Abnormal Mitochondrial Quality Control in Neurodegenerative Diseases

Xu, Yan; Wang, Biyao; Hu, Yue; Wang, Sijian; Zhang, Xinwen

doi:10.3389/fncel.2020.00138

Cited by 46 publications

(48 citation statements)

References 267 publications

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“…Many reports have associated autophagic pathway dysfunction to neurodegeneration development [180]. Alterations of this pathway have been identified at different levels and resulted in defective autophagic proteolysis of the macromolecules/molecular complexes within the lysosomal compartment [180][181][182]. The correlation of abnormal autophagic activity in AD has been described by Nixon and co-authors [180], who emphasized the impairment of the autophagolysosomes in human AD fibroblasts and in several models of the disease [183,184].…”

Section: Lysosomes Dysfunction and Admentioning

confidence: 98%

The Other Side of Alzheimer’s Disease: Influence of Metabolic Disorder Features for Novel Diagnostic Biomarkers

Argentati

Tortorella

Bazzucchi

et al. 2020

JPM

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Nowadays, the amyloid cascade hypothesis is the dominant model to explain Alzheimer’s disease (AD) pathogenesis. By this hypothesis, the inherited genetic form of AD is discriminated from the sporadic form of AD (SAD) that accounts for 85–90% of total patients. The cause of SAD is still unclear, but several studies have shed light on the involvement of environmental factors and multiple susceptibility genes, such as Apolipoprotein E and other genetic risk factors, which are key mediators in different metabolic pathways (e.g., glucose metabolism, lipid metabolism, energetic metabolism, and inflammation). Furthermore, growing clinical evidence in AD patients highlighted the presence of affected systemic organs and blood similarly to the brain. Collectively, these findings revise the canonical understating of AD pathogenesis and suggest that AD has metabolic disorder features. This review will focus on AD as a metabolic disorder and highlight the contribution of this novel understanding on the identification of new biomarkers for improving an early AD diagnosis.

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Section: Lysosomes Dysfunction and Admentioning

confidence: 98%

The Other Side of Alzheimer’s Disease: Influence of Metabolic Disorder Features for Novel Diagnostic Biomarkers

Argentati

Tortorella

Bazzucchi

et al. 2020

JPM

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“…Impaired Parkin recruitment to mitochondria is suggested to be caused by tau mediated sequestration of Parkin in the cytosol [166,173]. Defects in the activation of ULK1 and TBK1 lead to impaired mitophagy [173]. In AD, mitophagy increases or decreases depending on the part of the cell.…”

Section: Alzheimer's Diseasementioning

confidence: 99%

“…PD has been associated with mitophagy dysfunction since the discovery of mutations in genes involved in mitophagy causing familial PD. Mutations in PARK6 (encodes for PINK1), PARK2 (encodes for Parkin), PARK1/4 (α-synuclein), PARK7 (DJ1), PARK8 (LRRK2), PARK17 (Vsp35), and PARK9 (ATP13A2) genes are linked to familial PD [173,[186][187][188][189][190][191]. The role of PINK1, Parkin, and Vsp35 in mitophagy are well known and reviewed above.…”

Section: Parkinson's Diseasementioning

confidence: 99%

“…Lysosomal dysfunction has also been implicated in ALS. Specifically, lysosomal deficits result in an abnormal accumulation of autophagic vacuoles that engulf damaged mitochondria within the motor neuron axons of G93A SOD1 ALS mice [173]. Impaired mitochondrial turnover along with the accumulation of misfolded proteins and protein aggregates contributes to ALS linked mitochondrial dysfunction and motor neuron death.…”

Section: Alsmentioning

confidence: 99%

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Mitophagy and the Brain

Swerdlow

Wilkins

2020

Preprint

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Stress mechanisms have long been associated with neuronal loss and neurodegenerative diseases. The origin of cell stress and neuronal loss likely stems from multiple pathways. These include (but are not limited to) bioenergetic failure, neuroinflammation, and loss of proteostasis. Cells have adapted compensatory mechanisms to overcome stress and circumvent death. One mechanism is mitophagy. Recent studies have implicated mitophagy in several neurodegenerative diseases and clinical trials are underway which target mitophagy pathways. Here, we review mitophagy pathways, the role of mitophagy in neurodegeneration, potential therapeutics, and the need for further study.

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“…The detailed molecular mechanisms that govern mitochondrial selective autophagy in such a highly differentiated and compartmentalized cell, as well as their relevance to neuronal physiology only now begin to be elucidated. During the last decade, mitophagy was widely studied in the context of stress and pathological conditions (Palikaras et al, 2018 ; Lou et al, 2020 ; Yan et al, 2020 ). A growing body of evidence highlights mitophagy as a physiological process that occurs constitutively at baseline levels in the nervous system.…”

Section: Introductionmentioning

confidence: 99%

Neuronal Mitophagy: Friend or Foe?

Doxaki

Palikaras

2021

Front. Cell Dev. Biol.

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Maintenance of neuronal homeostasis is a challenging task, due to unique cellular organization and bioenergetic demands of post-mitotic neurons. It is increasingly appreciated that impairment of mitochondrial homeostasis represents an early sign of neuronal dysfunction that is common in both age-related neurodegenerative as well as in neurodevelopmental disorders. Mitochondrial selective autophagy, known as mitophagy, regulates mitochondrial number ensuring cellular adaptation in response to several intracellular and environmental stimuli. Mounting evidence underlines that deregulation of mitophagy levels has an instructive role in the process of neurodegeneration. Although mitophagy induction mediates the elimination of damaged mitochondria and confers neuroprotection, uncontrolled runaway mitophagy could reduce mitochondrial content overstressing the remaining organelles and eventually triggering neuronal cell death. Unveiling the molecular mechanisms of neuronal mitophagy and its intricate role in neuronal survival and cell death, will assist in the development of novel mitophagy modulators to promote cellular and organismal homeostasis in health and disease.

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Abnormal Mitochondrial Quality Control in Neurodegenerative Diseases

Cited by 46 publications

References 267 publications

The Other Side of Alzheimer’s Disease: Influence of Metabolic Disorder Features for Novel Diagnostic Biomarkers

The Other Side of Alzheimer’s Disease: Influence of Metabolic Disorder Features for Novel Diagnostic Biomarkers

Mitophagy and the Brain

Neuronal Mitophagy: Friend or Foe?

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