Parallel declines in cognition, motivation, and locomotion in aging mice: Association with immune gene upregulation in the medial prefrontal cortex

Kelly A. Bordner, Robert R. Kitchen, Becky Carlyle, Elizabeth D. George, Milind C. Mahajan, Shrikant M. Mane, Jane R. Taylor, Arthur A. Simen

Research output: Contribution to journalArticlepeer-review

32 Scopus citations

Abstract

Aging in humans is associated with parallel changes in cognition, motivation, and motoric performance. Based on the human aging literature, we hypothesized that this constellation of age-related changes is mediated by the medial prefrontal cortex and that it would be observed in aging mice. Toward this end, we performed detailed assessments of cognition, motivation, and motoric behavior in aging mice. We assessed behavioral and cognitive performance in C57Bl/6 mice aged 6, 18, and 24 months, and followed this with microarray analysis of tissue from the medial prefrontal cortex and analysis of serum cytokine levels. Multivariate modeling of these data suggested that the age-related changes in cognition, motivation, motor performance, and prefrontal immune gene expression were highly correlated. Peripheral cytokine levels were also correlated with these variables, but less strongly than measures of prefrontal immune gene upregulation. To determine whether the observed immune gene expression changes were due to prefrontal microglial cells, we isolated CD11b-positive cells from the prefrontal cortex and subject them to next-generation RNA sequencing. Many of the immune changes present in whole medial prefrontal cortex were enriched in this cell population. These data suggest that, as in humans, cognition, motivation, and motoric performance in the mouse change together with age and are strongly associated with CNS immune gene upregulation.

Original languageEnglish
Pages (from-to)643-659
Number of pages17
JournalExperimental Gerontology
Volume46
Issue number8
DOIs
StatePublished - Aug 2011
Externally publishedYes

Keywords

  • Aging
  • Cognition
  • Gene expression
  • Locomotion
  • Microarray analysis
  • Microglia
  • Motivation
  • Prefrontal cortex
  • RNA sequencing

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