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W2581457142 startingPage "2449" @default.
W2581457142 abstract "Tau pathology was recently identified as a key driver of disease progression and an attractive therapeutic target in Alzheimer's disease (AD). Selenomethionine (Se-Met), a major bioactive form of selenium (Se) in organisms with significant antioxidant capacity, reduced the levels of total tau and hyperphosphorylated tau and ameliorated cognitive deficits in younger triple transgenic AD (3xTg-AD) mice. Whether Se-Met has a similar effect on tau pathology and the specific mechanism of action in older 3xTg-AD mice remains unknown. Autophagy is a major self-degradative process to maintain cellular homeostasis and function. Autophagic dysfunction has been implicated in the pathogenesis of multiple age-dependent diseases, including AD. Modulation of autophagy has been shown to retard the accumulation of misfolded and aggregated proteins and to delay the progression of AD. Here, we found that 3xTg-AD mice showed significant improvement in cognitive ability after a 3-month treatment with Se-Met beginning at 8 months of age. In addition to attenuating the hyperphosphorylation of tau by modulating the activity of Akt/glycogen synthase kinase-3β and protein phosphatase 2A, Se-Met-induced reduction of tau was also mediated by an autophagy-based pathway. Specifically, Se-Met improved the initiation of autophagy via the AMP-activated protein kinase-mTOR (mammalian target of rapamycin) signaling pathway and enhanced autophagic flux to promote the clearance of tau in 3xTg-AD mice and primary 3xTg neurons. Thus, our results demonstrate for the first time that Se-Met mitigates cognitive decline by targeting both the hyperphosphorylation of tau and the autophagic clearance of tau in AD mice. These data strongly support Se-Met as a potent nutraceutical for AD therapy.SIGNIFICANCE STATEMENT Selenium has been widely recognized as a vital trace element abundant in the brain with effects of antioxidant, anticancer, and anti-inflammation. In this study, we report that selenomethionine rescues spatial learning and memory impairments in aged 3xTg-AD mice via decreasing the level of tau protein and tau hyperphosphorylation. We find that selenomethionine promotes the initiation of autophagy via the AMPK-mTOR pathway and enhances autophagic flux, thereby facilitating tau clearance in vivo and in vitro We have now identified an additional, novel mechanism by which selenomethionine improves the cognitive function of AD mice. Specifically, our data suggest the effect of selenium/selenomethionine on an autophagic pathway in Alzheimer's disease." @default.
W2581457142 created "2017-02-03" @default.
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W2581457142 date "2017-01-30" @default.
W2581457142 modified "2023-10-11" @default.
W2581457142 title "Selenomethionine Mitigates Cognitive Decline by Targeting Both Tau Hyperphosphorylation and Autophagic Clearance in an Alzheimer's Disease Mouse Model" @default.
W2581457142 cites W1515328725 @default.
W2581457142 cites W1523693806 @default.
W2581457142 cites W1548370718 @default.
W2581457142 cites W1550794020 @default.
W2581457142 cites W1562146500 @default.
W2581457142 cites W1581594616 @default.
W2581457142 cites W1755998818 @default.
W2581457142 cites W1808915668 @default.
W2581457142 cites W1909179305 @default.
W2581457142 cites W1927347955 @default.
W2581457142 cites W1944215271 @default.
W2581457142 cites W1967464880 @default.
W2581457142 cites W1968937229 @default.
W2581457142 cites W1974679183 @default.
W2581457142 cites W1977002082 @default.
W2581457142 cites W1980912292 @default.
W2581457142 cites W1985046929 @default.
W2581457142 cites W1986809727 @default.
W2581457142 cites W1990423035 @default.
W2581457142 cites W1992935533 @default.
W2581457142 cites W1994823455 @default.
W2581457142 cites W1995144868 @default.
W2581457142 cites W2000303735 @default.
W2581457142 cites W2000620451 @default.
W2581457142 cites W2003407164 @default.
W2581457142 cites W2005375686 @default.
W2581457142 cites W2015581677 @default.
W2581457142 cites W2017026767 @default.
W2581457142 cites W2018400498 @default.
W2581457142 cites W2022812113 @default.
W2581457142 cites W2023926705 @default.
W2581457142 cites W2025665129 @default.
W2581457142 cites W2026077861 @default.
W2581457142 cites W2030602441 @default.
W2581457142 cites W2032578573 @default.
W2581457142 cites W2034286717 @default.
W2581457142 cites W2038391346 @default.
W2581457142 cites W2041497362 @default.
W2581457142 cites W2048860529 @default.
W2581457142 cites W2049599293 @default.
W2581457142 cites W2050644696 @default.
W2581457142 cites W2058570072 @default.
W2581457142 cites W2059005775 @default.
W2581457142 cites W2059124041 @default.
W2581457142 cites W2060046173 @default.
W2581457142 cites W2064038516 @default.
W2581457142 cites W2064244929 @default.
W2581457142 cites W2067692987 @default.
W2581457142 cites W2071466153 @default.
W2581457142 cites W2079766520 @default.
W2581457142 cites W2080666854 @default.
W2581457142 cites W2081003067 @default.
W2581457142 cites W2082377604 @default.
W2581457142 cites W2082429191 @default.
W2581457142 cites W2085575254 @default.
W2581457142 cites W2088581544 @default.
W2581457142 cites W2090139505 @default.
W2581457142 cites W2093156514 @default.
W2581457142 cites W2093852116 @default.
W2581457142 cites W2103004596 @default.
W2581457142 cites W2108086395 @default.
W2581457142 cites W2111178021 @default.
W2581457142 cites W2112136536 @default.
W2581457142 cites W2117926331 @default.
W2581457142 cites W2119399459 @default.
W2581457142 cites W2125005234 @default.
W2581457142 cites W2128101513 @default.
W2581457142 cites W2135309154 @default.
W2581457142 cites W2141653500 @default.
W2581457142 cites W2142613641 @default.
W2581457142 cites W2150110395 @default.
W2581457142 cites W2151252981 @default.
W2581457142 cites W2163542660 @default.
W2581457142 cites W2185348657 @default.
W2581457142 cites W2257271597 @default.
W2581457142 cites W2342739937 @default.
W2581457142 cites W2409201813 @default.
W2581457142 cites W2602035017 @default.
W2581457142 cites W4210975612 @default.
W2581457142 doi "https://doi.org/10.1523/jneurosci.3229-16.2017" @default.
W2581457142 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/6596838" @default.
W2581457142 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/28137967" @default.
W2581457142 hasPublicationYear "2017" @default.
W2581457142 type Work @default.