Reactive oxygen species in cell signaling

Thannickal, Victor J.; Fanburg, Barry L.

doi:10.1152/ajplung.2000.279.6.l1005

Cited by 2,437 publications

(1,775 citation statements)

References 299 publications

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“…Among the targets of hydrogen peroxide are the effectors of other signaling systems, namely, protein kinases and phosphatases (Thannickal and Fanburg, 2000;Wright and Kuhn, 2002). Zhu et al (2005) report that hydrogen peroxide alters membrane and cytoskeleton properties of astrocytes through the activation of p38 MAPK pathway.…”

Section: Discussionmentioning

confidence: 99%

Nanomicellar formulation of coenzyme Q10 (Ubisol-Q10) effectively blocks ongoing neurodegeneration in the mouse 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine model: potential use as an adjuvant treatment in Parkinson's disease

Sikorska

Lanthier

Miller

et al. 2014

Neurobiology of Aging

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Although the support for the use of antioxidants, such as coenzyme Q 10 (CoQ 10 ), to treat Parkinson's disease (PD) comes from the extensive scientific evidence, the results of conducted thus far clinical trials are inconclusive. It is assumed that the efficacy of CoQ 10 is hindered by insolubility, poor bioavailability, and lack of brain penetration. We have developed a nanomicellar formulation of CoQ 10 (Ubisol-Q 10 ) with improved properties, including the brain penetration, and tested its effectiveness in mouse MPTP (1-methyl-4-phenyl-1, 2, 3, 6-tetrahydropyridine) model with the objectives to assess its potential use as an adjuvant therapy for PD. We used a subchronic MPTP model (5-daily MPTP injections), characterized by 50% loss of dopamine neurons over a period of 28 days. Ubisol-Q 10 was delivered in drinking water. Prophylactic application of Ubisol-Q 10 , started 2 weeks before the MPTP exposure, significantly offset the neurotoxicity (approximately 50% neurons died in MPTP group vs. 17% in MPTP+ Ubisol-Q 10 group by day 28). Therapeutic application of Ubisol-Q 10 , given after the last MPTP injection, was equally effective. At the time of intervention on day 5 nearly 25% of dopamine neurons were already lost, but the treatment saved the remaining 25% of cells, which otherwise would have died by day 28. This was confirmed by cell counts, analyses of striatal dopamine levels, and improved animals' motor skill on a beam walk test. Similar levels of neuroprotection were obtained with 3 different Ubisol-Q 10 concentrations tested, that is, 30 mg, 6 mg, or 3 mg CoQ 10 /kg body weight/day, showing clearly that high doses of CoQ 10 were not required to deliver these effects. Furthermore, the Ubisol-Q 10 treatments brought about a robust astrocytic activation in the brain parenchyma, indicating that astroglia played an active role in this neuroprotection. Thus, we have shown for the first time that Ubisol-Q 10 was capable of halting the neurodegeneration already in progress;

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Section: Discussionmentioning

confidence: 99%

Nanomicellar formulation of coenzyme Q10 (Ubisol-Q10) effectively blocks ongoing neurodegeneration in the mouse 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine model: potential use as an adjuvant treatment in Parkinson's disease

Sikorska

Lanthier

Miller

et al. 2014

Neurobiology of Aging

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“…ROS, whether produced as a consequence of normal cell function or derived from external sources, elicit a wide spectrum of responses ranging from proliferation to growth arrest and cell death [25]. Low doses of ROS, particularly H 2 O 2 , are mitogenic and promote cell proliferation, while high doses result in either temporary or permanent growth arrest and ultimately cause cell death [26].…”

Section: Discussionmentioning

confidence: 99%

Oxidative stress stimulates IL‐4 and IL‐6 production in mast cells by an APE/Ref‐1‐dependent pathway

Frossi

Carli

Daniël³

et al. 2003

Eur J Immunol

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“…Production of oxidative species occurs under physiological conditions at a controlled rate, but it is dramatically increased in conditions of oxidative stress [1,2]. Free radicals have been implicated in the pathogenesis of at least 50 diseases.…”

Section: Introductionmentioning

confidence: 99%

Antioxidant Status and Oxidative Stress in the Circulation of Younger and Elderly Human Subjects

et al. 2012

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Extensive research has demonstrated the protective properties of antioxidants, which scavenge reactive oxygen species and their precursors, as well as up-regulate enzymes involved in the repair of cellular damage. Several case-control studies have showed higher blood levels of antioxidants and decreased oxidative stress in younger individuals when compared with older ones. Cell damage caused by free radicals appears to be a major contributor in aging and degenerative diseases of aging such as cancer, cardiovascular disease, cataracts, compromised immune system, rheumatoid arthritis and brain dysfunction. The objective of this study was to determine the variation of Circulating levels of selected antioxidants (enzymic and non enzymic) and oxidative stress marker in younger and older humans. The results showed that a majority of the younger age group participants showed a significant increase in enzymic and nonenzymic antioxidant status and a decrease in oxidative stress when compared with the older age group.

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Reactive oxygen species in cell signaling

Cited by 2,437 publications

References 299 publications

Nanomicellar formulation of coenzyme Q10 (Ubisol-Q10) effectively blocks ongoing neurodegeneration in the mouse 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine model: potential use as an adjuvant treatment in Parkinson's disease

Nanomicellar formulation of coenzyme Q10 (Ubisol-Q10) effectively blocks ongoing neurodegeneration in the mouse 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine model: potential use as an adjuvant treatment in Parkinson's disease

Oxidative stress stimulates IL‐4 and IL‐6 production in mast cells by an APE/Ref‐1‐dependent pathway

Antioxidant Status and Oxidative Stress in the Circulation of Younger and Elderly Human Subjects

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