Abstract
Previous studies identify a role for hypothalamic glia in energy balance regulation; however, a narrow hypothalamic focus provides an incomplete understanding of how glia throughout the brain respond to and regulate energy homeostasis. We examined the responses of glia in the dorsal vagal complex (DVC) to the adipokine leptin and high fat diet-induced obesity. DVC astrocytes functionally express the leptin receptor; in vivo pharmacological studies suggest that DVC astrocytes partly mediate the anorectic effects of leptin in lean but not diet-induced obese rats. Ex vivo calcium imaging indicated that these changes were related to a lower proportion of leptin-responsive cells in the DVC of obese versus lean animals. Finally, we investigated DVC microglia and astroglia responses to leptin and energy balance dysregulation in vivo: obesity decreased DVC astrogliosis, whereas the absence of leptin signaling in Zucker rats was associated with extensive astrogliosis in the DVC and decreased hypothalamic micro- and astrogliosis. These data uncover a novel functional heterogeneity of astrocytes in different brain nuclei of relevance to leptin signaling and energy balance regulation.
Highlights
The development of efficacious weight management therapies to treat obesity requires a broader understanding of the underlying biological basis of obesity
dorsal vagal complex (DVC) astrocytes express the leptin receptor The expression of the leptin receptor on hypothalamic astrocytes is well established in rats and mice[14,15,35,59]
The presence of leptin signaling at its cognate receptor (LepR) expression on rat DVC astrocytes was detected by Fluorescent in situ hybridization (FISH) using RNA-scope
Summary
The development of efficacious weight management therapies to treat obesity requires a broader understanding of the underlying biological basis of obesity. High fat diet-induced obesity reduces the percentage of both DVC astrocytes and neurons showing leptin-induced Ca+2 signaling in ex vivo brainstem slice preparations
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