Role of cholesterol in substrate recognition by $$\gamma$$-secretase

Nierzwicki, Łukasz; Olewniczak, Michal; Chodnicki, Paweł

doi:10.1038/s41598-021-94618-2

Cited by 5 publications

(3 citation statements)

References 52 publications

(44 reference statements)

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“…For amyloidogenic cleavage, the APP must be colocalized in a cholesterol-dependent manner with β- and γ-secretases in the intracellular lipid raft membrane (Ehehalt et al, 2003 ; von Arnim et al, 2008 ; Area-Gomez et al, 2009 ; Cossec et al, 2010 ; Panahi et al, 2016 ; Chung et al, 2018 ; DelBove et al, 2019 ). Since cholesterol interacts directly with APP and secretase actions also depend on cholesterol, the cleavage of APP and the resulting amyloid production are strongly linked to the amount of cholesterol and its membrane distribution (Marquer et al, 2011 ; Barrett et al, 2012 ; Decock et al, 2015 ; Kim et al, 2016 ; Sun et al, 2017 ; Audagnotto et al, 2018 ; Agrawal et al, 2020 ; Montesinos et al, 2020 ; Pantelopulos et al, 2020 ; Nierzwicki et al, 2021 ).…”

Section: The Interplay Between Cholesterol and Admentioning

confidence: 99%

Cholesterol as a key player in amyloid β-mediated toxicity in Alzheimer’s disease

Rudajev

Novotný

2022

Front. Mol. Neurosci.

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Alzheimer’s disease (AD) is a neurodegenerative disorder that is one of the most devastating and widespread diseases worldwide, mainly affecting the aging population. One of the key factors contributing to AD-related neurotoxicity is the production and aggregation of amyloid β (Aβ). Many studies have shown the ability of Aβ to bind to the cell membrane and disrupt its structure, leading to cell death. Because amyloid damage affects different parts of the brain differently, it seems likely that not only Aβ but also the nature of the membrane interface with which the amyloid interacts, helps determine the final neurotoxic effect. Because cholesterol is the dominant component of the plasma membrane, it plays an important role in Aβ-induced toxicity. Elevated cholesterol levels and their regulation by statins have been shown to be important factors influencing the progression of neurodegeneration. However, data from many studies have shown that cholesterol has both neuroprotective and aggravating effects in relation to the development of AD. In this review, we attempt to summarize recent findings on the role of cholesterol in Aβ toxicity mediated by membrane binding in the pathogenesis of AD and to consider it in the broader context of the lipid composition of cell membranes.

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Section: The Interplay Between Cholesterol and Admentioning

confidence: 99%

Cholesterol as a key player in amyloid β-mediated toxicity in Alzheimer’s disease

Rudajev

Novotný

2022

Front. Mol. Neurosci.

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“…By forming lipid rafts, cholesterol creates optimal conditions for β- and γ-secretase activity [ 54 , 165 , 174 , 201 , 210 , 223 , 227 , 297 – 299 ]. Cholesterol makes the active site γ-secretase more compact and supports secretase activity toward C99, which promotes Aβ42 generation [ 239 , 300 ]. All four parts of the γ-secretase complex contain common TM cholesterol binding motifs CARC or CRAC [ 239 , 301 ].…”

Section: Cholesterol-dependent Aβ Formationmentioning

confidence: 99%

Cholesterol-dependent amyloid β production: space for multifarious interactions between amyloid precursor protein, secretases, and cholesterol

Rudajev,

Novotny

2023

Cell Biosci

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Amyloid β is considered a key player in the development and progression of Alzheimer’s disease (AD). Many studies investigating the effect of statins on lowering cholesterol suggest that there may be a link between cholesterol levels and AD pathology. Since cholesterol is one of the most abundant lipid molecules, especially in brain tissue, it affects most membrane-related processes, including the formation of the most dangerous form of amyloid β, Aβ42. The entire Aβ production system, which includes the amyloid precursor protein (APP), β-secretase, and the complex of γ-secretase, is highly dependent on membrane cholesterol content. Moreover, cholesterol can affect amyloidogenesis in many ways. Cholesterol influences the stability and activity of secretases, but also dictates their partitioning into specific cellular compartments and cholesterol-enriched lipid rafts, where the amyloidogenic machinery is predominantly localized. The most complicated relationships have been found in the interaction between cholesterol and APP, where cholesterol affects not only APP localization but also the precise character of APP dimerization and APP processing by γ-secretase, which is important for the production of Aβ of different lengths. In this review, we describe the intricate web of interdependence between cellular cholesterol levels, cholesterol membrane distribution, and cholesterol-dependent production of Aβ, the major player in AD.

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“…Mitochondrial membranes contain relatively low amounts of cholesterol, but these changes are important [ 57 , 58 ]. Cholesterol affects the Aβ maturation, directly influencing the activity of γ-secretase in MAM during proteolytic degradation of amyloid precursor protein (APP) [ 126 , 127 , 128 ]. Cholesterol also interacts with the membrane part of APP [ 129 , 130 ], affects the activity of β-secretase [ 131 , 132 ] and α-secretase [ 133 ], defining the sequential cleavage of APP either via the amyloidogenic or non-amyloidogenic pathway, respectively.…”

Section: Neurodegenerative Diseasesmentioning

confidence: 99%

Role of Mitochondrial Protein Import in Age-Related Neurodegenerative and Cardiovascular Diseases

Bogorodskiy

Okhrimenko

Burkatovskii

et al. 2021

Cells

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Mitochondria play a critical role in providing energy, maintaining cellular metabolism, and regulating cell survival and death. To carry out these crucial functions, mitochondria employ more than 1500 proteins, distributed between two membranes and two aqueous compartments. An extensive network of dedicated proteins is engaged in importing and sorting these nuclear-encoded proteins into their designated mitochondrial compartments. Defects in this fundamental system are related to a variety of pathologies, particularly engaging the most energy-demanding tissues. In this review, we summarize the state-of-the-art knowledge about the mitochondrial protein import machinery and describe the known interrelation of its failure with age-related neurodegenerative and cardiovascular diseases.

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Role of cholesterol in substrate recognition by $$\gamma$$-secretase

Cited by 5 publications

References 52 publications

Cholesterol as a key player in amyloid β-mediated toxicity in Alzheimer’s disease

Cholesterol as a key player in amyloid β-mediated toxicity in Alzheimer’s disease

Cholesterol-dependent amyloid β production: space for multifarious interactions between amyloid precursor protein, secretases, and cholesterol

Role of Mitochondrial Protein Import in Age-Related Neurodegenerative and Cardiovascular Diseases

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