Microglial activation in chronic neurodegenerative diseases: roles of apoptotic neurons and chronic stimulation

In chronic neurodegenerative diseases, microglial activation is an early sign that often precedes neuronal death. Increasing evidence indicates that in these chronic pathologies activated microglia sustain a local inflammatory response. Nonetheless, the potential detrimental or protective roles of s...

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Bibliographic Details
Published in:Brain Research Reviews 2005-04, Vol.48 (2), p.251-256
Main Authors: Minghetti, Luisa, Ajmone-Cat, Maria Antonietta, De Berardinis, Maria Anna, De Simone, Roberta
Format: Article
Language:English
Subjects:
Apoptosis
Biological and medical sciences
Degenerative and inherited degenerative diseases of the nervous system. Leukodystrophies. Prion diseases
Inflammation
Medical sciences
Microglia
Neurodegeneration
Neurology
Prostaglandin E2
Transforming growth factor-β
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Summary:In chronic neurodegenerative diseases, microglial activation is an early sign that often precedes neuronal death. Increasing evidence indicates that in these chronic pathologies activated microglia sustain a local inflammatory response. Nonetheless, the potential detrimental or protective roles of such reaction remain to date not fully understood, mainly because of the lack of direct evidence of the functional properties acquired by microglia in the course of chronic diseases. Purified microglial cultures have been extensively used to investigate microglial functions associated with activation, but they are often criticized for some experimental constrains, including the abrupt addition of activators, the limited time of stimulation, and the absence of interactions with neurons or other elements of brain parenchyma. To limit these confounding factors, we developed in vitro models in which microglial cells were repeatedly challenged with lipopolysaccharide or co-cultured with healthy, apoptotic, or necrotic neuronal cells. We found that chronic stimulation and interaction with phosphatidylserine-expressing apoptotic cells induced microglial cells to release immunoregulatory and neuroprotective agents (prostaglandin E 2, transforming growth factor-β, and nerve growth factor), whereas the synthesis of pro-inflammatory molecules (tumor necrosis factor-α and nitric oxide) was inhibited. These findings suggest that signals that are relevant to chronic diseases lead to a progressive down-regulation of pro-inflammatory microglial functions and may help in understanding the atypical microglial activation that begins to be recognized in some chronic neuropathologies.
ISSN:0165-0173
1872-6321
DOI:10.1016/j.brainresrev.2004.12.015