Principles of the mitochondrial fusion and fission cycle in neurons

Cagalinec, Michal; Safiulina, Dzhamilja; Liiv, Mailis; Liiv, Joanna; Choubey, Vinay; Warȩski, Przemyslaw; Veksler, Vladimir; Kaasik, Allen

doi:10.1242/jcs.118844

Cited by 124 publications

(149 citation statements)

References 24 publications

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“…We also show that TBA shifts the mitochondrial fission-fusion balance of striatal neurons towards more fusion, possibly because increasing microtubule-dependent movement increases fusion probability [45,46], particularly when mitochondrial contact probability is otherwise reduced by low motility. Inhibition of mitochondrial fission is emerging as a pharmacological strategy to counteract excessive mitochondrial fission in neurodegenerative diseases, such as HD [47,48].…”

Section: Accepted Manuscriptmentioning

confidence: 70%

HDAC6 inhibition induces mitochondrial fusion, autophagic flux and reduces diffuse mutant huntingtin in striatal neurons

Guedes-Dias

Proença

Soares

et al. 2015

Biochimica et Biophysica Acta (BBA) - Molecular Basis of Diseas

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Striatal neurons are vulnerable to Huntington's disease (HD). Decreased levels of acetylated alpha-tubulin and impaired mitochondrial dynamics, such as reduced motility and excessive fission, are associated with HD; however, it remains unclear whether and how these factors might contribute to the preferential degeneration of striatal neurons. Inhibition of the alpha-tubulin deacetylase HDAC6 has been proposed as a therapeutic strategy for HD, but remains controversial - studies in neurons show improved intracellular transport, whereas studies in cell-lines suggest it may impair autophagosome-lysosome fusion, and reduce clearance of mutant huntingtin (mHtt) and damaged mitochondria (mitophagy). Using primary cultures of rat striatal and cortical neurons, we show that mitochondria are intrinsically less motile and more balanced towards fission in striatal than in cortical neurons. Pharmacological inhibition of the HDAC6 deacetylase activity with tubastatin A (TBA) increased acetylated alpha-tubulin levels, and induced mitochondrial motility and fusion in striatal neurons to levels observed in cortical neurons. Importantly, TBA did not block neuronal autophagosome-lysosome fusion, and did not change mitochondrial DNA levels, suggesting no impairment in autophagy or mitochondrial clearance. Instead, TBA increased autophagic flux and reduced diffuse mHtt in striatal neurons, possibly by promoting transport of initiation factors to sites of autophagosomal biogenesis. This study identifies the pharmacological inhibition of HDAC6 deacetylase activity as a potential strategy to reduce the vulnerability of striatal neurons to HD.

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Section: Accepted Manuscriptmentioning

confidence: 70%

HDAC6 inhibition induces mitochondrial fusion, autophagic flux and reduces diffuse mutant huntingtin in striatal neurons

Guedes-Dias

Proença

Soares

et al. 2015

Biochimica et Biophysica Acta (BBA) - Molecular Basis of Diseas

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“…As all mitochondrial fusion and fission proteins are present in the cells, we cannot determine which proteins actually are responsible for the observed morphology. However, overexpression of MFN2 in neurons or in pulmonary artery smooth muscle cells induced mitochondrial elongation (8,36); hence, increased fusion and especially increased levels of MFN2 may functionally influence mitochondrial hyperfusion. Thus up- , and 25% CSE; n ϭ 3-6 ϩ SE.…”

Section: Discussionmentioning

confidence: 99%

Cigarette smoke extract affects mitochondrial function in alveolar epithelial cells

Ballweg

Mutze

Königshoff

et al. 2014

American Journal of Physiology-Lung Cellular and Molecular Phys

111

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Ballweg K, Mutze K, Königshoff M, Eickelberg O, Meiners S. Cigarette smoke extract affects mitochondrial function in alveolar epithelial cells. Am J Physiol Lung Cell Mol Physiol 307: L895-L907, 2014. First published October 17, 2014 doi:10.1152/ajplung.00180.2014.-Cigarette smoke is the main risk factor for chronic obstructive pulmonary disease (COPD). Exposure of cells to cigarette smoke induces an initial adaptive cellular stress response involving increased oxidative stress and induction of inflammatory signaling pathways. Exposure of mitochondria to cellular stress alters their fusion/fission dynamics. Whereas mild stress induces a prosurvival response termed stressinduced mitochondrial hyperfusion, severe stress results in mitochondrial fragmentation and mitophagy. In the present study, we analyzed the mitochondrial response to mild and nontoxic doses of cigarette smoke extract (CSE) in alveolar epithelial cells. We characterized mitochondrial morphology, expression of mitochondrial fusion and fission genes, markers of mitochondrial proteostasis, as well as mitochondrial functions such as membrane potential and oxygen consumption. Murine lung epithelial (MLE)12 and primary mouse alveolar epithelial cells revealed pronounced mitochondrial hyperfusion upon treatment with CSE, accompanied by increased expression of the mitochondrial fusion protein mitofusin 2 and increased metabolic activity. We did not observe any alterations in mitochondrial proteostasis, i.e., induction of the mitochondrial unfolded protein response or mitophagy. Therefore, our data indicate an adaptive prosurvival response of mitochondria of alveolar epithelial cells to nontoxic concentrations of CSE. A hyperfused mitochondrial network, however, renders the cell more vulnerable to additional stress, such as sustained cigarette smoke exposure. As such, cigarette smoke-induced mitochondrial hyperfusion, although part of a beneficial adaptive stress response in the first place, may contribute to the pathogenesis of COPD. chronic obstructive pulmonary disease; emphysema; proteostasis; stress-induced mitochondrial hyperfusion CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) is one of the leading causes of death worldwide. It is characterized by progressive and irreversible airflow limitation (4, 44). In the Western world, the main risk factor for development of COPD is cigarette smoke (CS) (4, 44), which is a complex mixture of thousands of injurious agents and reactive oxidants (7,33,44). Exposure of lung epithelial cells to CS initiates an adaptive cell response, such as induction of autophagy, impaired proteasome function, and proinflammatory and oxidative responses (7,33,35).Mitochondria are crucial cellular organelles for cellular energetics, signaling, and apoptosis. Differences in cellular energy demands or cellular stress rapidly alter mitochondrial behavior mainly by changing mitochondrial fusion and fission dynamics (5, 9, 26). Mitochondrial hyperfusion provides a stress-resolving mechanism for the cell, as elongated mitochondria are pr...

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“…Incomplete fission can result in a tangle of interconnected mitochondria and incomplete fusion can result in mitochondrial aggregates, thus motility's effect on the processes seems clear (Chen and Chan, 2009). On the other hand, it has been shown that loss of Miro, which inhibits motility, subsequently inhibits fusion (Cagalinec et al, 2013). It is logical to assume that motility facilitates fission and fusion as at least one mitochondrion must move toward another for fusion to take place and once divided the organelles must move apart to remain separate.…”

Section: Discussion the Role Of Microtubules In Mitochondrial Dynamicsmentioning

confidence: 99%

“…Additionally, we examined whether or not cluA − mitochondrial morphology is dependent upon these cytoskeletal components and how these components affect motility of the cluA − mitochondria. Finally, due to mounting evidence linking impaired fission and/or fusion to aberrant mitochondrial motility and cellular health (Cagalinec et al, 2013), we assessed the influence of the cytoskeleton on mitochondrial fission and fusion.…”

Section: Introductionmentioning

confidence: 99%

Molecular Mechanisms and Physiological Significance of Organelle Interactions and Cooperation

2017

Frontiers Research Topics

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Principles of the mitochondrial fusion and fission cycle in neurons

Cited by 124 publications

References 24 publications

HDAC6 inhibition induces mitochondrial fusion, autophagic flux and reduces diffuse mutant huntingtin in striatal neurons

HDAC6 inhibition induces mitochondrial fusion, autophagic flux and reduces diffuse mutant huntingtin in striatal neurons

Cigarette smoke extract affects mitochondrial function in alveolar epithelial cells

Molecular Mechanisms and Physiological Significance of Organelle Interactions and Cooperation

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