Titlebook: Glial-Neuronal Signaling in Neuroendocrine Systems; Jeffrey G. Tasker,Jaideep S. Bains,Julie A. Chowen Book 2021 Springer Nature Switzerla

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Microglia, Hormones, and Behavior cells that traffic into and out of the nervous system. We describe how microglia are influenced by circulating hormones across the lifespan. In particular, we focus on the hormones associated with reproduction and stress and how these impact microglia, which in turn influence the establishment and

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Hypothalamic Astrocytes and the Role of Neuroprogesterone in Estrogen Positive Feedbacktrols the surge release of luteinizing hormone (LH) to induce ovulation and the formation of the corpus luteum. Estradiol controls physical interactions between astrocytes and gonadotropin-releasing hormone (GnRH) neurons, controlling synaptic input and peptide release. Importantly, estradiol stimul

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Fred Wendorf,Angela E. Close,Romuald Schild, where they transition to become microglia, the first and only glial cell present in the early embryonic central nervous system. These phagocytic immune cells are crucial during embryogenesis for the proper establishment of hypothalamic metabolic circuitry and have been shown to be both sexually di

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Das holografische Zeitmittelungsverfahren,ion, and as a result contributes to inter-synaptic crosstalk between glutamate and GABAergic inputs through metabotropic and kainate receptors. Finally it hampers the contribution of astrocytes to glutamatergic synaptic communication through .-serine gliotransmission. Astrocytes thus dynamically dic

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Bildentstehung in der Holographie,tively increasing their ability to respond to many different afferent glutamate inputs when neurohormone release is needed. This system represents a unique example of how astrocyte–neuron interactions can shape the activity-level of homeostatic neural networks to meet physiological demands.

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Optical Information Processing Methods,ing of affected individuals. Finally, we discuss a recently developed technique that allows the three-dimensional reconstruction and analysis of glial cells, thereby providing unprecedented details about glial morphology.

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Series expansions and local behavior,, such as astrocytes, is increasingly appreciated. Finally, we will discuss recent cutting-edge methodological approaches emerging in the field that allow for the study of astrocytes, presently or yet to be conceived, which will provide a further and more complete understanding of the central regula