Progesterone reverses the spatial memory enhancements initiated by tonic and cyclic oestrogen therapy in middle‐aged ovariectomized female rats

Bimonte‐Nelson, Heather A.; Francis, Kevin; Umphlet, Claudia; Granholm, Ann‐Charlotte

doi:10.1111/j.1460-9568.2006.04867.x

Cited by 140 publications

(169 citation statements)

References 92 publications

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“…For example, we recently reported that, although P4 treatment in female OVX rats did not affect the extent of kainateinduced neuron loss, it completely blocked E2 neuroprotection (Rosario et al, 2006a). Similarly, continuous P4 treatment has been reported to inhibit E2-mediated increases in neurotrophin expression (Bimonte-Nelson et al, 2004) and spatial memory performance (Bimonte-Nelson et al, 2006). One particularly interesting component of this relationship with hypothesized clinical relevance is the effect of continuous versus cyclic P4 treatment.…”

Section: Discussionmentioning

confidence: 97%

Progesterone and Estrogen Regulate Alzheimer-Like Neuropathology in Female 3xTg-AD Mice

Carroll¹,

Rosario²,

Chang³

et al. 2007

J. Neurosci.

296

250

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Estrogen depletion in postmenopausal women is a significant risk factor for the development of Alzheimer's disease (AD), and estrogen-based hormonetherapymayreducethisrisk.However,theeffectsofprogesteronebothaloneandincombinationwithestrogenonADneuropathology remain unknown. In this study, we used the triple transgenic mouse model of AD (3xTg-AD) to investigate the individual and combined effects of estrogen and progesterone on ␤-amyloid (A␤) accumulation, tau hyperphosphorylation, and hippocampal-dependent behavioral impairments. In gonadally intact female 3xTg-AD mice, AD-like neuropathology was apparent by 3 months of age and progressively increased through age 12 months, a time course that was paralleled by behavioral impairment. Ovariectomy-induced depletion of sex steroid hormones in adult female 3xTg-AD mice significantly increased A␤ accumulation and worsened memory performance. Treatment of ovariectomized 3xTg-AD mice with estrogen, but not progesterone, prevented these effects. When estrogen and progesterone were administered in combination, progesterone blocked the beneficial effect of estrogen on A␤accumulation but not on behavioral performance. Interestingly, progesterone significantly reduced tau hyperphosphorylation when administered both alone and in combination with estrogen. These results demonstrate that estrogen and progesterone independently and interactively regulate AD-like neuropathology and suggest that an optimized hormone therapy may be useful in reducing the risk of AD in postmenopausal women.

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Section: Discussionmentioning

confidence: 97%

Progesterone and Estrogen Regulate Alzheimer-Like Neuropathology in Female 3xTg-AD Mice

Carroll¹,

Rosario²,

Chang³

et al. 2007

J. Neurosci.

296

250

View full text Add to dashboard Cite

show abstract

“…It has been well-established that estrogens influence memory and cognition [7,8], decrease the risk and/or delay the onset of neurological diseases (e.g., AD and PD), and attenuate the extent of cell death that results from a variety of insults involving ROS-induced oxidative stress implicated among others in stroke or neurotrauma [9,10]. Various in vitro and in vivo models show that estrogens are capable to protect neurons in a concentration range of 0.1 nM to 50 µM suggesting the involvement of different modes of action [11][12][13][14][15].…”

Section: Introductionmentioning

confidence: 99%

Mechanistic investigations on the antioxidant action of a neuroprotective estrogen derivative

et al. 2008

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Antioxidant action is an important component of the complex neuroprotective action of estrogens. Combining theoretical prediction and subsequent experimental confirmation by chemical and in vitro paradigms, this study focused on the mechanistic aspects of hydroxyl-radical scavenging by 17β-butoxy-1,3,5(10)-estratrien-3-ol, a synthetic derivative of 17β-estradiol with increased potency to inhibit lipid peroxidation and reduced affinity to estrogen-receptors compared to the endogenous hormone. In the process that acts as a "chemical shield," the phenolic A-ring turns into 10β-hydroxy-17β-butoxy-1,3,5(10)-estratrien-3-one, a non-aromatic para-quinol, upon capturing hydroxyl-radicals, which results in the complete loss of estrogen-receptor affinity and antioxidant activity. However, the parent compound is apparently recovered in brain tissue from this para-quinol via enzyme-catalyzed NAD(P)H-dependent reductive aromatization without causing oxidative stress. Taken together, our report argues for a previously unrecognized antioxidant cycle for synthetic estrogen-derived compounds.

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“…The remaining preclinical research has been done on ovariectomized females treated with 17β-estradiol with results showing the beneficial effect of estrogen on cognition (Table 1) [48][49][50]. Metaanalyses of HT effect on cognition revealed that time-limited positive estrogen treatment effect was seen in women who had recently undergone surgical menopause [51].…”

Section: Modelling Of Human Menopausementioning

confidence: 99%

“…However, animal studies more commonly use subcutaneous pellets and silastic capsules to deliver HT (Tables 1 and 2) [49,83,78,88,90].…”

Section: Ht Dose and Route Of Administrationmentioning

confidence: 99%

Evaluating the Role of Hormone Therapy in Postmenopausal Women with Alzheimer’s Disease

Osmanovic-Barilar

Salkovic-Petrisi

2016

Drugs Aging

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Hormone therapy (HT) is prescribed during or after menopausal transition to replace the decline in estrogen and progesterone levels. While some studies indicate that estrogen and progesterone depletion in postmenopausal women might carry a significant risk for developing sporadic Alzheimer's disease (sAD), which may be reduced by HT, recent clinical trials oppose this beneficial effect. This review points to possible reasons for these mixed data by considering the issues of both preclinical and clinical trials, in particular the representativeness of animal models, timing of HT initiation, type of HT (different types of estrogen compound, estrogen monotherapy versus estrogen-progesterone combined therapy), mode of drug delivery (subcutaneous, transdermal, oral or intramuscular) and hormone dosage used, as well as the heterogeneity of the postmenopausal population in clinical trials (particularly considering their sAD stage, anti-AD therapy and hysterectomy status). Careful planning of future preclinical and clinical HT interventional studies might help to elucidate the effect of HT on cognitive status in postmenopausal women with sAD, which will eventually contribute to more effective sAD prevention and treatment. Key points:• The influence of hormone therapy (HT) on cognition in postmenopausal women with Alzheimer's disease (AD) is inconclusive mainly due to a translational gap based on inadequate animal models, clinical inter-/intra-group heterogeneity and often incomparable HT study design.• Cognitive outcomes in clinical trials are mostly influenced by HT composition, its dose, timing and route of administration, as well as by ApoE carrier status, co-morbidity and concomitant therapy.•Design of estrogen/progesterone modulators that would optimize cognitive benefits and tailored HT may lead to more successful prevention and treatment of AD in postmenopausal women.

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Progesterone reverses the spatial memory enhancements initiated by tonic and cyclic oestrogen therapy in middle‐aged ovariectomized female rats

Cited by 140 publications

References 92 publications

Progesterone and Estrogen Regulate Alzheimer-Like Neuropathology in Female 3xTg-AD Mice

Progesterone and Estrogen Regulate Alzheimer-Like Neuropathology in Female 3xTg-AD Mice

Mechanistic investigations on the antioxidant action of a neuroprotective estrogen derivative

Evaluating the Role of Hormone Therapy in Postmenopausal Women with Alzheimer’s Disease

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