Demetriou, A.; Lindqvist, B.; Ali, H. G.; Shamekh, M. M.; Maioli, S.; Inzunza, J.; Varshney, M.; Nalvarte, I.

Menopausal loss of neuroprotective estrogen is thought to contribute to the sex differences in Alzheimer\'s disease (AD). Activation of estrogen receptor beta (ER{beta}) can be clinically relevant since it avoids the negative systemic effects of ER activation. However, very few studies have explored ER{beta}-mediated neuroprotection in AD, and no information on its contribution to the sex differences in AD exists. In the present study we specifically explored the role of ER{beta} in mediating sex-specific protection against AD pathology in the clinically relevant AppNL-G-F knock-in mouse model of amyloidosis, and if surgical menopause (ovariectomy) modulates pathology in this model. We treated male and female AppNL-G-F mice with the selective ER{beta} agonist LY500307 and subset of the females was ovariectomized prior to treatment. Memory performance was assessed and a battery of biochemical assays were used to evaluate amyloid pathology and neuroinflammation. Primary microglial cultures from male and female wild-type and ER{beta}-knockout mice were used to assess ER{beta}\'s effect on microglial activation and phagocytosis. We find that ER{beta} activation protects against amyloid pathology and cognitive decline in male and female AppNL-G-F mice. Ovariectomy increased soluble amyloid beta (A{beta}) in cortex and insoluble A{beta} in hippocampus, but had otherwise limited effects on pathology. We further identify that ER{beta} does not alter APP processing, but rather exerts its protection through amyloid scavenging that at least in part is mediated via microglia in a sex-specific manner. Combined, we provide new understanding to the sex differences in AD by demonstrating that ER{beta} protects against AD pathology differently in males and females, warranting reassessment of ER{beta} in combating AD.