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Knock-in models related to Alzheimer's disease: synaptic transmission, plaques and the role of microglia.

Diana P BenitezShenyi JiangJack WoodRui WangChloe M HallCarlijn PeerboomNatalie WongKatie M StringerKarina S VitanovaVictoria C SmithDhaval JoshiTakashi SaitoTakaomi C SaidoJohn HardyJörg HanriederBart De StrooperDervis A SalihTakshashila TripathiFrances A EdwardsDamian M Cummings
Published in: Molecular neurodegeneration (2021)
Increased glutamate release probability is similar across knock-in and transgenic mouse models of Alzheimer's disease, likely reflecting acute physiological effects of soluble amyloid beta. Microglia respond later to increased amyloid beta levels by proliferating and upregulating Cd68 and Trem2. Partial depletion of microglia suggests that, in wild type mice, alteration of surviving phagocytic microglia, rather than microglial loss, drives age-dependent effects on glutamate release that become exacerbated in Alzheimer's disease.
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