Mitochondrial Dysfunction: Different Routes to Alzheimer’s Disease Therapy

Mitochondrial Dysfunction: Different Routes to Alzheimer’s Disease Therapy

Mitochondria are dynamic ATP-generating organelle which contribute to many cellular functions including bioenergetics processes, intracellular calcium regulation, alteration of reduction-oxidation potential of cells, free radical scavenging, and activation of caspase mediated cell death. Mitochondri...

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Main Authors: Pasquale Picone, Domenico Nuzzo, Luca Caruana, Valeria Scafidi, Marta Di Carlo
Format: Article
Language:English
Published: Hindawi Limited 2014-01-01
Series:Oxidative Medicine and Cellular Longevity
Online Access:http://dx.doi.org/10.1155/2014/780179
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spelling doaj-1a12de06c4134cef8a0ff49a79a028e72020-11-25T01:06:25ZengHindawi LimitedOxidative Medicine and Cellular Longevity1942-09001942-09942014-01-01201410.1155/2014/780179780179Mitochondrial Dysfunction: Different Routes to Alzheimer’s Disease TherapyPasquale Picone0Domenico Nuzzo1Luca Caruana2Valeria Scafidi3Marta Di Carlo4Istituto di Biomedicina ed Immunologia Molecolare (IBIM) “Alberto Monroy,” CNR, via Ugo La Malfa 153, 90146 Palermo, ItalyIstituto di Biomedicina ed Immunologia Molecolare (IBIM) “Alberto Monroy,” CNR, via Ugo La Malfa 153, 90146 Palermo, ItalyIstituto di Biomedicina ed Immunologia Molecolare (IBIM) “Alberto Monroy,” CNR, via Ugo La Malfa 153, 90146 Palermo, ItalyIstituto di Biomedicina ed Immunologia Molecolare (IBIM) “Alberto Monroy,” CNR, via Ugo La Malfa 153, 90146 Palermo, ItalyIstituto di Biomedicina ed Immunologia Molecolare (IBIM) “Alberto Monroy,” CNR, via Ugo La Malfa 153, 90146 Palermo, ItalyMitochondria are dynamic ATP-generating organelle which contribute to many cellular functions including bioenergetics processes, intracellular calcium regulation, alteration of reduction-oxidation potential of cells, free radical scavenging, and activation of caspase mediated cell death. Mitochondrial functions can be negatively affected by amyloid β peptide (Aβ), an important component in Alzheimer’s disease (AD) pathogenesis, and Aβ can interact with mitochondria and cause mitochondrial dysfunction. One of the most accepted hypotheses for AD onset implicates that mitochondrial dysfunction and oxidative stress are one of the primary events in the insurgence of the pathology. Here, we examine structural and functional mitochondrial changes in presence of Aβ. In particular we review data concerning Aβ import into mitochondrion and its involvement in mitochondrial oxidative stress, bioenergetics, biogenesis, trafficking, mitochondrial permeability transition pore (mPTP) formation, and mitochondrial protein interaction. Moreover, the development of AD therapy targeting mitochondria is also discussed.http://dx.doi.org/10.1155/2014/780179
collection DOAJ
language English
format Article
sources DOAJ
author Pasquale Picone
Domenico Nuzzo
Luca Caruana
Valeria Scafidi
Marta Di Carlo
spellingShingle Pasquale Picone
Domenico Nuzzo
Luca Caruana
Valeria Scafidi
Marta Di Carlo
Mitochondrial Dysfunction: Different Routes to Alzheimer’s Disease Therapy
Oxidative Medicine and Cellular Longevity
author_facet Pasquale Picone
Domenico Nuzzo
Luca Caruana
Valeria Scafidi
Marta Di Carlo
author_sort Pasquale Picone
title Mitochondrial Dysfunction: Different Routes to Alzheimer’s Disease Therapy
title_short Mitochondrial Dysfunction: Different Routes to Alzheimer’s Disease Therapy
title_full Mitochondrial Dysfunction: Different Routes to Alzheimer’s Disease Therapy
title_fullStr Mitochondrial Dysfunction: Different Routes to Alzheimer’s Disease Therapy
title_full_unstemmed Mitochondrial Dysfunction: Different Routes to Alzheimer’s Disease Therapy
title_sort mitochondrial dysfunction: different routes to alzheimer’s disease therapy
publisher Hindawi Limited
series Oxidative Medicine and Cellular Longevity
issn 1942-0900
1942-0994
publishDate 2014-01-01
description Mitochondria are dynamic ATP-generating organelle which contribute to many cellular functions including bioenergetics processes, intracellular calcium regulation, alteration of reduction-oxidation potential of cells, free radical scavenging, and activation of caspase mediated cell death. Mitochondrial functions can be negatively affected by amyloid β peptide (Aβ), an important component in Alzheimer’s disease (AD) pathogenesis, and Aβ can interact with mitochondria and cause mitochondrial dysfunction. One of the most accepted hypotheses for AD onset implicates that mitochondrial dysfunction and oxidative stress are one of the primary events in the insurgence of the pathology. Here, we examine structural and functional mitochondrial changes in presence of Aβ. In particular we review data concerning Aβ import into mitochondrion and its involvement in mitochondrial oxidative stress, bioenergetics, biogenesis, trafficking, mitochondrial permeability transition pore (mPTP) formation, and mitochondrial protein interaction. Moreover, the development of AD therapy targeting mitochondria is also discussed.
url http://dx.doi.org/10.1155/2014/780179
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AT domeniconuzzo mitochondrialdysfunctiondifferentroutestoalzheimersdiseasetherapy
AT lucacaruana mitochondrialdysfunctiondifferentroutestoalzheimersdiseasetherapy
AT valeriascafidi mitochondrialdysfunctiondifferentroutestoalzheimersdiseasetherapy
AT martadicarlo mitochondrialdysfunctiondifferentroutestoalzheimersdiseasetherapy
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