect, stable cell lines were exposed to the heavy metals MnCl 2 and ZnCl 2 , the 26S proteasome inhibitor bortezomib and the mitochondrial complex I inhibitor rotenone, stressors that evoked a phenotype in cell models of ATP13A2 loss of function, another late endo-lysosomal P-type ATPase implicated in PD [26,48,68]. ATP10B WT significantly protected HeLa cells against rotenone and MnCl 2 , but not against ZnCl 2 or Bortezomib (Fig.…”

Section: Disease Associated Mutants Impair Functional Activities Of Amentioning

confidence: 99%

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Mutated ATP10B increases Parkinson’s disease risk by compromising lysosomal glucosylceramide export

et al. 2020

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Parkinson's disease (PD) is a progressive neurodegenerative brain disease presenting with a variety of motor and non-motor symptoms, loss of midbrain dopaminergic neurons in the substantia nigra pars compacta and the occurrence of α-synucleinpositive Lewy bodies in surviving neurons. Here, we performed whole exome sequencing in 52 early-onset PD patients and identified 3 carriers of compound heterozygous mutations in the ATP10B P4-type ATPase gene. Genetic screening of a Belgian PD and dementia with Lewy bodies (DLB) cohort identified 4 additional compound heterozygous mutation carriers (6/617 PD patients, 0.97%; 1/226 DLB patients, 0.44%). We established that ATP10B encodes a late endo-lysosomal lipid flippase that translocates the lipids glucosylceramide (GluCer) and phosphatidylcholine (PC) towards the cytosolic membrane leaflet. The PD associated ATP10B mutants are catalytically inactive and fail to provide cellular protection against the environmental PD risk factors rotenone and manganese. In isolated cortical neurons, loss of ATP10B leads to general lysosomal dysfunction and cell death. Impaired lysosomal functionality and integrity is well known to be implicated in PD pathology and linked to multiple causal PD genes and genetic risk factors. Our results indicate that recessive loss of function mutations in ATP10B increase risk for PD by disturbed lysosomal export of GluCer and PC. Both ATP10B and glucocerebrosidase 1, encoded by the PD risk gene GBA1, reduce lysosomal GluCer levels, emerging lysosomal GluCer accumulation as a potential PD driver.Keywords Parkinson's disease · Massive parallel sequencing · ATP10B P-type ATPase · Endo-lysosomal lipid flippase · Loss-of-function · Glucosylceramide Shaun Martin and Stefanie Smolders shared first authors and have contributed equally. Peter Vangheluwe and Christine Van Broeckhoven shared last and corresponding authors and have contributed equally.

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Section: Discussionmentioning

confidence: 99%

Section: Disease Associated Mutants Impair Functional Activities Of Amentioning

confidence: 99%

Mutated ATP10B increases Parkinson’s disease risk by compromising lysosomal glucosylceramide export

et al. 2020

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“…The dopaminergic system is very sensitive to Mn toxicity and is a target for elevated Mn concentrations in welders using Mn-containing flux [127]. Mn toxicity involves the generation of free radicals and alterations in normal mitochondrial function [2,128,129].…”

Section: Manganese-associated Changes In Mirna Expressionmentioning

confidence: 99%

Toxic-Metal-Induced Alteration in miRNA Expression Profile as a Proposed Mechanism for Disease Development

Wallace

Taalab

Heinze

et al. 2020

Cells

109

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Toxic metals are extensively found in the environment, households, and workplaces and contaminate food and drinking water. The crosstalk between environmental exposure to toxic metals and human diseases has been frequently described. The toxic mechanism of action was classically viewed as the ability to dysregulate the redox status, production of inflammatory mediators and alteration of mitochondrial function. Recently, growing evidence showed that heavy metals might exert their toxicity through microRNAs (miRNA)-short, single-stranded, noncoding molecules that function as positive/negative regulators of gene expression. Aberrant alteration of the endogenous miRNA has been directly implicated in various pathophysiological conditions and signaling pathways, consequently leading to different types of cancer and human diseases. Additionally, the gene-regulatory capacity of miRNAs is particularly valuable in the brain-a complex organ with neurons demonstrating a significant ability to adapt following environmental stimuli. Accordingly, dysregulated miRNAs identified in patients suffering from neurological diseases might serve as biomarkers for the earlier diagnosis and monitoring of disease progression. This review will greatly emphasize the effect of the toxic metals on human miRNA activities and how this contributes to progression of diseases such as cancer and neurodegenerative disorders (NDDs).

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“…Failure of mitochondrial maintenance and regulation is involved in PD pathogenesis . Notably, ATP13A2 deficiency has been shown to contribute mitochondrial dysfunction and one of the mechanisms in mediating mitochondrial dyshomeostasis is compromised autophagy . ATP13A2 deficiency has been shown to be associated with MYCBP2‐induced ubiquitination of TSC2, leading to Rheb GTPase in a GTP‐bound conformation and mTORC1 activation on lysosomes, thereby inhibition of TFEB‐mediated lysosomal gene transcriptions and inhibition of autophagy (Figure ).…”

Section: Lysosomal Handling Of Trace Metals and Lipidsmentioning

confidence: 99%

“…Since ATP13A2 might interact with synaptotagmin‐11 encoded by SYT11 that is mutated in PD and regulates autophagy in the same pathway as ATP13A2, and synaptotagmins bind a series of different cations, it is also possible that synaptotagmin‐11 regulates ATP13A2 transport efficiency. In addition, ATP13A2 contains a unique N‐terminal hydrophobic extension on the lysosomal cytosolic membrane surface to interact with phosphatidic acid (PA) and phosphatidylinositol(3,5)bisphosphate [PI(3,5)P2] that stimulate ATP13A2 auto‐phosphorylation and are required for the ATP13A2‐mediated protection against the toxic metals Mn 2+ , Zn 2+ , and Fe 3+ (Figure ). ATP13A2 deficiency results in neuronal ceroid lipofuscinosis including accumulation of lipofuscin positive for subunit c of mitochondrial ATP synthase, suggesting that a common pathogenic mechanism underlies both neuronal ceroid lipofuscinosis and Parkinson's disease .…”

Section: Atp13a2 Gene Mutationmentioning

confidence: 99%

Impulse control disorder, lysosomal malfunction andATP13A2 insufficiency in Parkinsonism

Liu

Lü

et al. 2017

Clin Exp Pharma Physio

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Lysosomal transport of cargos in neurons is essential for neuronal proteostasis, transmission and functional motors and behaviours. Lysosomal malfunction including storage disorders is involved in the pathogenesis of Parkinson's disease (PD). Given the unclear molecular mechanisms of diverse defects in PD phenotypes, especially behavioural deficits, this mini review explores the cellular contexts of PD impulse control disorders and the molecular aspects of lysosomal cross-membrane transports. Focuses are paid to trace metal involvements in α-synuclein assembly in Lewy bodies, the func- The progressive neurodegeneration of specific brain regions has been shown to be associated with eosinophilic inclusions (Lewy bodies) in the neurons, resulting in reduced levels of DA in the striatum, loss of neuronal function, degeneration and death. Although dopaminergic neurotransmitter therapy can cause partial remission, it can also cause side effects including behavioural abnormalities. 1,2Parkinson's disease patients present the symptoms of behavioural disorder that include excessive eating, frequent sexual activity and other compulsive actions, characteristic of involuntary impulse control disorders that are clinically known as the impulse control disorder (ICD).2-4 Although its pathogenesis is unknown, ICD has been reported to be a common behavioural disorder accounting for 3% of adults usually in the youth stage 5 and 25%-50% in PD patients. [6][7][8] Clinical diagnosis of ICD depends on interrogation assessment, and apparently there is no effective treatment. [6][7][8] Understanding of the pathological changes of PD and ICD involves clarification of the concurrences of abnormal behaviour and movement mediated by convergent interactions between genetic and environmental factors on specified neurotransmitter circuits of particular brain regions. | THE CHARACTERISTICS OF PD ICDImpulsive control of behaviour is an important mechanism in the regulation of human and animal physiological behaviours, and is the result of the survival and evolution of social animals. For centuries, people

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Protection against Mitochondrial and Metal Toxicity Depends on Functional Lipid Binding Sites in ATP13A2

Cited by 22 publications

References 39 publications

Mutated ATP10B increases Parkinson’s disease risk by compromising lysosomal glucosylceramide export

Mutated ATP10B increases Parkinson’s disease risk by compromising lysosomal glucosylceramide export

Toxic-Metal-Induced Alteration in miRNA Expression Profile as a Proposed Mechanism for Disease Development

Impulse control disorder, lysosomal malfunction andATP13A2 insufficiency in Parkinsonism

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