Targeting inflammatory monocytes in sepsis-associated encephalopathy and long-term cognitive impairment
Graciela Andonegui, … , Robert J. Sutherland, Paul Kubes
Graciela Andonegui, … , Robert J. Sutherland, Paul Kubes
Published May 3, 2018
Citation Information: JCI Insight. 2018;3(9):e99364. https://doi.org/10.1172/jci.insight.99364.
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Research Article Inflammation Neuroscience

Targeting inflammatory monocytes in sepsis-associated encephalopathy and long-term cognitive impairment

Abstract

Sepsis-associated encephalopathy manifesting as delirium is a common problem in critical care medicine. In this study, patients that had delirium due to sepsis had significant cognitive impairments at 12–18 months after hospital discharge when compared with controls and Cambridge Neuropsychological Automated Test Battery–standardized scores in spatial recognition memory, pattern recognition memory, and delayed-matching-to-sample tests but not other cognitive functions. A mouse model of S. pneumoniae pneumonia-induced sepsis, which modeled numerous aspects of the human sepsis-associated multiorgan dysfunction, including encephalopathy, also revealed similar deficits in spatial memory but not new task learning. Both humans and mice had large increases in chemokines for myeloid cell recruitment. Intravital imaging of the brains of septic mice revealed increased neutrophil and CCR2+ inflammatory monocyte recruitment (the latter being far more robust), accompanied by subtle microglial activation. Prevention of CCR2+ inflammatory monocyte recruitment, but not neutrophil recruitment, reduced microglial activation and other signs of neuroinflammation and prevented all signs of cognitive impairment after infection. Therefore, therapeutically targeting CCR2+ inflammatory monocytes at the time of sepsis may provide a novel neuroprotective clinical intervention to prevent the development of persistent cognitive impairments.

Authors

Graciela Andonegui, Erin L. Zelinski, Courtney L. Schubert, Derrice Knight, Laura A. Craig, Brent W. Winston, Simon C. Spanswick, Björn Petri, Craig N. Jenne, Janice C. Sutherland, Rita Nguyen, Natalie Jayawardena, Margaret M. Kelly, Christopher J. Doig, Robert J. Sutherland, Paul Kubes

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Figure 8

Effects of S. pneumoniae infection on microglia activation.

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Effects of S. pneumoniae infection on microglia activation. Wild-type re...
Wild-type reporter mice CX3CR1GFP/WTCCR2RFP/WT and CX3CR1GFP/WTCCR2RFP/RFP (CCR2def) mice were infected with S. pneumoniae for 24 hours. (A) Image of microglia Z-stacks, shown as the maximum intensity projection of 20-μm stack obtained by multiphoton microscopy of a S. pneumoniae–infected CX3CR1GFP/WTCCR2RFP/WT mouse at 24 hours. Scale bar: 50 μm. (B) Inactivated microglia, characterized by a soma area of 0–50 μm2. Scale bar: 10 μm. (C) Image of activated microglia 24 hours after infection in a CX3CR1GFP/WTCCR2RFP/WT mouse. Scale bar: 10 μm. (D) Quantification of microglia activation. Data represent mean ± SEM of n = 3. ***P < 0.001 vs. control, unpaired 2-tailed t test. (E) Microglia C11b+CD45intermediate expression by flow cytometry. Brain cells from control and S. pneumoniae–infected mice for 24 hours were isolated as previously described and labeled with CD11b and CD45. The CD11b+ cells were gated and analyzed for CD45intermediate expression. The representative histogram (n = 3) shows the increase in CD45intermediate expression in brain microglia from S. pneumoniae pneumonia-infected mice versus controls.