Neuroprotective signaling mechanisms of telomerase in neuronal cells against oxidative stress

More people die from cardiovascular diseases (CVD) than from any other cause. Cardiovascular complications are thought to arise from enhanced levels of free radicals causing impaired “redox homeostasis,” which represents the interplay between oxidative stress (OS) and reductive stress (RS). In this review, we compile several experimental research findings that show sustained shifts towards OS will alter the homeostatic redox mechanism to cause cardiovascular complications, as well as findings that show a prolonged antioxidant state or RS can similarly lead to such cardiovascular complications. This experimental evidence is specifically focused on the role of glutathione, the most abundant antioxidant in the heart, in a redox homeostatic mechanism that has been shifted towards OS or RS. This may lead to impairment of cellular signaling mechanisms and elevated pools of proteotoxicity associated with cardiac dysfunction.

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Novel mechanism of increased Ca2+ release following oxidative stress in neuronal cells involves type 2 inositol-1,4,5-trisphosphate receptors

Neuroscience ◽

10.1016/j.neuroscience.2010.11.010 ◽

2011 ◽

Vol 175 ◽

pp. 281-291 ◽

Cited By ~ 27

Author(s):

S. Kaja ◽

R.S. Duncan ◽

S. Longoria ◽

J.D. Hilgenberg ◽

A.J. Payne ◽

...

Keyword(s):

Oxidative Stress ◽

Neuronal Cells ◽

Inositol 1,4,5 Trisphosphate

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Neuronal-specific function of hTim8a in Complex IV assembly provides insight into the molecular mechanism underlying Mohr-Tranebjærg syndrome

10.1101/725655 ◽

2019 ◽

Author(s):

Yilin Kang ◽

Alexander J. Anderson ◽

David P. De Souza ◽

Catherine S. Palmer ◽

Kenji M. Fujihara ◽

...

Keyword(s):

Oxidative Stress ◽

Neurodegenerative Disease ◽

Neuronal Cells ◽

Underlying Mechanism ◽

Copper Chaperone ◽

Intermembrane Space ◽

Specific Function ◽

Hydrophobic Membrane ◽

Complex Iv ◽

Enhanced Sensitivity

AbstractHuman Tim8a is a member of an intermembrane space chaperone network, known as the small TIM family, which transport hydrophobic membrane proteins through this compartment. Mutations in TIMM8A cause a neurodegenerative disease, Mohr-Tranebjærg syndrome (MTS), which is characterised by sensorineural hearing loss, dystonia and blindness. Nothing is known about the function of hTim8a in neuronal cells and consequently how lack of hTim8a leads to a neurodegenerative disease. We identified a novel cell-specific function of hTim8a in the assembly of Complex IV, which is mediated through a transient interaction with the copper chaperone COX17. Complex IV assembly defects in cells lacking hTim8a leads to oxidative stress and changes to key apoptotic regulators, including cytochrome c and Bax, which primes cells for cell death. Alleviation of oxidative stress using Vitamin E rescues cells from apoptotic vulnerability. We hypothesis that enhanced sensitivity of neuronal cells to apoptosis is the underlying mechanism of MTS.

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