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Age-related spatial learning impairment is unrelated to spinophilin immunoreactive spine number and protein levels in rat hippocampus
Authors:Calhoun Michael E  Fletcher Bonnie R  Yi Stella  Zentko Diana C  Gallagher Michela  Rapp Peter R
Affiliation:aFishberg Department of Neuroscience, Kastor Neurobiology of Aging Laboratories, Mount Sinai School of Medicine, 1 Gustave L. Levy Place, New York, NY 10029-6574, United States;bDepartment of Cellular Neurology, Hertie Institute for Clinical Brain Research, University of Tübingen, Tübingen D-72076, Germany;cDepartment of Psychological and Brain Sciences, Johns Hopkins University, Baltimore, MD 21218, United States
Abstract:Age-related impairments in hippocampus-dependent learning and memory tasks are not associated with a loss of hippocampal neurons, but may be related to alterations in synaptic integrity. Here we used stereological techniques to estimate spine number in hippocampal subfields using immunostaining for the spine-associated protein, spinophilin, as a marker. Quantification of the immunoreactive profiles was performed using the optical disector/fractionator technique. Aging was associated with a modest increase in spine number in the molecular layer of the dentate gyrus and CA1 stratum lacunosum-moleculare. By comparison, spinophilin protein levels in the hippocampus, measured by Western blot analysis, failed to differ as a function of age. Neither the morphological nor the protein level data were correlated with spatial learning ability across individual aged rats. The results extend current evidence on synaptic integrity in the aged brain, indicating that a substantial loss of dendritic spines and spinophilin protein in the hippocampus are unlikely to contribute to age-related impairment in spatial learning.
Keywords:Hippocampus   Spinophilin   Rat   Aging   Morris water-maze   Learning   Memory   Stereology
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