The synthesized transporter K16APoE enabled the therapeutic HAYED peptide to cross the blood-brain barrier and remove excess iron and radicals in the brain, thus easing Alzheimer's disease

Authors :: Zhenyou Zou
Juanli Zhang
Lijun Xiong
Kewei Cai
Yao Yinning
Lingjia Kong
Yuding Jiang
Jing Liu
Jiawei Liang
Miaoyang Wang
Zhongmin Wu
Yingjie Lou
Hongdian Wang
Hong Lin
Kangjie Zhu
Tianjun Zhu
Yan Zhou
Qiqiong Shen
Xinhua Luo
Yanxia Pang
Dong Qianqian
Xinjuan Wang
Lunan Yan
Heng Liu
Zhaosheng Bao
Yongfeng Chen
Shuaibin Yuan
Li Li
Wei Wang
Yizi Li
Xin Li
Jianchao Wu
Source :: Drug delivery and translational research. 9(1)
Publication Year :: 2018
Abstract: Alzheimer's disease (AD) is currently incurable and places a large burden on the caregivers of AD patients. In the AD brain, iron is abundant, catalyzing free radicals and impairing neurons. The blood-brain barrier hampers antidementia drug delivery via circulation to the brain, which limits the therapeutic effects of drugs. Here, according to the method described by Gobinda, we synthesized a 16 lysine (K) residue-linked low-density lipoprotein receptor-related protein (LRP)-binding amino acid segment of apolipoprotein E (K16APoE). By mixing this protein with our designed therapeutic peptide HAYED, we successfully transported HAYED into an AD model mouse brain, and the peptide scavenged excess iron and radicals and decreased the necrosis of neurons, thus easing AD.

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