The Role of Epigallocatechin-3-Gallate in Autophagy and Endoplasmic Reticulum Stress (ERS)-Induced Apoptosis of Human Diseases

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Abstract

Tea containing abundant catechins is a popular non-alcoholic beverage worldwide. Epigallocatechin-3-gallate (EGCG) is the predominately active substance in catechins, exhibiting a wide range of functional properties including cancer suppression, neuroprotective, metabolic regulation, cardiovascular protection, stress adjustment, and antioxidant in various diseases. Autophagy, a basic cell function, participates in various physiological processes which include clearing away abnormally folded proteins and damaged organelles, and regulating growth. EGCG not only regulates autophagy via increasing Beclin-1 expression and reactive oxygen species generation, but also causing LC3 transition and decreasing p62 expression. EGCG-induced autophagy is involved in the occurrence and development of many human diseases, including cancer, neurological diseases, diabetes, cardiovascular diseases, and injury. Apoptosis is a common cell function in biology and is induced by endoplasmic reticulum stress (ERS) as a cellular stress response which is caused by various internal and external factors. ERS-induced apoptosis of EGCG influences cell survival and death in various diseases via regulating IRE1, ATF6, and PERK signaling pathways, and activating GRP78 and caspase proteins. The present manuscript reviews that the effect of EGCG in autophagy and ERS-induced apoptosis of human diseases.

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ER stress-induced cell death mechanisms.

Renata Sano, John C. Reed (2013)

The endoplasmic-reticulum (ER) stress response constitutes a cellular process that is triggered by a variety of conditions that disturb folding of proteins in the ER. Eukaryotic cells have developed an evolutionarily conserved adaptive mechanism, the unfolded protein response (UPR), which aims to clear unfolded proteins and restore ER homeostasis. In cases where ER stress cannot be reversed, cellular functions deteriorate, often leading to cell death. Accumulating evidence implicates ER stress-induced cellular dysfunction and cell death as major contributors to many diseases, making modulators of ER stress pathways potentially attractive targets for therapeutics discovery. Here, we summarize recent advances in understanding the diversity of molecular mechanisms that govern ER stress signaling in health and disease. This article is part of a Special Section entitled: Cell Death Pathways. © 2013.

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Impact of Dietary Polyphenols on Carbohydrate Metabolism

Kati Hanhineva, Riitta Törrönen, Isabel Bondia-Pons … (2010)

Polyphenols, including flavonoids, phenolic acids, proanthocyanidins and resveratrol, are a large and heterogeneous group of phytochemicals in plant-based foods, such as tea, coffee, wine, cocoa, cereal grains, soy, fruits and berries. Growing evidence indicates that various dietary polyphenols may influence carbohydrate metabolism at many levels. In animal models and a limited number of human studies carried out so far, polyphenols and foods or beverages rich in polyphenols have attenuated postprandial glycemic responses and fasting hyperglycemia, and improved acute insulin secretion and insulin sensitivity. The possible mechanisms include inhibition of carbohydrate digestion and glucose absorption in the intestine, stimulation of insulin secretion from the pancreatic β–cells, modulation of glucose release from the liver, activation of insulin receptors and glucose uptake in the insulin-sensitive tissues, and modulation of intracellular signalling pathways and gene expression. The positive effects of polyphenols on glucose homeostasis observed in a large number of in vitro and animal models are supported by epidemiological evidence on polyphenol-rich diets. To confirm the implications of polyphenol consumption for prevention of insulin resistance, metabolic syndrome and eventually type 2 diabetes, human trials with well-defined diets, controlled study designs and clinically relevant end-points together with holistic approaches e.g., systems biology profiling technologies are needed.

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Alpha-synuclein: Pathology, mitochondrial dysfunction and neuroinflammation in Parkinson’s disease

Emily M Rocha, Briana De Miranda, Laurie Sanders (2018)

Parkinson's disease (PD) is a complex, chronic and progressive neurodegenerative disease. While the etiology of PD is likely multifactorial, the protein α-synuclein is a central component to the pathogenesis of the disease. However, the mechanism by which α-synuclein causes toxicity and contributes to neuronal death remains unclear. Mitochondrial dysfunction is also widely considered to play a major role in the underlying mechanisms contributing to neurodegeneration in PD. This review discusses evidence for the neuropathological role for α-synuclein in the dysfunction of dopamine neurons in PD. We also discuss insights into the structure, localization, and cellular roles for α-synuclein that may influence its aggregation properties, ultimately impacting its pathogenicity, role in lysosomal dysfunction and activation of the neuroimmune response. We further highlight recent evidence linking α-synuclein and mitochondrial dysfunction in neurodegeneration. Identifying the underlying mechanisms responsible for this bi-directional relationship between α-synuclein and mitochondrial dysfunction may provide new insights into the pathophysiology of PD.

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Author and article information

Journal

Journal ID (nlm-ta): Med Sci Monit

Journal ID (iso-abbrev): Med. Sci. Monit

Journal ID (publisher-id): Medical Science Monitor

Title: Medical Science Monitor : International Medical Journal of Experimental and Clinical Research

Publisher: International Scientific Literature, Inc.

ISSN (Print): 1234-1010

ISSN (Electronic): 1643-3750

Publication date Collection: 2020

Publication date (Electronic): 10 September 2020

Publication date (Electronic preprint): 15 July 2020

Volume: 26

Pages: e924558-1-e924558-12

Affiliations

[1 ]Department of Dermatology, Shanghai Xuhui District Central Hospital, Shanghai, P.R. China

[2 ]Department of Dermatology, Jinshan Hospital of Fudan University, Shanghai, P.R. China

[3 ]Department of Dermatology, Shanghai Eighth People’s Hospital, Shanghai, P.R. China

Author notes

Corresponding Author: Fang Fang, e-mail: fht291@ 123456sina.com

[A]

Study Design

[B]

Data Collection

[C]

Statistical Analysis

[D]

Data Interpretation

[E]

Manuscript Preparation

[F]

Literature Search

[G]

Funds Collection

[*]

Shuangshuang Zhang and Mengke Cao contributed equally to this work

Article

Publisher ID: 924558

DOI: 10.12659/MSM.924558

PMC ID: 7504867

PubMed ID: 32952149

SO-VID: 907fe1a4-f02e-462b-9c28-3771448a53bd

License:

This work is licensed under Creative Common Attribution-NonCommercial-NoDerivatives 4.0 International ( CC BY-NC-ND 4.0)

The Role of Epigallocatechin-3-Gallate in Autophagy and Endoplasmic Reticulum Stress (ERS)-Induced Apoptosis of Human Diseases

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Genes & Diseases

Most cited references 90

ER stress-induced cell death mechanisms.

Impact of Dietary Polyphenols on Carbohydrate Metabolism

Alpha-synuclein: Pathology, mitochondrial dysfunction and neuroinflammation in Parkinson’s disease

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