Inhibition of GSK3β-mediated BACE1 expression reduces Alzheimer-associated phenotypes
Philip T.T. Ly, … , James Woodgett, Weihong Song
Philip T.T. Ly, … , James Woodgett, Weihong Song
Published December 3, 2012
Citation Information: J Clin Invest. 2013;123(1):224-235. https://doi.org/10.1172/JCI64516.
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Research Article Neuroscience

Inhibition of GSK3β-mediated BACE1 expression reduces Alzheimer-associated phenotypes

Abstract

Deposition of amyloid β protein (Aβ) to form neuritic plaques in the brain is the pathological hallmark of Alzheimer’s disease (AD). Aβ is generated from sequential cleavages of the β-amyloid precursor protein (APP) by the β- and γ-secretases, and β-site APP-cleaving enzyme 1 (BACE1) is the β-secretase essential for Aβ generation. Previous studies have indicated that glycogen synthase kinase 3 (GSK3) may play a role in APP processing by modulating γ-secretase activity, thereby facilitating Aβ production. There are two highly conserved isoforms of GSK3: GSK3α and GSK3β. We now report that specific inhibition of GSK3β, but not GSK3α, reduced BACE1-mediated cleavage of APP and Aβ production by decreasing BACE1 gene transcription and expression. The regulation of BACE1 gene expression by GSK3β was dependent on NF-κB signaling. Inhibition of GSK3 signaling markedly reduced Aβ deposition and neuritic plaque formation, and rescued memory deficits in the double transgenic AD model mice. These data provide evidence for regulation of BACE1 expression and AD pathogenesis by GSK3β and that inhibition of GSK3 signaling can reduce Aβ neuropathology and alleviate memory deficits in AD model mice. Our study suggests that interventions that specifically target the β-isoform of GSK3 may be a safe and effective approach for treating AD.

Authors

Philip T.T. Ly, Yili Wu, Haiyan Zou, Ruitao Wang, Weihui Zhou, Ayae Kinoshita, Mingming Zhang, Yi Yang, Fang Cai, James Woodgett, Weihong Song

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Figure 8

ARA improves memory deficits in AD transgenic mice.

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ARA improves memory deficits in AD transgenic mice. A Morris water maze ...
A Morris water maze test consists of 1 day of visible platform trials and 4 days of hidden platform trials, plus a probe trial 24 hours after the last hidden platform trial. Animal movement was tracked and recorded by ANY-maze tracking software. APP23/PS45 mice at 6 weeks were injected daily for 1 month with ARA or a vehicle solution and subjected to the Morris water maze test (n = 26 mice total, 14 ARA-treated and 12 sham-treated). (A) During the first day of visible platform tests, the ARA treated and control APP23/PS45 mice exhibited a similar latency to escape onto the visible platform. P > 0.05, Student’s t test. (B) The ARA-treated and control APP23/PS45 mice had similar swimming distances before escaping onto the visible platform in the visible platform test. P > 0.05, Student’s t test. (C) In hidden platform tests, mice were trained with 5 trials per day for 4 days. ARA-treated APP23/PS45 mice showed a shorter latency to escape onto the hidden platform on the third and fourth days. *P < 0.05, Tukey’s post hoc analysis. (D) The ARA-treated APP23/PS45 mice had a shorter swimming length before escaping onto the hidden platform on the third and fourth days. *P < 0.05, Tukey’s post hoc analysis. (E) In the probe trial on the sixth day, the ARA-treated APP23/PS45 mice traveled into the third quadrant, where the hidden platform was previously placed, significantly more times than controls. Values are expressed as mean ± SEM.*P < 0.05, Student’s t test.