USP25 inhibition ameliorates Alzheimer’s pathology through the regulation of APP processing and Aβ generation
Qiuyang Zheng, Beibei Song, Guilin Li, Fang Cai, Meiling Wu, Yingjun Zhao, LuLin Jiang, Tiantian Guo, Mingyu Shen, Huan Hou, Ying Zhou, Yini Zhao, Anjie Di, Lishan Zhang, Fanwei Zeng, Xiu-Fang Zhang, Hong Luo, Xian Zhang, Hongfeng Zhang, Zhiping Zeng, Timothy Y. Huang, Chen Dong, Hong Qing, Yun Zhang, Qing Zhang, Xu Wang, Yili Wu, Huaxi Xu, Weihong Song, Xin Wang
Qiuyang Zheng, Beibei Song, Guilin Li, Fang Cai, Meiling Wu, Yingjun Zhao, LuLin Jiang, Tiantian Guo, Mingyu Shen, Huan Hou, Ying Zhou, Yini Zhao, Anjie Di, Lishan Zhang, Fanwei Zeng, Xiu-Fang Zhang, Hong Luo, Xian Zhang, Hongfeng Zhang, Zhiping Zeng, Timothy Y. Huang, Chen Dong, Hong Qing, Yun Zhang, Qing Zhang, Xu Wang, Yili Wu, Huaxi Xu, Weihong Song, Xin Wang
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Research Article Neuroscience

USP25 inhibition ameliorates Alzheimer’s pathology through the regulation of APP processing and Aβ generation

Abstract

Down syndrome (DS), or trisomy 21, is one of the critical risk factors for early-onset Alzheimer’s disease (AD), implicating key roles for chromosome 21–encoded genes in the pathogenesis of AD. We previously identified a role for the deubiquitinase USP25, encoded on chromosome 21, in regulating microglial homeostasis in the AD brain; however, whether USP25 affects amyloid pathology remains unknown. Here, by crossing 5×FAD AD and Dp16 DS mice, we observed that trisomy 21 exacerbated amyloid pathology in the 5×FAD brain. Moreover, bacterial artificial chromosome (BAC) transgene–mediated USP25 overexpression increased amyloid deposition in the 5×FAD mouse brain, whereas genetic deletion of Usp25 reduced amyloid deposition. Furthermore, our results demonstrate that USP25 promoted β cleavage of APP and Aβ generation by reducing the ubiquitination and lysosomal degradation of both APP and BACE1. Importantly, pharmacological inhibition of USP25 ameliorated amyloid pathology in the 5×FAD mouse brain. In summary, we identified the DS-related gene USP25 as a critical regulator of AD pathology, and our data suggest that USP25 serves as a potential pharmacological target for AD drug development.

Authors

Qiuyang Zheng, Beibei Song, Guilin Li, Fang Cai, Meiling Wu, Yingjun Zhao, LuLin Jiang, Tiantian Guo, Mingyu Shen, Huan Hou, Ying Zhou, Yini Zhao, Anjie Di, Lishan Zhang, Fanwei Zeng, Xiu-Fang Zhang, Hong Luo, Xian Zhang, Hongfeng Zhang, Zhiping Zeng, Timothy Y. Huang, Chen Dong, Hong Qing, Yun Zhang, Qing Zhang, Xu Wang, Yili Wu, Huaxi Xu, Weihong Song, Xin Wang

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Figure 6

Overexpression of USP25 facilitates sorting of BACE1 into the Golgi apparatus.

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Overexpression of USP25 facilitates sorting of BACE1 into the Golgi appa...
(A) Fractions from a 10%~50% sucrose density gradient were collected and concentrated by TCA precipitation and then subjected to immunoblot analysis. GOLPH4 was used as a Golgi marker. (B and C) Cell surface expression of BACE1-myc in HEK293 cells upon USP25a-myc overexpression was determined by surface biotinylation assay. Na+/K+ ATPase, a plasma membrane protein, was used as the internal control. Values are shown in kDa in A and B. TL, total lysate. n = 3 per group. (DG) Immunofluorescence staining and colocalization analysis of APP-EGFP and BACE1-HA with RCAS1-positive Golgi in HeLa cells overexpressing USP25a-Flag or control vector. Scale bar: 10 μm. n = 43 (vector), n = 41 (USP25a-Flag). Data are presented as mean ± SEM (C) or median with minimum to maximum bars (EG). P values were determined by Student’s t test in C and by the Mann-Whitney test in EG. ***P < 0.001; ****P < 0.0001.