Effects of estrogen and progesterone treatment on rat hippocampal NMDA receptors: Relationship to Morris water maze performance

El-Bakri, Nahid K.; Islam, Atiqul; Zhu, Shunwei; Elhassan, Adlan M.; Mohammed, Abdul K.; Winblad, Bengt; Adem, Abdu

doi:10.1111/j.1582-4934.2004.tb00478.x

Cited by 88 publications

(61 citation statements)

References 52 publications

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“…The decline of hippocampal NPY attributable to the lack of ␤-estradiol may be involved in learning and memory disturbances and changes in mood, including increased anxiety states in women after menopause (medical or natural) (Hattiangady et al, 2005;Osterlund et al, 2005). These clinical observations are supported by animal studies, which also show that ovariectomy leads to decline in learning and memory and to increased anxiety in females, all of which can be corrected by ␤-estradiol replacement (El-Bakri et al, 2004;Imwalle et al, 2005). Similarly, changes in the NPY system are associated with disturbances in learning and memory as well as anxiety behaviors (Heilig, 2004;Redrobe et al, 2004).…”

Section: Discussionsupporting

confidence: 67%

β-Estradiol Increases Dentate Gyrus Inhibition in Female Rats via Augmentation of Hilar Neuropeptide Y

Velı́šková

Velı́šek²

2007

J. Neurosci.

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The dentate gyrus filters incoming activity into the hippocampus proper. It plays a role in learning and memory and in pathological states such as epilepsy. Some of hilar interneurons of the dentate gyrus express neuropeptide Y (NPY), which modulates granule cell activity. A subpopulation of the NPY-expressing inhibitory interneurons is sensitive to seizure-induced damage. Pretreatment with ␤-estradiol in ovariectomized rats protects hilar interneurons against seizure-induced injury, including the NPY-containing damage-sensitive subpopulation. Here, we demonstrate that ␤-estradiol enhances NPY expression within the hilar interneurons. In vitro paired-pulse stimulation of the mixed perforant path revealed ␤-estradiol-induced augmentation of granule cell network inhibition, which at interstimulus intervals between 200 and 300 ms (corresponding to ϳ3-5 Hz) was NPY sensitive and involved Y 1 receptors, whereas it was insensitive to GABA B or metabotropic glutamate receptor antagonists. Additionally, ␤-estradiol pretreatment attenuated propagation of lowfrequency (3.3 or 5 Hz) burst activity through the dentate gyrus. Scavenging endogenous NPY by intracerebroventricular administration of anti-NPY antibody accelerated kainic acid-induced seizure onset and increased seizure-induced neuronal damage in the hilus compared with rats treated with ␤-estradiol alone. Together, we show that ␤-estradiol upregulates hilar NPY and that this leads to enhancement in dentate gyrus inhibition of incoming frequencies between 3 and 5 Hz. Such frequencies are similar to the discharge frequencies recorded during seizure initiation in some patients with epilepsy. Thus, ␤-estradiol-induced NPY-sensitive filtering of 3-5 Hz frequencies may be an important regulator of incoming seizure activity, but it could also serve a physiological purpose in modulating information flow into the hippocampus proper.

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Section: Discussionsupporting

confidence: 67%

β-Estradiol Increases Dentate Gyrus Inhibition in Female Rats via Augmentation of Hilar Neuropeptide Y

Velı́šková

Velı́šek²

2007

J. Neurosci.

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“…While the 5E group displayed slower swim speeds during day 2 of testing compared to 10E, differences in motivation and motor ability are unlikely because distance covered was consistent with latency to escape. This nonlinear effect for the 5E rats to outperform the 10E and vehicle groups on spatial acquisition is consistent with other reports using a different treatment regimen with estradiol benzoate (Xu and Zhang, 2006) or low-dose tonic or cyclic estradiol treatment in young (El-Bakri et al, 2004) and middle-aged OVX female rats (Bimonte-Nelson et al, 2006;Fernandez and Frick, 2004). At the end of the training session in our study, we gave a probe trial to assess navigation strategies, which showed that all treatment groups learned the platform location.…”

Section: Effects Of Intermittent Estradiol Treatment On Hippocampal Fsupporting

confidence: 75%

Assessment of estradiol influence on spatial tasks and hippocampal CA1 spines: Evidence that the duration of hormone deprivation after ovariectomy compromises 17β-estradiol effectiveness in altering CA1 spines

McLaughlin

Bimonte‐Nelson

Neisewander

et al. 2008

Hormones and Behavior

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Two pulses of 17β-estradiol (10µg) are commonly used to increase hippocampal CA1 apical dendritic spine density and alter spatial performance in ovariectomized (OVX) female rats, but rarely are the measures combined. The goal of this study was to use this two-pulse injection protocol repeatedly with intervening wash-out periods in the same rats to: 1) measure spatial ability using different tasks that require hippocampal function and 2) determine whether ovarian hormone depletion for an extended 10-week period reduces 17β-estradiol's effectiveness in elevating CA1 apical dendritic spine density. Results showed that two injections of 10µg 17β-estradiol (72 and 48 hrs prior to testing and timed to maximize CA1 apical spine density at behavioral assessment) corresponded to improved spatial memory performance on object placement. In contrast, two injections of 5µg 17β-estradiol facilitated spatial learning on the water maze compared to rats given two injections of 10µg 17β-estradiol or the sesame oil vehicle. Neither 17β-estradiol dose altered Y-maze performance. As expected, the intermittent two-pulse injection protocol increased CA1 apical spine density, but ten weeks of OVX without estradiol treatment decreased the effectiveness of 10µg 17β-estradiol to increase CA1 apical spine density. Moreover, two pulses of 5µg 17β-estradiol injected intermittently failed to alter CA1 apical spine density and decreased basal spine density. These results demonstrate that extended time without ovarian hormones reduces 17β-estradiol's effectiveness to increase CA1 apical spine density. Collectively, these findings highlight the complex interactions among estradiol, CA1 spine density/morphology, and task requirements, all of which contribute to behavioral outcomes.

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“…Moreover, ElBakri et al (2004) indicated that low-dose estrogen usage showed better learning and memory than high-dose estradiol administration. Treatment with high doses of female sex hormones can decrease the dendritic spine and synapse in CA1 hippocampus (25). The current study indicated that doses of 1.5 and 2 μg of progesterone were effectively able to increase memory in a passive avoidance task.…”

supporting

confidence: 47%

The impact of using different doses of progesterone on memory performance

Roozbehi¹,

Sharafi²,

Karimi³

et al. 2017

BLL

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OBJECTIVE: Progesterone is a sex hormone and its receptors are expressed throughout the hippocampus. This study was aimed at evaluating the effects of different doses of progesterone on memory. METHODS: Male rats were arbitrarily assigned to nine groups, namely Group I: control, Group II: control-cannula, Group III received 0.5 μl of saline by cannula, Groups IV , V, VI, VII and VIII received progesterone in doses of 0.5, 1, 1.5, 2, and 3 μg/ 0.5 μl by cannula, respectively. Group IX received 0.5 μl almond oil by cannula. Memory performance was tested in form of passive avoidance task. RESULTS: Our results indicated that progesterone at doses of 1.5 and 2 μg (p < 0.05) signifi cantly increased the memory performance while at a dose of 3 μg (p < 0.05), it signifi cantly decreased memory as compared to the control group. CONCLUSION: The current study revealed that the infl uence of progesterone on memory is related to its dose (Fig. 1, Ref. 25). Text in PDF www.elis.sk.

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Effects of estrogen and progesterone treatment on rat hippocampal NMDA receptors: Relationship to Morris water maze performance

Cited by 88 publications

References 52 publications

β-Estradiol Increases Dentate Gyrus Inhibition in Female Rats via Augmentation of Hilar Neuropeptide Y

β-Estradiol Increases Dentate Gyrus Inhibition in Female Rats via Augmentation of Hilar Neuropeptide Y

Assessment of estradiol influence on spatial tasks and hippocampal CA1 spines: Evidence that the duration of hormone deprivation after ovariectomy compromises 17β-estradiol effectiveness in altering CA1 spines

The impact of using different doses of progesterone on memory performance

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