Prostaglandin signaling suppresses beneficial microglial function in Alzheimer’s disease models
Jenny U. Johansson, Nathaniel S. Woodling, Qian Wang, Maharshi Panchal, Xibin Liang, Angel Trueba-Saiz, Holden D. Brown, Siddhita D. Mhatre, Taylor Loui, Katrin I. Andreasson
Jenny U. Johansson, Nathaniel S. Woodling, Qian Wang, Maharshi Panchal, Xibin Liang, Angel Trueba-Saiz, Holden D. Brown, Siddhita D. Mhatre, Taylor Loui, Katrin I. Andreasson
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Research Article Neuroscience

Prostaglandin signaling suppresses beneficial microglial function in Alzheimer’s disease models

Abstract

Microglia, the innate immune cells of the CNS, perform critical inflammatory and noninflammatory functions that maintain normal neural function. For example, microglia clear misfolded proteins, elaborate trophic factors, and regulate and terminate toxic inflammation. In Alzheimer’s disease (AD), however, beneficial microglial functions become impaired, accelerating synaptic and neuronal loss. Better understanding of the molecular mechanisms that contribute to microglial dysfunction is an important objective for identifying potential strategies to delay progression to AD. The inflammatory cyclooxygenase/prostaglandin E2 (COX/PGE2) pathway has been implicated in preclinical AD development, both in human epidemiology studies and in transgenic rodent models of AD. Here, we evaluated murine models that recapitulate microglial responses to Aβ peptides and determined that microglia-specific deletion of the gene encoding the PGE2 receptor EP2 restores microglial chemotaxis and Aβ clearance, suppresses toxic inflammation, increases cytoprotective insulin-like growth factor 1 (IGF1) signaling, and prevents synaptic injury and memory deficits. Our findings indicate that EP2 signaling suppresses beneficial microglia functions that falter during AD development and suggest that inhibition of the COX/PGE2/EP2 immune pathway has potential as a strategy to restore healthy microglial function and prevent progression to AD.

Authors

Jenny U. Johansson, Nathaniel S. Woodling, Qian Wang, Maharshi Panchal, Xibin Liang, Angel Trueba-Saiz, Holden D. Brown, Siddhita D. Mhatre, Taylor Loui, Katrin I. Andreasson

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Figure 7

Effects of microglial Ep2 deletion in 9-month-old male APP-PS1 mice on spatial memory performance, presynaptic protein levels, and PI3K/AKT signaling.

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Effects of microglial Ep2 deletion in 9-month-old male APP-PS1 mice on s...
(A) Cd11b-Cre, APP-PS1 Cd11b-Cre, and APP-PS1 Cd11b-Cre Ep2fl/fl cohorts were assessed for spatial memory performance in the RAM, using mean errors per trial and latency to make a correct choice as outcome measures (n = 7–11 per group). Whereas APP-PS1 Cd11b-Cre Ep2fl/fl and Cd11b-Cre animals made similar numbers of errors per trial during the course of testing, APP-PS1 Cd11b-Cre mice made significantly more (*P < 0.05, Mann-Whitney U test). Cd11b-Cre and APP-PS1 Cd11b-Cre Ep2fl/fl mice also made the correct choice more quickly than did APP-PS1 Cd11b-Cre mice (P < 0.05). (B and C) The loss of synaptophysin and SNAP-25 observed in APP-PS1 Cd11b-Cre mice was reversed in APP-PS1 Cd11b-Cre Ep2fl/fl mice (*P < 0.05, **P < 0.01, Student’s t test; n = 5–6 per group). The postsynaptic proteins PSD-95 and GLUA1 were not changed. (D) Increased Igf1 mRNA in APP-PS1 Cd11b-Cre Ep2fl/fl versus APP-PS1 Cd11b-Cre mice and in APP-PS1 Cd11b-Cre versus Cd11b-Cre mice (n = 6–10 per group; *P ≤ 0.05, Student’s t test). (E) Increased Mip1a mRNA expression in APP-PS1 Cd11b-Cre Ep2fl/fl versus APP-PS1 Cd11b-Cre hippocampus (n = 8–13 per group; ***P < 0.0001; Student’s t test). (F) Cerebral cortex from APP-PS1 Cd11b-Cre and APP-PS1 Cd11b-Cre Ep2fl/fl mice was assayed for Aβ42 levels by ELISA (P = 0.17, Mann-Whitney 2-tailed t test; n = 5–6 per group). (G) Quantification of PI3K/AKT phosphoproteins in cerebral cortex of Cd11b-Cre, APP-PS1 Cd11b-Cre, and APP-PS1 Cd11b-Cre Ep2fl/fl mice showed significant induction of the AKT signaling pathway in APP-PS1 Cd11b-Cre mice that was absent in APP-PS1 Cd11b-Cre Ep2fl/fl mice (*P < 0.05, **P < 0.01, Student’s t test; n = 4–5 per group).