Polygala tenuifolia : a source for anti-Alzheimer’s disease drugs

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Abstract

Context: Alzheimer’s disease (AD) is a chronic neurodegenerative disease that originates from central nervous system lesions or recessions. Current estimates suggest that this disease affects over 35 million people worldwide. However, lacking effective drugs is the biggest handicap in treating AD. In traditional Chinese medicine (TCM), Polygala tenuifolia Willd. (Polygalaceae) is generally used to treat insomnia, memory dysfunction and neurasthenia.

Objective: This review article explores the role of P. tenuifolia and its active components in anti-Alzheimer’s disease.

Methods: Literature for the last ten years was obtained through a search on PubMed, SciFinder, CNKI, Google Scholar, Web of Science, Science Direct and China Knowledge Resource Integrated with the following keywords: Polygala tenuifolia, polygalasaponin XXXII (PGS 32), tenuifolin, polygalacic acid, senegenin, tenuigenin, Alzheimer’s disease.

Results: Polygala tenuifolia and its active components have multiplex neuroprotective potential associated with AD, such as anti-A β aggregation, anti-Tau protein, anti-inflammation, antioxidant, anti-neuronal apoptosis, enhancing central cholinergic system and promote neuronal proliferation.

Conclusions: Polygala tenuifolia and its active components exhibit multiple neuroprotective effects. Hence, P. tenuifolia is a potential drug against Alzheimer’s disease, especially in terms of prevention.

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Most cited references 60

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Since the purification of BDNF in 1982, a great deal of evidence has mounted for its central roles in brain development, physiology, and pathology. Aside from its importance in neural development and cell survival, BDNF appears essential to molecular mechanisms of synaptic plasticity. Basic activity-related changes in the central nervous system are thought to depend on BDNF modification of synaptic transmission, especially in the hippocampus and neocortex. Pathologic levels of BDNF-dependent synaptic plasticity may contribute to conditions such as epilepsy and chronic pain sensitization, whereas application of the trophic properties of BDNF may lead to novel therapeutic options in neurodegenerative diseases and perhaps even in neuropsychiatric disorders.

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Mitochondrial defects and oxidative stress in Alzheimer disease and Parkinson disease.

Michael H Yan, Xinglong Wang, Xiongwei Zhu (2013)

Alzheimer disease (AD) and Parkinson disease (PD) are the two most common age-related neurodegenerative diseases characterized by prominent neurodegeneration in selective neural systems. Although a small fraction of AD and PD cases exhibit evidence of heritability, among which many genes have been identified, the majority are sporadic without known causes. Molecular mechanisms underlying neurodegeneration and pathogenesis of these diseases remain elusive. Convincing evidence demonstrates oxidative stress as a prominent feature in AD and PD and links oxidative stress to the development of neuronal death and neural dysfunction, which suggests a key pathogenic role for oxidative stress in both AD and PD. Notably, mitochondrial dysfunction is also a prominent feature in these diseases, which is likely to be of critical importance in the genesis and amplification of reactive oxygen species and the pathophysiology of these diseases. In this review, we focus on changes in mitochondrial DNA and mitochondrial dynamics, two aspects critical to the maintenance of mitochondrial homeostasis and function, in relationship with oxidative stress in the pathogenesis of AD and PD. Copyright © 2012 Elsevier Inc. All rights reserved.

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Robert Friedlander (2003)

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Author and article information

Journal

Journal ID (nlm-ta): Pharm Biol

Journal ID (iso-abbrev): Pharm Biol

Journal ID (publisher-id): IPHB

Journal ID (publisher-id): iphb20

Title: Pharmaceutical Biology

Publisher: Taylor & Francis

ISSN (Print): 1388-0209

ISSN (Electronic): 1744-5116

Publication date Collection: 2020

Publication date (Electronic): 19 May 2020

Volume: 58

Issue: 1

Pages: 410-416

Affiliations

[a ]Ningxia Medical University Pharmacy College, Key Laboratory of Hui Ethnic Medicine Modernization, Ministry of Education, Ningxia Research Center of Modern Hui Medicine Engineering and Technology , Yinchuan, P. R. China;

[b ]College of Basic Medical Sciences, Jilin University , Changchun, Jilin, P. R. China;

[c ]Key Laboratory of Carcinogenesis and Translational Research (Ministry of Education), Department of Integration of Chinese and Western Medicine, Peking University Cancer Hospital and Institute , Beijing, P. R. China

Author notes

[*]

These authors contributed equally to this paper.

CONTACT Changcai Bai changcaibai@ 123456163.com ;

Shuyan Han shuyanhan@ 123456bjmu.edu.cn

Article

Publisher ID: 1758732

DOI: 10.1080/13880209.2020.1758732

PMC ID: 7301717

PubMed ID: 32429787

SO-VID: 15cb532d-9650-4434-a3e8-5c9e39325437

License:

This is an Open Access article distributed under the terms of the Creative Commons Attribution License ( http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

History

Date received : 07 November 2019

Date revision received : 26 March 2020

Date accepted : 16 April 2020

Page count

Figures: 2, Tables: 1, Pages: 7, Words: 5360

Funding

Funded by: National Natural Science Foundation of China

Award ID: 81860755

Award ID: 21606137

Funded by: Key Research and Development Programme of Ningxia

Award ID: 2018BFH02001

Award ID: 2018BFH03023

Funded by: Ningxia University’s First-Class Subject (Traditional Chinese Medicine) Construction Project

Award ID: NXYLXK2017A06

This study was supported by the National Natural Science Foundation of China [grant number. 81860755, 21606137], the Key Research and Development Programme of Ningxia [grant number: 2018BFH02001 and 2018BFH03023], Ningxia University’s First-Class Subject (Traditional Chinese Medicine) Construction Project [grant number: NXYLXK2017A06].

Polygala tenuifolia: a source for anti-Alzheimer’s disease drugs

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Most cited references 60

Brain-derived neurotrophic factor.

Mitochondrial defects and oxidative stress in Alzheimer disease and Parkinson disease.

Apoptosis and caspases in neurodegenerative diseases.

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