Effects of Amyloid β on Recollective Memory: Sex and Hormone Differences

PURPOSE:

Alzheimer’s disease (AD) is linked with increased memory loss and inability to learn new topics. One of the defining neuropathological features of AD is amyloid beta (Aβ) plaques in brain regions, such as the hippocampus. The hippocampus brain region is important for memory and learning. AD risk is elevated in individuals older than 65 years old, especially menopausal women. Menopause is an aging associated endocrine event in which the ovaries stop producing estradiol but continue producing testosterone. Testosterone can be aromatized to estradiol, but aromatase is not functional in women with AD. Therefore, post-menopausal women with AD have more androgens than estrogens than pre-menopausal women and aged men. Androgens can be neuroprotective or neurotoxic depending on the cellular environment. It is unknown what the impact of androgens and sex are on amyloid beta’s effects on the brain, (e.g., hippocampus) and behavior (e.g., memory). We hypothesize that females with the hormonal condition of androgens in the absence of estrogens will exhibit increased recollective memory in response to hippocampal injection of Aβ.

METHODS:

To investigate the role of androgens and sex on Aβ associated memory impairments, adult male and female Sprague-Dawley rats were gonadectomized to remove circulating sex hormones. A subset of these rats was given either cholesterol or dihydrotestosterone (DHT), which cannot be converted into estrogen. To model AD, rats were injected with 5ug/ul of Aβ oligomer fibrils 1-40 or vehicle shams in the CA1 region of the hippocampus. One week after Aβ hippocampal injections, the rats were assayed for short term and long-term recollective memory via a 1-hour and 24-hour Novel Object behavioral test. The Novel Objective behavioral tests examines recollective memory by quantifying the time spent with a novel object versus the time spent with a known object. Data was quantified with a three-way ANOVA with sex, hormone, and Aβ as independent variables. Tukey’s was used as a post-hoc test.

RESULTS:

Sex differences were observed between hormone-deficient rats exposed to Aβ. Specifically, males exhibited worse short term recollective memory (1 hour novel object) compared to females. DHT had no effect on recollective memory, regardless of Aβ exposure. No effects were observed in the long-term recollective memory (24-hour novelty test).

CONCLUSIONS:

Our results indicate that Aβ 's effects on short term recollective memory is influenced by sex chromosomes, as we observed sex differences in the hormone deficient (cholesterol) treated animals. However, DHT did not impact these recollective memory. These results indicate that recollective memory in AD is impacted by the sex chromosomes and not androgens.