Adaptation of neuronal cells to chronic oxidative stress is associated with altered cholesterol and sphingolipid homeostasis and lysosomal function

Clement, Angela B.; Gamerdinger, Martin; Tamboli, Irfan Y.; Lütjohann, Dieter; Walter, Jochen; Greeve, Isabell; Gimpl, Gerald; Behl, Christian

doi:10.1111/j.1471-4159.2009.06360.x

Cited by 48 publications

(34 citation statements)

References 53 publications

(44 reference statements)

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“…While promoting the induction of autophagy, SLs also impair the efficient turnover of AVs, resulting in their accumulation. To confirm the induction of autophagy by SLs, cells were treated with E64d, a cysteine protease inhibitor that impairs LC3 II degradation, in the presence or absence of GSLs (Clement et al, 2009). If GSLs only inhibit autophagic flux, the effect of both additions on LC3 II levels would be equal to that of Figure 6.…”

Section: Discussionmentioning

confidence: 99%

Sphingolipid Storage Affects Autophagic Metabolism of the Amyloid Precursor Protein and Promotes Aβ Generation

Tamboli¹,

Hampel²,

Tiên³

et al. 2011

J. Neurosci.

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Section: Discussionmentioning

confidence: 99%

Sphingolipid Storage Affects Autophagic Metabolism of the Amyloid Precursor Protein and Promotes Aβ Generation

Tamboli¹,

Hampel²,

Tiên³

et al. 2011

J. Neurosci.

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“…This presents a significant problem for the OL since, to make the lipid-rich myelin layers during differentiation and maintain them during adult life, a large amount of cholesterol is required and cholesterol synthesis is an energy intensive process. While the OLs synthesize cholesterol de novo via 3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) mediated metabolism (Saher et al, 2005), the transfer of cholesterol from astrocyte to oligodendrocyte also contributes significantly, especially in aging when the levels of HMG-coA drop (Clement et al, 2009; Thelen et al, 2006). On top of the metabolic demands created by the production of cholesterol esters, the OLs also play a major role in providing trophic support for the neurons they interact with.…”

Section: The Aging Ol Is a Selective Target Of Global Oxidative Stmentioning

confidence: 99%

DNA damage in the oligodendrocyte lineage and its role in brain aging

Tse

Herrup

2017

Mechanisms of Ageing and Development

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Myelination is a recent evolutionary addition that significantly enhances the speed of transmission in the neural network. Even slight defects in myelin integrity impair performance and enhance the risk of neurological disorders. Indeed, myelin degeneration is an early and well-recognized neuropathology that is age associated, but appears before cognitive decline. Myelin is only formed by fully differentiated oligodendrocytes, but the entire oligodendrocyte lineage are clear targets of the altered chemistry of the aging brain. As in neurons, unrepaired DNA damage accumulates in the postmitotic oligodendrocyte genome during normal aging, and indeed may be one of the upstream causes of cellular aging - a fact well illustrated by myelin co-morbidity in premature aging syndromes arising from deficits in DNA repair enzymes. The clinical and experimental evidence from Alzheimer's disease, progeroid syndromes, ataxia-telangiectasia and other conditions strongly suggest that oligodendrocytes may in fact be uniquely vulnerable to oxidative DNA damage. If this damage remains unrepaired, as is increasingly true in the aging brain, myelin gene transcription and oligodendrocyte differentiation is impaired. Delineating the relationships between early myelin loss and DNA damage in brain aging will offer an additional dimension outside the neurocentric view of neurodegenerative disease.

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“…ROS levels may increase through several potential mechanisms in response to a decline in temperature. Decreases in temperature reduce membrane fluidity, which may interrupt electron transfer among components of the mitochondrial respiratory chain, increasing the rate of ROS formation (Clement et al, 2009;Clement et al, 2010). Membrane remodeling, which leads to an increase in levels of polyunsaturated fatty acids, restores membrane fluidity but may also promote ROS production (reviewed by Crockett, 2008).…”

Section: Signaling Molecules That Might Stimulate Changes In Mitochonmentioning

confidence: 99%

Mitochondrial biogenesis in cold-bodied fishes

O’Brien

2011

Journal of Experimental Biology

115

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SummaryMitochondrial biogenesis is induced in response to cold temperature in many organisms. The effect is particularly pronounced in ectotherms such as fishes, where acclimation to cold temperature increases mitochondrial density. Some polar fishes also have exceptionally high densities of mitochondria. The net effect of increasing mitochondrial density is threefold. First, it increases the concentration of aerobic metabolic enzymes per gram of tissue, maintaining ATP production. Second, it elevates the density of mitochondrial membrane phospholipids, enhancing rates of intracellular oxygen diffusion. Third, it reduces the diffusion distance for oxygen and metabolites between capillaries and mitochondria. Although cold-induced mitochondrial biogenesis has been well documented in fishes, little is known about the molecular pathway governing it. In mammals, the co-transcriptional activator peroxisome proliferator-activated receptor gamma coactivator 1 alpha (PGC-1) is thought to coordinate the three components of mitochondrial biogenesis: the synthesis of mitochondrial proteins, the synthesis of phospholipids and the replication of mitochondrial DNA. Some components of the mitochondrial biogenic pathway are conserved between fishes and mammals, yet the pathway appears more versatile in fishes. In some tissues of cold-acclimated fishes, the synthesis of mitochondrial proteins increases in the absence of an increase in phospholipids, whereas in some polar fishes, densities of mitochondrial phospholipids increase in the absence of an increase in proteins. The ability of cold-bodied fishes to fine-tune the mitochondrial biogenic pathway may allow them to modify mitochondrial characteristics to meet the specific needs of the cell, whether it is to increase ATP production or enhance oxygen diffusion.

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Adaptation of neuronal cells to chronic oxidative stress is associated with altered cholesterol and sphingolipid homeostasis and lysosomal function

Cited by 48 publications

References 53 publications

Sphingolipid Storage Affects Autophagic Metabolism of the Amyloid Precursor Protein and Promotes Aβ Generation

Sphingolipid Storage Affects Autophagic Metabolism of the Amyloid Precursor Protein and Promotes Aβ Generation

DNA damage in the oligodendrocyte lineage and its role in brain aging

Mitochondrial biogenesis in cold-bodied fishes

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