Abstract
AbstractBackgroundDefining cellular mechanisms that drive Alzheimer's disease (AD) pathogenesis and progression will be aided by studies defining how gene expression patterns change during pre‐symptomatic AD and ensuing periods of declining cognition. Previous studies have emphasized changes in transcriptome, but not translatome regulation, leaving the ultimate results of gene expression alterations relatively unexplored in the context of AD.MethodTo identify genes whose expression might be regulated at the transcriptome and translatome levels in AD, we analyzed gene expression in cerebral cortex of two AD model mouse strains, CVN (APPSwDI;NOS2‐/‐) and Tg2576 (APPSw), and their companion wild type (WT) strains at 6 months of age by tandem RNA‐Seq and Ribo‐Seq (ribosome profiling). Identical starting pools of bulk RNA were used for RNA‐Seq and Ribo‐Seq. Differential gene expression analysis was performed at the transcriptome, translatome, and translational efficiency levels to disentangle genes specifically regulated at the translation level. Regulated genes were functionally evaluated by gene ontology tools.ResultCompared to WT mice, AD model mice had similar levels of transcriptome regulation, but differences in translatome regulation. A microglial signature associated with early stages of Aβ accumulation was upregulated at both levels in CVN mice. Although the two mice strains did not share many regulated genes, they showed common regulated pathways related to APP metabolism associated with neurotoxicity and neuroprotection.ConclusionThis work represents the first genome‐wide study of brain translatome regulation in animal models of AD, and provides evidence of a tight and early translatome regulation of gene expression controlling the balance between neuroprotective and neurodegenerative processes in brain.
Published Version
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