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Acute Inflammation Alters Brain Energy Metabolism in Mice and Humans: Role in Suppressed Spontaneous Activity, Impaired Cognition, and Delirium

dc.contributor.authorCunningham, Colm
dc.date.accessioned2022-03-22T11:00:28Z
dc.date.available2022-03-22T11:00:28Z
dc.date.issued2020
dc.date.submitted2020en
dc.identifier.citationKealy J, Murray C, Griffin EW, Lopez-Rodriguez AB, Healy D, Tortorelli LS, Lowry JP, Watne LO, Cunningham C. Acute Inflammation Alters Brain Energy Metabolism in Mice and Humans: Role in Suppressed Spontaneous Activity, Impaired Cognition, and Delirium, Journal of Neuroscience, 2020 Jul 15;40(29):5681-5696en
dc.identifier.otherY
dc.identifier.urihttp://hdl.handle.net/2262/98340
dc.descriptionPUBLISHEDen
dc.description.abstractSystemic infection triggers a spectrum of metabolic and behavioral changes, collectively termed sickness behavior, which while adaptive, can affect mood and cognition. In vulnerable individuals, acute illness can also produce profound, maladaptive, cognitive dysfunction including delirium, but our understanding of delirium pathophysiology remains limited. Here, we used bacterial lipopolysaccharide (LPS) in female C57BL/6J mice and acute hip fracture in humans to address whether disrupted energy metabolism contributes to inflammation-induced behavioral and cognitive changes. LPS (250 mg/kg) induced hypoglycemia, which was mimicked by interleukin (IL)-1b (25 mg/kg) but not prevented in IL-1RI2/2 mice, nor by IL-1 receptor antagonist (IL-1RA; 10 mg/kg). LPS suppression of locomotor activity correlated with blood glucose concentrations, was mitigated by exogenous glucose (2 g/kg), and was exacerbated by 2-deoxyglucose (2-DG) glycolytic inhibition, despite preventing IL-1b synthesis. Using the ME7 model of chronic neurodegeneration in female mice, to examine vulnerability of the diseased brain to acute stressors, we showed that LPS (100 mg/kg) produced acute cognitive dysfunction, selectively in those animals. These acute cognitive impairments were mimicked by insulin (11.5 IU/kg) and mitigated by glucose, demonstrating that acutely reduced glucose metabolism impairs cognition selectively in the vulnerable brain. To test whether these acute changes might predict altered carbohydrate metabolism during delirium, we assessed glycolytic metabolite levels in CSF in humans during inflammatory trauma-induced delirium. Hip fracture patients showed elevated CSF lactate and pyruvate during delirium, consistent with acutely altered brain energy metabolism. Collectively, the data suggest that disruption of energy metabolism drives behavioral and cognitive consequences of acute systemic inflammation.en
dc.format.extent10.1523/JNEUROSCI.2876-19.2020en
dc.language.isoenen
dc.relation.ispartofseriesJournal of Neuroscience;
dc.rightsYen
dc.subjectSystemic infection triggersen
dc.subjectdelirium pathophysiologyen
dc.subjectmiceen
dc.subjectIL-1en
dc.subjectCognitiveen
dc.subjectDeliriumen
dc.subjectDementiaen
dc.subjectHypoglycemiaen
dc.subjectSepsisen
dc.titleAcute Inflammation Alters Brain Energy Metabolism in Mice and Humans: Role in Suppressed Spontaneous Activity, Impaired Cognition, and Deliriumen
dc.typeJournal Articleen
dc.contributor.sponsorNational Institutes of Health (NIH)en
dc.contributor.sponsorWellcome Trusten
dc.type.supercollectionscholarly_publicationsen
dc.type.supercollectionrefereed_publicationsen
dc.identifier.peoplefinderurlhttp://people.tcd.ie/cunninco
dc.identifier.rssinternalid232193
dc.identifier.doi10.1523/JNEUROSCI.2876-19.2020
dc.rights.ecaccessrightsopenAccess
dc.subject.TCDThemeAgeingen
dc.subject.TCDThemeImmunology, Inflammation & Infectionen
dc.subject.TCDThemeNeuroscienceen
dc.subject.TCDTagBehavioural Neuroscienceen
dc.subject.TCDTagDEMENTIA, NEURODEGENERATIVEen
dc.subject.TCDTagNEUROPSYCHIATRIC DISORDERSen
dc.subject.TCDTagNeuroscience and Cognitionen
dc.subject.TCDTagneuroinflammationen
dc.identifier.orcid_id0000-0003-1423-5209


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