Notoginsenoside R1-Induced Neuronal Repair in Models of Alzheimer Disease Is Associated With an Alteration in Neuronal Hyperexcitability, Which Is Regulated by Nav.

Tao Hu,Yan-Bin Xiyang,Shi-Wen Chen,Min-Nan Lu,Wen-Wei Gao,Bo Chen,Jie Zhang,Xu-Yang Wang,Wen-Qi Liang,Rui Mao,Shan Li,Li Zhang,Shan-Shan Li,Wan-Hai Ding

doi:10.3389/fncel.2020.00280

Abstract

Alzheimer disease is characterized by a progressive cognitive deficit and may be associated with an aberrant hyperexcitability of the neuronal network. Notoginsenoside R1 (R1), a major activity ingredient from Panax notoginseng, has demonstrated favorable changes in neuronal plasticity and induced neuroprotective effects in brain injuries, resulting from various disorders, however, the underlying mechanisms are still not well understood. In the present study, we aimed to explore the possible neuroprotective effects induced by R1 in a mouse model of AD and the mechanisms underlying these effects. Treatment with R1 significantly improved learning and memory functions and redressed neuronal hyperexcitability in amyloid precursor protein/presenilin-1 mice by altering the numbers and/or distribution of the members of voltage-gated sodium channels (Nav). Moreover, we determined whether R1 contributed to the regulation of neuronal excitability in Aβ-42–injured cells. Results of our study demonstrated that treatment with R1 rescued Aβ1-42–induced injured neurons by increasing cell viability. R1-induced alleviation in neuronal hyperexcitability might be associated with reduced Navβ2 cleavage, which partially reversed the abnormal distribution of Nav1.1α. These results suggested that R1 played a vital role in the recovery of Aβ1-42–induced neuronal injury and hyperexcitability, which is regulated by Nav proteins. Therefore, R1 may be a promising candidate in the treatment of AD.

Highlights

Alzheimer disease (AD) is the most typical manifestation of dementia, and its incidence is increasing exponentially
The effects of R1 on the learning and memory functions of APP/PS1 mice were evaluated by using the novel object recognition (NOR) task and Marris Water Maze (MWM) test
There was no significant difference in the escape latency between 2-monthold APP/PS1 mice and 2-month-old WT mice

Summary

Introduction

Alzheimer disease (AD) is the most typical manifestation of dementia, and its incidence is increasing exponentially It is prevalent among the elderly and has affected 35 million people worldwide (Ghezzi et al, 2013). Panax notoginseng is a promising candidate for the management of AD, owing to the multiple types of active components present in this herb. This traditional Chinese herbal medicine is grown in Yunnan and has more than a 100-year history of use in the clinical treatment of a wide range of diseases in China (Ng, 2006; Guo et al, 2010; Kim, 2012). Recent studies have demonstrated that various ginsenosides contribute to PNS-induced neuroprotective effects in AD The neuroprotection induced by R1 associated with neuronal excitability seen in AD is still not clearly understood

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