RESUMO
Estrogens can signal through either estrogen receptor α (ERα) or ß (ERß) to ameliorate experimental autoimmune encephalomyelitis (EAE), the most widely used mouse model of multiple sclerosis (MS). Cellular targets of estrogen-mediated neuroprotection are still being elucidated. Previously, we demonstrated that ERα on astrocytes, but not neurons, was critical for ERα ligand-mediated neuroprotection in EAE, including decreased T-cell and macrophage inflammation and decreased axonal loss. Here, we determined whether ERß on astrocytes or neurons could mediate neuroprotection in EAE, by selectively removing ERß from either of these cell types using Cre-loxP gene deletion. Our results demonstrated that, even though ERß ligand treatment was neuroprotective in EAE, this neuroprotection was not mediated through ERß on either astrocytes or neurons and did not involve a reduction in levels of CNS inflammation. Given the differential neuroprotective and anti-inflammatory effects mediated via ERα versus ERß on astrocytes, we looked for molecules within astrocytes that were affected by signaling through ERα, but not ERß. We found that ERα ligand treatment, but not ERß ligand treatment, decreased expression of the chemokines CCL2 and CCL7 by astrocytes in EAE. Together, our data show that neuroprotection in EAE mediated via ERß signaling does not require ERß on either astrocytes or neurons, whereas neuroprotection in EAE mediated via ERα signaling requires ERα on astrocytes and reduces astrocyte expression of proinflammatory chemokines. These findings reveal important cellular differences in the neuroprotective mechanisms of estrogen signaling through ERα and ERß in EAE.