作者
Maria Carmen Inda, Suhasini Joshi, Tai Wang, Alexander Bolaender, Srinivasa Gandu, John Koren III, Alicia Yue Che, Tony Taldone, Pengrong Yan, Weilin Sun, Mohammad Uddin, Palak Panchal, Matthew Riolo, Smit Shah, Afsar Barlas, Ke Xu, Lon Yin L Chan, Alexandra Gruzinova, Sarah Kishinevsky, Lorenz Studer, Valentina Fossati, Scott A Noggle, Julie R White, Elisa de Stanchina, Sonia Sequeira, Kyle H Anthoney, John W Steele, Katia Manova-Todorova, Sujata Patil, Mark P Dunphy, NagaVaraKishore Pillarsetty, Ana C Pereira, Hediye Erdjument-Bromage, Thomas A Neubert, Anna Rodina, Stephen D Ginsberg, Natalia De Marco Garcia, Wenjie Luo, Gabriela Chiosis
发表日期
2020/1/16
期刊
Nature Communications
卷号
11
期号
1
页码范围
319
出版商
Nature Publishing Group UK
简介
Optimal functioning of neuronal networks is critical to the complex cognitive processes of memory and executive function that deteriorate in Alzheimer’s disease (AD). Here we use cellular and animal models as well as human biospecimens to show that AD-related stressors mediate global disturbances in dynamic intra- and inter-neuronal networks through pathologic rewiring of the chaperome system into epichaperomes. These structures provide the backbone upon which proteome-wide connectivity, and in turn, protein networks become disturbed and ultimately dysfunctional. We introduce the term protein connectivity-based dysfunction (PCBD) to define this mechanism. Among most sensitive to PCBD are pathways with key roles in synaptic plasticity. We show at cellular and target organ levels that network connectivity and functional imbalances revert to normal levels upon epichaperome inhibition. In conclusion …
学术搜索中的文章
MC Inda, S Joshi, T Wang, A Bolaender, S Gandu… - Nature Communications, 2020