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During aging, reductions in hippocampal neurogenesis are associated with memory decline indicating a causal relationship. Indeed, insulin-like growth factor-1 (IGF-1), a major activator of the extracellular receptor kinase pathway that is central in learning and memory processes, is also a key modulator of hippocampal neurogenesis. Previously, we showed that age-related declines in spatial memory tasks can be improved by antioxidant-rich diets containing blueberries. In this study, to begin to understand the mechanisms responsible for the beneficial effects of blueberries, we assessed changes in hippocampal plasticity parameters such as hippocampal neurogenesis, extracellular receptor kinase activation, and IGF-1 and IGF-1R levels in blueberry-supplemented aged animals. Our results show that all these parameters of hippocampal neuronal plasticity are increased in supplemented animals and aspects such as proliferation, extracellular receptor kinase activation and IGF-1 and IGF-1R levels correlate with improvements in spatial memory. Therefore, cognitive improvements afforded by polyphenolic-rich fruits such as blueberries appear, in part, to be mediated by their effects on hippocampal plasticity

Activation. --- Adult dentate gyrus. --- Aged rats. --- Aging. --- Alzheimers-disease. --- Animal. --- Animals. --- Antioxidants. --- Behavior. --- Cognition. --- Diet. --- Dietary supplementation. --- Environmental enrichment. --- Erk. --- Growth-factor-i. --- Growth. --- Hippocampal neurogenesis. --- Hippocampal. --- Human. --- Igf-1. --- Learning and memory. --- Learning. --- Level. --- Mechanisms. --- Medial prefrontal cortex. --- Memory. --- Modulation. --- Neurogenesis. --- Neuronal signal-transduction. --- Neuronal. --- Parameters. --- Plasticity. --- Rat. --- Rats. --- Receptor. --- Reduction. --- Spatial memory. --- Spatial. --- Task. --- Tasks. --- Time. --- Vitamin-e. --- Water maze.