| 著者 |
Chen H, Sun YY, Li QF, Du YT, Hu NN, Sui AR, Luo XQ, Huang X, Zhu C, Yang G, Yao LL, Tang Y, Hu H, Liu CF, Tao J, Feng L, Kirchhoff F, Huang W, Li S, Ma QH.
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| Abstract |
Aging drives cognitive decline in the adult brain with unclear mechanisms. Previously, oligodendrocyte precursor cells (OPCs), the source cells of myelin-forming cells in the central nervous system, have been linked to brain aging by their compromised differentiation and regeneration capability. Whether a myelination-independent function of OPCs is involved in brain aging remains unknown. In this study, we herein report a myelination-independent role of OPCs in exaggerating cognitive decline in the aging brain via suppressing neuronal plasticity. Our results demonstrate that macroautophagic flux declines in aged OPCs. Inactivation of autophagy promotes the senescence of OPCs, which activates C-C motif chemokine ligand 3 (CCL3)/CCL5-C-C motif chemokine receptor 5 signaling. Through this, autophagy-defective OPCs impair glutamatergic transmission, neuronal excitability, and long-term potentiation, exaggerating the cognitive decline in the aging brain. Our study demonstrates a myelination-independent role of OPCs in brain aging and identifies that a declined autophagy in OPCs is a pivotal factor in driving aging-associated cognitive decline.
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