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Estrogen receptors and the aging brain

Silvia Maioli, Karin Leander, Per Nilsson, Ivan Nalvarte

2021Essays in Biochemistry130 citationsDOIOpen Access PDF

Abstract

The female sex hormone estrogen has been ascribed potent neuroprotective properties. It signals by binding and activating estrogen receptors that, depending on receptor subtype and upstream or downstream effectors, can mediate gene transcription and rapid non-genomic actions. In this way, estrogen receptors in the brain participate in modulating neural differentiation, proliferation, neuroinflammation, cholesterol metabolism, synaptic plasticity, and behavior. Circulating sex hormones decrease in the course of aging, more rapidly at menopause in women, and slower in men. This review will discuss what this drop entails in terms of modulating neuroprotection and resilience in the aging brain downstream of spatiotemporal estrogen receptor alpha (ERα) and beta (ERβ) signaling, as well as in terms of the sex differences observed in Alzheimer's disease (AD) and Parkinson's disease (PD). In addition, controversies related to ER expression in the brain will be discussed. Understanding the spatiotemporal signaling of sex hormones in the brain can lead to more personalized prevention strategies or therapies combating neurodegenerative diseases.

Topics & Concepts

NeuroprotectionEstrogen receptorEstrogenReceptorInternal medicineEndocrinologyHormoneEstrogen receptor alphaMenopauseEstrogen receptor betaBiologySex hormone receptorNeuroscienceGPERSignal transductionAromataseSelective estrogen receptor modulatorPELP-1Transcription (linguistics)MedicineDiseaseTranscription factorSex hormone-binding globulinGene expressionEstrogen-related receptor alphaEstrogen-related receptor gammaNuclear receptorMenopause: Health Impacts and TreatmentsEstrogen and related hormone effectsNuclear Receptors and Signaling
Estrogen receptors and the aging brain | Litcius