生物
神经科学
新皮层
刺激
海马结构
视皮层
前额叶皮质
感觉系统
感觉皮层
认知
作者
Anthony J. Martorell,Abigail L. Paulson,Ho-Jun Suk,Fatema Abdurrob,Gabrielle T Drummond,Webster Guan,Jennie Z. Young,David Nam-Woo Kim,Oleg Kritskiy,Scarlett J. Barker,Vamsi Mangena,Stephanie M. Prince,Emery N. Brown,Kwanghun Chung,Edward S. Boyden,Annabelle C. Singer,Li-Huei Tsai
出处
期刊:Cell
[Cell Press]
日期:2019-03-14
卷期号:177 (2): 256-271.e22
被引量:762
标识
DOI:10.1016/j.cell.2019.02.014
摘要
We previously reported that inducing gamma oscillations with a non-invasive light flicker (gamma entrainment using sensory stimulus or GENUS) impacted pathology in the visual cortex of Alzheimer's disease mouse models. Here, we designed auditory tone stimulation that drove gamma frequency neural activity in auditory cortex (AC) and hippocampal CA1. Seven days of auditory GENUS improved spatial and recognition memory and reduced amyloid in AC and hippocampus of 5XFAD mice. Changes in activation responses were evident in microglia, astrocytes, and vasculature. Auditory GENUS also reduced phosphorylated tau in the P301S tauopathy model. Furthermore, combined auditory and visual GENUS, but not either alone, produced microglial-clustering responses, and decreased amyloid in medial prefrontal cortex. Whole brain analysis using SHIELD revealed widespread reduction of amyloid plaques throughout neocortex after multi-sensory GENUS. Thus, GENUS can be achieved through multiple sensory modalities with wide-ranging effects across multiple brain areas to improve cognitive function.
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