Endogenous hippocampal, not peripheral, estradiol is the key factor affecting the novel object recognition abilities of female rats.

Estradiol (E2) is involved in the regulation of emotional behavior, cognitive function, and neuroplasticity. However, peripheral E2 and central E2 levels do not always fluctuate together. The relationships of peripheral and central E2 with cognitive function are not clear. The aim of this study was to investigate whether peripheral E2, hippocampal E2, or both play a critical role in novel object recognition (NOR), and whether Kalirin-7, an important regulator of spine plasticity, is involved in the modulation of E2 on cognitive behavior. Our results showed that ovariectomy (OVX) significantly reduced serum E2 levels in the 14 weeks following the procedure. However, hippocampal E2 levels did not decrease in the OVX group compared to the sham group until after 14 weeks. Consistent with the changes in hippocampal E2 levels, the investigation ratio in the NOR test and hippocampal Kalirin-7 expression was also not lower in the OVX group than in the sham group until 14 weeks after the procedure. To confirm the relationship between hippocampal E2 levels and NOR ability, we inhibited the production of hippocampal E2 via microinjection of letrozole (LTZ; an aromatase inhibitor) into the hippocampi of rats in the control group and 8-week OVX group. The data indicated that a reduction in E2 levels in the hippocampus significantly impaired NOR ability and simultaneously decreased Kalirin-7 levels in the hippocampus. In conclusion, our study strongly demonstrates that hippocampal E2, but not peripheral E2, plays a critical role in NOR ability and that Kalirin-7 may be involved in this mechanism. (PsycInfo Database Record (c) 2021 APA, all rights reserved).