Cooperative and competitive regulation of the astrocytic transcriptome by neurons and endothelial cells: Impact on astrocyte maturation

Abstract: Astrocytes have essential roles in central nervous system (CNS) health and disease. During development, immature astrocytes show complex interactions with neurons, endothelial cells, and other glial cell types. Our work and that of others have shown that these interactions are important for astrocytic maturation. However, whether and how these cells work together to control this process remains poorly understood. Here, we test the hypothesis that cooperative interactions of astrocytes with neurons and endothel… Show more

“…Astrocytes can adapt to energy metabolic changes to withstand cellular challenges and have a higher metabolic plasticity than neurons [38]. Recent neuroenergetic studies have highlighted the implications of the cooperative interplay between astrocytes and neurons [69][70][71][72]. Major processes responsible for the high energy expenditure in the brain include the maintenance and restoration of electrolyte gradients dissipated by action potentials, postsynaptic signaling events, and the uptake and recycling of neurotransmitters [38,73].…”

Effects of a Diabetic Microenvironment on Neurodegeneration: Special Focus on Neurological Cells

“…Astrocytes can adapt to energy metabolic changes to withstand cellular challenges and have a higher metabolic plasticity than neurons [38]. Recent neuroenergetic studies have highlighted the implications of the cooperative interplay between astrocytes and neurons [69][70][71][72]. Major processes responsible for the high energy expenditure in the brain include the maintenance and restoration of electrolyte gradients dissipated by action potentials, postsynaptic signaling events, and the uptake and recycling of neurotransmitters [38,73].…”

Effects of a Diabetic Microenvironment on Neurodegeneration: Special Focus on Neurological Cells