Abstract
Microglia are the sentinels of the brain but a clear understanding of the factors that modulate their activation in physiological and pathological conditions is still lacking. Here we demonstrate that Nerve Growth Factor (NGF) acts on microglia by steering them toward a neuroprotective and anti‐inflammatory phenotype. We show that microglial cells express functional NGF receptors in vitro and ex vivo. Our transcriptomic analysis reveals how, in primary microglia, NGF treatment leads to a modulation of motility, phagocytosis and degradation pathways. At the functional level, NGF induces an increase in membrane dynamics and macropinocytosis and, in vivo, it activates an outward rectifying current that appears to modulate glutamatergic neurotransmission in nearby neurons. Since microglia are supposed to be a major player in Aβ peptide clearance in the brain, we tested the effects of NGF on its phagocytosis. NGF was shown to promote TrkA‐mediated engulfment of Aβ by microglia, and to enhance its degradation. Additionally, the proinflammatory activation induced by Aβ treatment is counteracted by the concomitant administration of NGF. Moreover, by acting specifically on microglia, NGF protects neurons from the Aβ‐induced loss of dendritic spines and inhibition of long term potentiation. Finally, in an ex‐vivo setup of acute brain slices, we observed a similar increase in Aβ engulfment by microglial cells under the influence of NGF. Our work substantiates a role for NGF in the regulation of microglial homeostatic activities and points toward this neurotrophin as a neuroprotective agent in Aβ accumulation pathologies, via its anti‐inflammatory activity on microglia.
Highlights
We found a significant increase of internalized Ab in microglial cells from brain slices that were incubated with Nerve Growth Factor (NGF) (Figure 12), demonstrating that, the modulatory effect by NGF can translate to microglia in vivo
We have provided stringent evidence that microglia are target cells for NGF—both in vitro and ex vivo—and that the activity carried out by this neurotrophin might result neuroprotective and antiinflammatory in the context of Alzheimer’s disease-related insults
We found that NGF is very effective in reverting the proinflammatory state of microglia induced by Ab, while it has only a moderate effect on the inflammatory phenotype of naive microglial cells
Summary
Shown to be key players in the pathogenesis and progression of many neurodegenerative disorders. The loss of NGF-TrkA signaling “in the CNS”, obtained by conditionally deleting NGF or TrkA genes in CNS cells derived from nestin-positive cells, has proven not to be sufficient in inducing severe cognitive impairments nor neurodegeneration in mice (Muller et al, 2012) This body of results motivated our search for nonneuronal targets of NGF in the adult brain. We provide stringent evidence that microglia are target cells for NGF, both in vitro and ex vivo and that the activity carried out by this neurotrophin on microglial cells might result neuroprotective and anti-inflammatory in the context of Alzheimer’s disease
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