Environmental Enrichment Reduces A Levels and Amyloid Deposition in Transgenic Mice
Contact Information
Keywords
Sangram S Sisodia, ssisodia@drugs.bsd.uchicago.edu; Karoly Mirnics, karoly+@pitt.edu
N/A
Abstract
Cerebral deposition of beta-amyloid (Abeta) peptides is an invariant pathological hallmark in brains of patients with Alzheimer's disease (AD) and transgenic mice coexpressing familial AD-linked APP and PS1 variants. We now report that exposure of transgenic mice to an "enriched environment" results in pronounced reductions in cerebral Abeta levels and amyloid deposits, compared to animals raised under "standard housing" conditions. The enzymatic activity of an Abeta-degrading endopeptidase, neprilysin, is elevated in the brains of "enriched" mice and inversely correlated with amyloid burden. Moreover, DNA microarray analysis revealed selective upregulation in levels of transcripts encoded by genes associated with learning and memory, vasculogenesis, neurogenesis, cell survival pathways, Abeta sequestration, and prostaglandin synthesis. These studies provide evidence that environmental enrichment leads to reductions in steady-state levels of cerebral Abeta peptides and amyloid deposition and selective upregulation in levels of specific transcripts in brains of transgenic mice.
Citation
Lazarov, O., Robinson, J., Tang, Y. P., Hairston, I. S., Korade-Mirnics, Z., Lee, V. M. Y., ... & Sisodia, S. S. (2005). Environmental enrichment reduces Aβ levels and amyloid deposition in transgenic mice. Cell, 120(5), 701-713.
DOI
10.1016/j.cell.2005.01.015
EWB Constructs:
enrichment
EWB Measures:
environmental enrichment
data availability:
No
data availability details:
N/A
brain imaging paradigm:
hippocampus, cortex
brain region/circuit:
Exclusion Criteria:
N/A
Inclusion Criteria
N/A
Non-EWB Behavioral
Measures:
DNA microanalysis
First author:
Orly Lazarov
species:
mouse
sample size:
16
study design:
case control
longitudinal data?
No
younger controls?
N/A
interventions:
Examined amyloid-beta levels in APP/PS1 mice exposed to environmental enrichment
study population:
N/A
sex (% female):
0%
ethnicity (%white)
N/A
Age (mean, sd):
6 months
biological/Physiological Measures:
N/A