Soyon Hong scite author profile

Synapse loss in Alzheimer's disease (AD) correlates with cognitive decline. Involvement of microglia and complement in AD has been attributed to neuroinflammation, prominent late in disease. Here we show in mouse models that complement and microglia mediate synaptic loss early in AD. C1q, the initiating protein of the classical complement cascade, is increased and associated with synapses before overt plaque deposition. Inhibition of C1q, C3 or the microglial complement receptor CR3, reduces the number of phagocytic microglia as well as the extent of early synapse loss. C1q is necessary for the toxic effects of soluble β-amyloid (Aβ) oligomers on synapses and hippocampal long-term potentiation (LTP). Finally, microglia in adult brains engulf synaptic material in a CR3-dependent process when exposed to soluble Aβ oligomers. Together, these findings suggest that the complement-dependent pathway and microglia that prune excess synapses in development are inappropriately activated and mediate synapse loss in AD.

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Soluble Oligomers of Amyloid β Protein Facilitate Hippocampal Long-Term Depression by Disrupting Neuronal Glutamate Uptake

Hong

Shepardson

et al. 2009

Neuron

848

754

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In Alzheimer's disease (AD), the insidious impairment of declarative memory coincides with the accumulation of extracellular amyloid-β protein (Aβ) and intraneuronal tau aggregates. Dementia severity correlates strongly with decreased synapse density in hippocampus and cortex. Although numerous studies show that soluble Aβ oligomers inhibit hippocampal long-term potentiation, their role in long-term synaptic depression (LTD) remains unclear. Here, we report that soluble Aβ oligomers from several sources (synthetic, cell culture, human brain extracts) facilitated electrically-evoked LTD in the CA1 region. Aβ-enhanced LTD was mediated by mGluR or NMDAR activity, depending on the induction protocol. Both forms of LTD were prevented by an extracellular glutamate scavenger system. Aβ-facilitated LTD was closely mimicked by the action of the glutamate reuptake inhibitor TBOA, including a shared dependence on extracellular calcium levels and activation of PP2B and GSK-3 signaling. In accord, synaptic glutamate uptake was significantly decreased by soluble Aβ. We conclude that soluble Aβ oligomers perturb synaptic plasticity by altering glutamate recycling at the synapse and promoting synapse depression.

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New insights on the role of microglia in synaptic pruning in health and disease

Hong

Dissing-Olesen

Stevens

2016

Current Opinion in Neurobiology

475

363

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Recent genome-wide association studies implicate microglia in Alzheimer’s disease (AD) pathogenesis; however, their biological significance remains poorly understood. Synapse loss is a significant correlate of cognitive decline that serves as a critical hallmark of AD and other neurodegenerative diseases; however, mechanisms underlying synaptic vulnerability remain elusive. Emerging research on microglia function in the healthy brain is providing new insight into fundamental roles of microglia and immune molecules in brain wiring. Among their many roles, microglia prune developing synapses and regulate synaptic plasticity and function. Here, we review and discuss how this emerging work may provide new insight into how disruptions in microglia–synapse interactions could contribute to synapse loss and dysfunction, and consequently cognitive impairment, in AD.

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Soyon Hong

Complement and microglia mediate early synapse loss in Alzheimer mouse models

Soluble Oligomers of Amyloid β Protein Facilitate Hippocampal Long-Term Depression by Disrupting Neuronal Glutamate Uptake

New insights on the role of microglia in synaptic pruning in health and disease

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