Platycodin D and voluntary running synergistically ameliorate memory deficits in 5 × FAD mice via mediating neuromodulation and neuroinflammation.

IF 4.1 2区 医学 Q2 GERIATRICS & GERONTOLOGY Frontiers in Aging Neuroscience Pub Date : 2024-09-25 eCollection Date: 2024-01-01 DOI:10.3389/fnagi.2024.1451766
Junxin Liu, Jiahui Jiang, Chuantong He, Longjian Zhou, Yi Zhang, Shuai Zhao, Zhiyou Yang
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Abstract

Introduction: Alzheimer's disease (AD) is the leading cause of dementia, and currently, no effective treatments are available to reverse or halt its progression in clinical practice. Although a plethora of studies have highlighted the benefits of physical exercise in combating AD, elder individuals often have limited exercise capacity. Therefore, mild physical exercise and nutritional interventions represent potential strategies for preventing and mitigating neurodegenerative diseases. Our research, along with other studies, have demonstrated that platycodin D (PD) or its metabolite, platycodigenin, derived from the medicinal plant Platycodon grandiflorus, exerts neuroprotective effects against amyloid β (Aβ)-induced neuroinflammation. However, the combined effects of PD and physical exercise on alleviating AD have yet to be explored. The current study aimed to investigate whether combined therapy could synergistically ameliorate memory deficits and AD pathology in 5 × FAD mice.

Methods: Five-month-old 5 × FAD mice were randomly assigned to four groups, and received either PD (5 mg/kg/day, p.o.), voluntary running, or a combination of both for 47 days. Nest building test, locomotion test, and Morris water maze test were used to evaluate the cognitive function. Immunohistochemical and ELISA analysis was performed to determine Aβ build-up, microglia and astrocytes hyperactivation, and survival neurons in the hippocampus and perirhinal cortex. Real-time quantitative PCR analysis was used to assess the polarization of microglia and astrocytes. HPLC analysis was performed to measure monoamine neurotransmitters in the hippocampus.

Results and discussion: The combination of PD and voluntary running synergistically restored nest-building behavior, alleviated recognition and spatial memory deficits, and showed superior effects compared to monotherapy. In addition, the PD and voluntary running combination reduced Aβ build-up, decreased hyperactivation of microglia and astrocytes in the hippocampus and perirhinal cortex, promoted the polarization of inflammatory M1 microglia and reactive astrocytes toward beneficial phenotypes, and lowered systemic circulating pro-inflammatory cytokines while increasing anti-inflammatory cytokines in 5 × FAD mice. Furthermore, combined therapy effectively protected neurons and increased levels of 5-hydroxytryptamine (5-HT) and dopamine (DA) in the hippocampus of 5 × FAD mice. In conclusion, the combination of PD and voluntary running holds great potential as a treatment for AD, offering promise for delaying onset or progression of AD.

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通过介导神经调节和神经炎症,桔梗皂苷 D 和自主跑步可协同改善 5 × FAD 小鼠的记忆缺陷。
简介阿尔茨海默病(AD)是导致痴呆症的主要原因,目前临床上还没有有效的治疗方法来逆转或阻止其发展。尽管大量研究强调了体育锻炼对防治老年痴呆症的益处,但老年人的运动能力往往有限。因此,温和的体育锻炼和营养干预是预防和缓解神经退行性疾病的潜在策略。我们的研究和其他研究表明,从药用植物桔梗中提取的桔梗皂苷 D(PD)或其代谢物桔梗皂苷能对淀粉样β(Aβ)诱导的神经炎症产生神经保护作用。然而,PD和体育锻炼对缓解AD的联合作用还有待探索。本研究旨在探讨联合疗法能否协同改善5 × FAD小鼠的记忆缺陷和AD病理变化:方法:将五个月大的 5 × FAD 小鼠随机分为四组,分别接受 PD(5 毫克/千克/天,口服)、自愿跑步或两者联合治疗 47 天。筑巢试验、运动试验和莫里斯水迷宫试验用于评估小鼠的认知功能。免疫组化和酶联免疫吸附分析测定了海马和边缘皮层的Aβ堆积、小胶质细胞和星形胶质细胞过度激活以及存活神经元。实时定量 PCR 分析用于评估小胶质细胞和星形胶质细胞的极化。HPLC 分析用于测量海马中的单胺类神经递质:PD和自愿跑步的联合治疗协同恢复了筑巢行为,缓解了识别和空间记忆缺陷,与单药治疗相比显示出更优越的效果。此外,在 5 × FAD 小鼠中,PD 和自主跑步联合疗法减少了 Aβ 的积聚,降低了海马和周围皮层小胶质细胞和星形胶质细胞的过度激活,促进了炎性 M1 小胶质细胞和反应性星形胶质细胞向有益表型的极化,降低了全身循环促炎细胞因子,同时增加了抗炎细胞因子。此外,联合疗法还能有效保护神经元,并提高 5 × FAD 小鼠海马中 5- 羟色胺(5-HT)和多巴胺(DA)的水平。总之,将PD和自愿跑步结合起来治疗AD具有很大的潜力,有望延缓AD的发病或进展。
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来源期刊
Frontiers in Aging Neuroscience
Frontiers in Aging Neuroscience GERIATRICS & GERONTOLOGY-NEUROSCIENCES
CiteScore
6.30
自引率
8.30%
发文量
1426
期刊介绍: Frontiers in Aging Neuroscience is a leading journal in its field, publishing rigorously peer-reviewed research that advances our understanding of the mechanisms of Central Nervous System aging and age-related neural diseases. Specialty Chief Editor Thomas Wisniewski at the New York University School of Medicine is supported by an outstanding Editorial Board of international researchers. This multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics, clinicians and the public worldwide.
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