Liisa A.M. Galea scite author profile

Chronic restraint stress causes significant dendritic atrophy of CA3 pyramidal neurons that reverts to baseline within a week. Therefore, the authors assessed the functional consequences of this atrophy quickly (within hours) using the Y maze. Experiments 1-3 demonstrated that rats relied on extrinsic, spatial cues located outside of the Y maze to determine arm location and that rats with hippocampal damage (through kainic acid, colchicine, or trimethyltin) had spatial memory impairments. After the Y maze was validated as a hippocampally relevant spatial task, Experiment 4 showed that chronic restraint stress impaired spatial memory performance on the Y maze when rats were tested the day after the last stress session and that tianeptine prevented the stress-induced spatial memory impairment. These data are consistent with the previously demonstrated ability of tianeptine to prevent chronic stress-induced atrophy of the CA3 dendrites.

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Sex differences in dendritic atrophy of CA3 pyramidal neurons in response to chronic restraint stress

Galea

et al. 1997

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Postpartum depression: Etiology, treatment and consequences for maternal care

Brummelte

Galea

2016

Hormones and Behavior

411

274

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Sex differences in route-learning

Galea

Kimura

1993

Personality and Individual Differences

443

255

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Exposure to fox odor inhibits cell proliferation in the hippocampus of adult rats via an adrenal hormone‐dependent mechanism

Tanapat

Hastings

Rydel

et al. 2001

J of Comparative Neurology

324

253

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To determine whether exposure to fox odor alters granule neuron production, we examined proliferating cells and their progeny in the dentate gyrus of adult male rats exposed to trimethyl thiazoline, a component of fox feces. Additionally, to determine whether this effect is adrenal hormone-mediated, we examined animals exposed to fox odor after bilateral adrenalectomy and replacement with low levels of the endogenous glucocorticoid corticosterone. Stereologic analyses of the number of 5-bromo-2'deoxyuridine (BrdU) -labeled cells revealed that exposure to fox odor but not other, nonthreatening, odors (mint or orange) rapidly decreased the number of proliferating cells in the dentate gyrus. This effect is dependent on a stress-induced rise in adrenal hormones; exposure to fox odor resulted in an increase in circulating corticosterone levels and prevention of this increase (by means of adrenalectomy plus low-dose corticosterone replacement) eliminated the suppression of cell proliferation. Examination at longer survival times revealed that the decrease in the number of new granule cells in fox odor-exposed animals was transient; a difference was still detectable at 1 week after BrdU labeling but not at 3 weeks. In both fox and sham odor-exposed animals, many new cells acquired morphologic and biochemical characteristics of mature granule neurons. The majority of these cells expressed a marker of immature granule neurons (TuJ1) by 1 week after BrdU labeling and markers of mature granule neurons (calbindin, NeuN) by 3 weeks after labeling. These findings suggest that stressful experiences rapidly diminish cell proliferation by increasing adrenal hormone levels, resulting in a transient decrease in the number of adult-generated immature granule neurons.

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Liisa A.M. Galea

Chronic stress impairs rat spatial memory on the Y maze, and this effect is blocked by tianeptine treatment.

Sex differences in dendritic atrophy of CA3 pyramidal neurons in response to chronic restraint stress

Postpartum depression: Etiology, treatment and consequences for maternal care

Sex differences in route-learning

Exposure to fox odor inhibits cell proliferation in the hippocampus of adult rats via an adrenal hormone‐dependent mechanism

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