Trimethylamine N-oxide aggravated cognitive impairment from APP/PS1 mice and protective roles of voluntary exercise

IF 4.4 3区 医学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Neurochemistry international Pub Date : 2023-01-01 DOI:10.1016/j.neuint.2022.105459
Ying Zhang , Guiping Wang , Rui Li , Ruitong Liu , Zengli Yu , Zengli Zhang , Zhongxiao Wan
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引用次数: 1

Abstract

To determine whether trimethylamine N-oxide (TMAO) would aggravate cognitive dysfunction from APP/PS1 mice and the potential protective effects of voluntary wheel running (VWR). TMAO impaired learning and memory abilities, and exercise reversed TMAO induced cognitive impairment. Serum TMAO, choline, betaine and TMA were significantly elevated from TMAO group, while exercise group had decreased TMAO, betaine and TMA level. TMAO group has significantly upregulated BACE1 from both hippocampus and cortex, also increased cathepsin B, p-Tau at Ser396&Ser404, GFAP, p-NF-κB p65 in cortex, while reduced BDNF, synaptophysin and PSD95 in hippocampus, also reduced occludin and ZO-1 from cortex, and reduced occludin from colon. In contrast, BACE1 from both hippocampus and cortex, also cathepsin B and p-Tauser396 from cortex were reduced, BDNF, snaptophysin, and PSD95 from hippocampus, ZO-1 from cortex, and occludin from colon were elevated post exercise compared to TMAO group. Exercise elevated α diversity index of cecal content, and TMAO and exercise affected gut microbiota profiles differentially. In conclusion, TMAO led to gut microbiota dysbiosis, impaired gut-brain integrity, elevated neuroinflammation, Aβ pathology and tau phosphorylation, disordered synaptic function; and exercise could reverse TMAO induced cognitive dysfunction via improving the above markers. The potential deleterious effects of TMAO on cognitive function need to be validated in humans, also dosages of exercise for exerting neuroprotective effects against TMAO induced cognitive impairment.

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三甲胺n -氧化物加重APP/PS1小鼠认知功能障碍及自主运动的保护作用
目的:探讨三甲胺n -氧化物(TMAO)是否会加重APP/PS1小鼠的认知功能障碍,以及自主轮跑(VWR)的潜在保护作用。氧化三甲胺会损害学习和记忆能力,而运动可以逆转氧化三甲胺引起的认知障碍。血清TMAO、胆碱、甜菜碱、TMA较TMAO组显著升高,运动组TMAO、甜菜碱、TMA水平降低。TMAO组海马和皮质的BACE1均显著上调,皮质的cathepsin B、ser396和Ser404处的p-Tau、GFAP、p-NF-κB p65升高,海马的BDNF、synaptophysin和PSD95降低,皮质的occludin和ZO-1降低,结肠的occludin降低。相比之下,与TMAO组相比,运动后海马和皮质的BACE1、皮层的组织蛋白酶B和p-Tauser396减少,海马的BDNF、snaptophysin和PSD95、皮质的ZO-1和结肠的occludin升高。运动提高盲肠内容物α多样性指数,TMAO和运动对肠道微生物群的影响存在差异。综上所述,氧化三甲胺导致肠道菌群失调,肠-脑完整性受损,神经炎症升高,Aβ病理和tau磷酸化,突触功能紊乱;运动可以通过改善上述指标来逆转氧化三甲胺引起的认知功能障碍。氧化三甲胺对认知功能的潜在有害影响需要在人体中得到验证,锻炼剂量对氧化三甲胺引起的认知障碍发挥神经保护作用也需要在人体中得到验证。
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来源期刊
Neurochemistry international
Neurochemistry international 医学-神经科学
CiteScore
8.40
自引率
2.40%
发文量
128
审稿时长
37 days
期刊介绍: Neurochemistry International is devoted to the rapid publication of outstanding original articles and timely reviews in neurochemistry. Manuscripts on a broad range of topics will be considered, including molecular and cellular neurochemistry, neuropharmacology and genetic aspects of CNS function, neuroimmunology, metabolism as well as the neurochemistry of neurological and psychiatric disorders of the CNS.
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