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GPER-Deficient Rats Exhibit Lower Serum Corticosterone Level and Increased Anxiety-Like Behavior

Yi Zheng, Meimei Wu, Ting Gao, Meng Li, Xiaowei Ding, Youqiang Meng, Yingfu Jiao, Ping Luo, Zhenquan He, Tao Sun, Guohua Zhang, Xueyin Shi, Weifang Rong

2020Neural Plasticity33 citationsDOIOpen Access PDF

Abstract

Ample evidence suggests that estrogens have strong influences on the occurrence of stress-related mood disorders, but the underlying mechanisms remain poorly understood. Through multiple approaches, we demonstrate that the G protein-coupled estrogen receptor (GPER) is widely distributed along the HPA axis and in brain structures critically involved in mood control. Genetic ablation of GPER in the rat resulted in significantly lower basal serum corticosterone level but enhanced ACTH release in response to acute restraint stress, especially in the female. GPER -/- rats of either sex displayed increased anxiety-like behaviors and deficits in learning and memory. Additionally, GPER deficiency led to aggravation of anxiety-like behaviors following single-prolonged stress (SPS). SPS caused significant decreases in serum corticosterone in WT but not in GPER-deficient rats. The results highlight an important role of GPER at multiple sites in regulation of the HPA axis and mood.

Topics & Concepts

GPERCorticosteroneEndocrinologyInternal medicineAnxietyPsychologyNeuroscienceMedicineHormonePsychiatryEstrogen receptorCancerBreast cancerGrowth Hormone and Insulin-like Growth FactorsHormonal Regulation and HypertensionBirth, Development, and Health