Acute Kidney Injury Leads to Inflammation and Functional Changes in the Brain

doi:10.1681/ASN.2007080901


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Published ahead of print on April 2, 2008
Journal of the American Society of Nephrology
© 2008 American Society of Nephrology
doi: 10.1681/ASN.2007080901

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Received August 15, 2007
Accepted on February 2, 2008

BASIC RESEARCH

Acute Kidney Injury Leads to Inflammation and Functional Changes in the Brain

Manchang Liu ^*¹, Yideng Liang , Srinivasulu Chigurupati , Justin D. Lathia , Mikhail Pletnikov , Zhaoli Sun , Michael Crow ^*, Christopher A. Ross , Mark P. Mattson , and Hamid Rabb ^*

Departments of *Medicine, ${dagger}$ Psychiatry and Behavioral Sciences, and ${sect}$ Surgery, Johns Hopkins University School of Medicine, and ${ddagger}$ Laboratory of Neurosciences, National Institute on Aging Intramural Research Program, Baltimore, Maryland

¹ To whom correspondence should be addressed. E-mail: manchang{at}jhmi.edu.

Abstract

Although neurologic sequelae of acute kidney injury (AKI) arewell described, the pathogenesis of acute uremic encephalopathyis poorly understood. This study examined the short-term effectof ischemic AKI on inflammatory and functional changes of thebrain in mice by inducing bilateral renal ischemia for 60 minand studying the brains 24 h later. Compared with sham mice,mice with AKI had increased neuronal pyknosis and microgliosisin the brain. AKI also led to increased levels of the proinflammatorychemokines keratinocyte-derived chemoattractant and G-CSF inthe cerebral cortex and hippocampus and increased expressionof glial fibrillary acidic protein in astrocytes in the cortexand corpus callosum. In addition, extravasation of Evans bluedye into the brain suggested that the blood-brain barrier wasdisrupted in mice with AKI. Because liver failure also leadsto encephalopathy, ischemic liver injury was induced in micewith normal renal function; neuronal pyknosis and glial fibrillaryacidic protein expression were not increased, suggesting differentialeffects on the brain depending on the organ injured. For evaluationof the effects of AKI on brain function, locomotor activitywas studied using an open field test. Mice subjected to renalischemia or bilateral nephrectomy had moderate to severe declinesin locomotor activity compared with sham-operated mice. Thesedata demonstrate that severe ischemic AKI induces inflammationand functional changes in the brain. Targeting these pathwayscould reduce morbidity and mortality in critically ill patientswith severe AKI.

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