Rejuvenation of peripheral immune cells attenuates Alzheimer's disease-like pathologies and behavioral deficits in a mouse model.

Pu-Yang Sun,Pu-Yang Sun,Zhi-Hao Liu,Jian-Ni Hu,Xian-Le Bu,Xian-Le Bu,Xian-Le Bu,Yu-Hui Liu,Yu-Hui Liu,Yu-Hui Liu,Si-Han Chen,Si-Han Chen,Si-Han Chen,Qiu Jiang,Qiu Jiang,Gui-Hua Zeng,Gui-Hua Zeng,Zhi-Hao Liu,Hao-Lun Sun,Hao-Lun Sun,Zhong-Yuan Yu,Jun Wang,Jun Wang,Jie Liu,Jie Liu,Yan-Jiang Wang,Yan-Jiang Wang,Yan-Jiang Wang,Yan-Jiang Wang,Yan-Jiang Wang,An-Yu Shi,Cheng-Rong Tan,Yun-Feng Tu,Yun-Feng Tu,An-Yu Shi,Jia-Yan Xin,Zhong-Yuan Yu,Jia-Yan Xin,Cheng-Rong Tan,Yu-Juan Jia,Yu-Juan Jia,Hao-Lun Sun,Jian-Ni Hu

doi:10.1126/sciadv.adl1123

Abstract

Immunosenescence contributes to systematic aging and plays a role in the pathogenesis of Alzheimer's disease (AD). Therefore, the objective of this study was to investigate the potential of immune rejuvenation as a therapeutic strategy for AD. To achieve this, the immune systems of aged APP/PS1 mice were rejuvenated through young bone marrow transplantation (BMT). Single-cell RNA sequencing revealed that young BMT restored the expression of aging- and AD-related genes in multiple cell types within blood immune cells. The level of circulating senescence-associated secretory phenotype proteins was decreased following young BMT. Notably, young BMT resulted in a significant reduction in cerebral Aβ plaque burden, neuronal degeneration, neuroinflammation, and improvement of behavioral deficits in aged APP/PS1 mice. The ameliorated cerebral amyloidosis was associated with an enhanced Aβ clearance of peripheral monocytes. In conclusion, our study provides evidence that immune system rejuvenation represents a promising therapeutic approach for AD.

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