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Imipramine treatment increases the number of hippocampal synapses and neurons in a genetic animal model of depression
Author(s) -
Chen Fenghua,
Madsen Torsten M.,
Wegener Gregers,
Nyengaard Jens R.
Publication year - 2010
Publication title -
hippocampus
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.767
H-Index - 155
eISSN - 1098-1063
pISSN - 1050-9631
DOI - 10.1002/hipo.20718
Subject(s) - imipramine , behavioural despair test , neuron , hippocampus , synaptogenesis , saline , antidepressant , neuroscience , dentate gyrus , synaptic plasticity , neuroplasticity , medicine , synapse , neurogenesis , endocrinology , hippocampal formation , psychology , pathology , receptor , alternative medicine
Abstract The aim was to investigate treatment effects of the antidepressant imipramine on the markers of neuronal plasticity. We investigated changes in neuron and synapse numbers in a rat strain that displays a genetic susceptibility to depressive behavior, the Flinders Sensitive and Resistant Lines (FSL/FRL). All rats were treated with imipramine (15 mg/kg) or saline (i.p) once daily for 25 days. The volume, neuron and synapse numbers in the hippocampus were estimated using design‐based stereological methods. Under untreated conditions, the volume and the number of neurons and synapses were significantly smaller in the FSL saline group (untreated “depressed” rats) compared with the FRL saline group (normal rats), showing correlation to the observed decreased immobility in the forced swim test. Imipramine treatment significantly increased the number of neurons in the granule cell layer (GCL) and spine synapses in the CA1 in the FSL imipramine group (treated “depressed” rats) compared with the FSL saline group. The neuron numbers in the GCL and Hilus showed no differences in the FSL imipramine group compared to the FRL saline group. In conclusion, baseline levels of the volume and the number of neurons and spine synapses in hippocampus were significantly smaller in the untreated FSL rats. Our findings indicate that chronic imipramine treatment reverses the suppression of neurogenesis and synaptogenesis in the hippocampus of the “depressed” FSL rats, and this occurs in correlation with behavioral effects. Our results support the neuronal plasticity hypothesis that depressive disorders may be related to impairments of structural plasticity and neuronal viability in hippocampus, furthermore, antidepressant treatment counteracts the structural impairments. © 2009 Wiley‐Liss, Inc.

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