Abstract
Obesity and diabetes increase the risk of depression, and the incidence of these conditions increases rapidly after menopause, but few animal models of postmenopausal obesity have been available. We developed a mouse model of postmenopausal obesity that exhibited anxiety and depressive phenotypes in behavioral tests. To examine the effect of estradiol (E2) in the model, we prepared 4 experimental groups: 1) control, sham-operated female C57BL/6 mice fed a regular diet; 2) OVX-HF, ovariectomized (OVX) mice fed a high-fat diet (HF); 3) E2-SC, OVX-HF mice administered subcutaneous (SC) E2 (50 μg/kg/day); and 4) E2-ICV, OVX-HF mice administered intracerebroventricular (ICV) E2 (1 μg/kg/day). OVX-HF mice exhibited anxiety phenotypes in the open field test, but not in the light-dark box test, and E2 treatment via both routes effectively ameliorated it. OVX-HF mice demonstrated depressive phenotypes in the tail suspension test and forced swim test. Both E2 treatments achieved significant improvement in the tail suspension test, but not in the forced swim test. Serum corticosterone levels did not differ among the groups. Hippocampal expression of glucocorticoid receptor mRNA and serotonin 1A receptor mRNA was significantly increased in OVX-HF mice and was decreased in E2-treated mice. The hypothalamic level of pro-brain-derived neurotrophic factor (proBDNF) protein was tended to decrease in OVX-HF mice, but neither E2 treatment increased it. Since this mouse model exhibited anxiety and depressive phenotypes in relatively short experimental periods without genetic manipulations, it would be useful for further exploring psychiatric phenotypes or screening of therapeutic candidates in postmenopausal obesity.
Highlights
When menopause occurs, the serum level of estrogen decreases rapidly in women around the age of 50 years, causing a variety of vasomotor and neuropsychiatric symptoms [1]
We have previously reported the mice model of postmenopausal obesity that exhibited metabolic characteristics of the condition such as obesity by decreased energy expenditure, glucose intolerance, and insulin resistance by performing OVX and feeding a high-fat diet (HF) [15]
These results indicated that the open field test may be more appropriate for evaluating anxiety in OVX-HF mice, because these mice with postmenopausal obesity exhibited anxiety phenotypes that were improved by estrogen administration
Summary
The serum level of estrogen decreases rapidly in women around the age of 50 years, causing a variety of vasomotor and neuropsychiatric symptoms [1]. Several reports have indicated that women are more susceptible to developing anxiety disorders than men [2,3,4], especially after menopause [5]. Despite the importance of these factors in relation to emotional disorders, there has been no adequate postmenopausal mouse model of obesity for evaluating the efficacy of estrogen for amelioration of anxiety and depression. Since previous animal studies have demonstrated the beneficial effects of systemic estrogen treatment on anxiety and depression in a postmenopausal ovariectomized (OVX) mouse model [16,17,18,19], we further investigated the impact of brain versus systemic action of estrogen by comparison between the administration via subcutaneous (SC) and ICV route on anxiety and depressive phenotypes in the mice model
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