PUBLICATION

Live imaging reveals a new role for the sigma-1 (σ1) receptor in allowing microglia to leave brain injuries

Authors
Moritz, C., Berardi, F., Abate, C., Peri, F.
ID
ZDB-PUB-150211-7
Date
2015
Source
Neuroscience letters   591: 13-8 (Journal)
Registered Authors
Peri, Francesca
Keywords
Fluorescence microscopy, Microglia, Optical imaging, σ Receptor
MeSH Terms
  • Animals
  • Animals, Genetically Modified
  • Brain Injuries/metabolism
  • Brain Injuries/pathology*
  • Cell Movement
  • Embryo, Nonmammalian
  • Guanidines/pharmacology
  • Microglia/physiology*
  • Microscopy, Confocal
  • Piperidines/pharmacology
  • Receptors, sigma/agonists
  • Receptors, sigma/metabolism*
  • Tetrahydronaphthalenes/pharmacology
  • Zebrafish
PubMed
25666889 Full text @ Neurosci. Lett.
Abstract
Microglial cells are responsible for clearing and maintaining the central nervous system (CNS) microenvironment. Upon brain damage, they move toward injuries to clear the area by engulfing dying neurons. However, in the context of many neurological disorders chronic microglial responses are responsible for neurodegeneration. Therefore, it is important to understand how these cells can be "switched-off" and regain their ramified state. Current research suggests that microglial inflammatory responses can be inhibited by sigma (σ) receptor activation. Here, we take advantage of the optical transparency of the zebrafish embryo to study the role of σ1 receptor in microglia in an intact living brain. By combining chemical approaches with real time imaging we found that treatment with PB190, a σ1 agonist, blocks microglial migration toward injuries leaving cellular baseline motility and the engulfment of apoptotic neurons unaffected. Most importantly, by taking a reverse genetic approach, we discovered that the role of σ1 in vivo is to "switch-off" microglia after they responded to an injury allowing for these cells to leave the site of damage. This indicates that pharmacological manipulation of σ1 receptor modulates microglial responses providing new approaches to reduce the devastating impact that microglia have in neurodegenerative diseases.
Genes / Markers
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Phenotype
Mutations / Transgenics
Human Disease / Model
Sequence Targeting Reagents
Fish
Antibodies
Orthology
Engineered Foreign Genes
Mapping