Green Tea Epigallocatechin-3-Gallate Mediates T Cellular NF-κB Inhibition and Exerts Neuroprotection in Autoimmune Encephalomyelitis

Aktaş, Orhan; Prozorovski, Timour; Smorodchenko, Alina; Savaskan, Nicolai Ε.; Lauster, Roland; Kloetzel, Peter‐Michael; Infante-Duarte, Carmen; Brocke, Stefan; Zipp, Frauke

doi:10.4049/jimmunol.173.9.5794

Cited by 297 publications

(199 citation statements)

References 35 publications

(40 reference statements)

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“…Evidence for a pathogenic role of ROS in MS pathology has led to the employment of several antioxidant strategies in an effort to ameliorate EAE (293,300,301). With the acceptance of the possibility that active oxidative stress contributes to the disease process, there is increasing focus on developing therapies directed at upregulating antioxidant enzyme systems (302,303) or production of endogenous antioxidants (304).…”

Section: Role Of Oxidative Stress In Msmentioning

confidence: 99%

Oxidative Stress and Neurotoxicity

Sayre

Perry

Smith

2007

Chem. Res. Toxicol.

722

474

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There is increasing awareness of the ubiquitous role of oxidative stress in neurodegenerative disease states. A continuing challenge is to be able to distinguish between oxidative changes that occur early in the disease from those that are secondary manifestations of neuronal degeneration. This perspective highlights the role of oxidative stress in Alzheimer's, Parkinson's, and Huntington's diseases, amyotrophic lateral sclerosis, and multiple sclerosis, neurodegenerative and neuroinflammatory disorders where there is evidence for a primary contribution of oxidative stress in neuronal death, as opposed to other diseases where oxidative stress more likely plays a secondary or by-stander role. We begin with a brief review of the biochemistry of oxidative stress as it relates to mechanisms that lead to cell death, and why the central nervous system is particularly susceptible to such mechanisms. Following a review of oxidative stress involvement in individual disease states, some conclusions are provided as to what further research should hope to accomplish in the field.

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Section: Role Of Oxidative Stress In Msmentioning

confidence: 99%

Oxidative Stress and Neurotoxicity

Sayre

Perry

Smith

2007

Chem. Res. Toxicol.

722

474

View full text Add to dashboard Cite

show abstract

“…In support of this, recent animal studies have shown that green tea intake helps to prevent age-related cognitive deficits (Table 2), particularly after long-term administration of green tea (approximately 6 months), which was shown to positively influence memory and learning in both normally aged and senescence-accelerated animals (96,146,160) . Tea flavonoids have been reported to be potent Fe chelators, radical scavenging agents and to have antiinflammatory activities (161)(162)(163)(164)(165)(166) . In addition to these effects, recent studies have also indicated that they are capable of modulating signal transduction pathways and of regulating gene expression, and that these effects may also contribute to the neuroprotective effects of these compounds (29,167) .…”

Section: Green Teamentioning

confidence: 99%

Flavonoids as modulators of memory and learning: molecular interactions resulting in behavioural effects

Rendeiro

Guerreiro

et al. 2012

Proc. Nutr. Soc.

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There is considerable interest in the potential of a group of dietary-derived phytochemicals known as flavonoids in modulating neuronal function and thereby influencing memory, learning and cognitive function. The present review begins by detailing the molecular events that underlie the acquisition and consolidation of new memories in the brain in order to provide a critical background to understanding the impact of flavonoid-rich diets or pure flavonoids on memory. Data suggests that despite limited brain bioavailability, dietary supplementation with flavonoid-rich foods, such as blueberry, green tea and Ginkgo biloba lead to significant reversals of age-related deficits on spatial memory and learning. Furthermore, animal and cellular studies suggest that the mechanisms underpinning their ability to induce improvements in memory are linked to the potential of absorbed flavonoids and their metabolites to interact with and modulate critical signalling pathways, transcription factors and gene and/or protein expression which control memory and learning processes in the hippocampus; the brain structure where spatial learning occurs. Overall, current evidence suggests that human translation of these animal investigations are warranted, as are further studies, to better understand the precise cause-and-effect relationship between flavonoid intake and cognitive outputs. Flavonoids: Memory: Learning: HippocampusDiet is an important lifestyle factor, which in recent times has been investigated for its influence on cognitive function and the incidence and onset of neurodegenerative disorders (1,2) . It has long been known that a diet high in saturated fats negatively impacts on cognitive processing and increases the risk of neurological dysfunction in both animals and human subjects (3,4) , while energy restriction (reduction in approximately 30 % energy intake) protects the brain from injury (5,6) . Recently, significant evidence has emerged to indicate that phytochemical-rich foods, and in particular those rich in flavonoids, may reverse agerelated deficits in cognitive function in both animals and human subjects (7)(8)(9) . For example, the PAQUID prospective study examined cognitive performance in 1640 subjects (aged at least 65 years and cognitively normal at baseline) on four occasions over a 10-year-period and found that flavonoid-intake was associated with a significantly better cognitive performance over time (7) (P = 0 . 046). Furthermore, a cross-sectional study examining the relationship between the intake of three common flavonoid-containing foods (chocolate, wine and tea) and cognitive performance in elderly individuals revealed that there was a dose-dependent, positive relationship between the intake of these foods and performance on multiple cognitive outcomes (Kendrick Object Learning Test, Digit Symbol Test, Block Design, Mini-Mental State Examination and Controlled Oral Word Association Test) (10) . More recently, the consumption of dietary flavonoids, especially

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“…Neuroprotection as a Therapeutic Target for MS. Neural damage in MS could be directly due to inflammation (43) or result from loss of trophic support normally provided to axons by myelin or glia. Consequently, neuroprotection is considered a novel target for MS, and different drugs and molecules, including statins, green tea epigallocatechin-3-gallate, and erythropoietin (44)(45)(46), have been indicated as effective in experimental models of the disease. Here, we indicate that chronic administration of selective acetylcholinesterase inhibitors that are approved for AD treatment, at a dosage effective in increasing acetylcholine release in the hippocampus and cortex of aged rats (21), restores ChaT activity and performance in the water maze test in EAE rats.…”

Section: Cns Inflammation and The Cholinergic System Of The Basal Formentioning

confidence: 99%

Cognitive deficit associated with cholinergic and nerve growth factor down-regulation in experimental allergic encephalomyelitis in rats

D’Intino

Paradisi

Fernández

et al. 2005

Proc. Natl. Acad. Sci. U.S.A.

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Clinical symptoms in multiple sclerosis include cognitive dysfunction. Difficulties in learning and remembering new information represent the most common cognitive deficit and are associated with a general and progressive brain pathology. Possible pathogenetic mechanisms for neuronal damage such as neuroprotective strategies are under active investigation also in experimental allergic encephalomyelitis, the most widely used experimental model for multiple sclerosis. In this paper we demonstrate that a selective deficit in learning and memory performance, as investigated by the Morris water maze test, is a consistent feature in rat encephalomyelitis, which correlates with a decline in choline acetyltransferase activity and nerve growth factor mRNA level in cerebral cortex, hippocampus, and basal forebrain. Treatment aimed to restore acetylcholine content through chronic administration of selective acetylcholinesterase inhibitors (rivastigmine and donepezil) restores cognitive performance, choline acetyltransferase activity, and nerve growth factor mRNA expression.choline acetyltransferase ͉ multiple sclerosis ͉ learning and memory ͉ water maze ͉ acetylcholinesterase inhibitors

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Green Tea Epigallocatechin-3-Gallate Mediates T Cellular NF-κB Inhibition and Exerts Neuroprotection in Autoimmune Encephalomyelitis

Cited by 297 publications

References 35 publications

Oxidative Stress and Neurotoxicity

Oxidative Stress and Neurotoxicity

Flavonoids as modulators of memory and learning: molecular interactions resulting in behavioural effects

Cognitive deficit associated with cholinergic and nerve growth factor down-regulation in experimental allergic encephalomyelitis in rats

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