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NERVOUS SYSTEM CELL BIOLOGY

Mechanisms of interleukin-1-induced Ca²⁺ signals in mouse cortical astrocytes: roles of store- and receptor-operated Ca²⁺ entry

Department of Physiology, University of Maryland School of Medicine, Baltimore, Maryland

Submitted 12 June 2007 ; accepted in final form 25 July 2007

Many neurodegenerative disorders are accompanied by chronic glial activation, which is characterized by the abundant production of proinflammatory cytokines, such as IL-1. IL-1 disrupts Ca²⁺ homeostasis and stimulates astrocyte reactivity. The mechanisms by which IL-1 induces Ca²⁺ dysregulation are not completely defined. Here, we examined how acute and chronic (24–48 h) treatment with IL-1 affect Ca²⁺ homeostasis in freshly dissociated and primary cultured mouse cortical astrocytes. Cytosolic free Ca²⁺ concentration ([Ca²⁺]_cyt) was measured with fura-2 using digital imaging. An acute application of 10 ng/ml IL-1 induced Ca²⁺ mobilization from intracellular stores and activated store-operated Ca²⁺ entry (SOCE) and receptor-operated Ca²⁺ entry (ROCE) in both freshly dissociated and cultured actrocytes. Treatment of cultured astrocytes with IL-1 for 24 and 48 h elevated resting [Ca²⁺]_cyt, decreased Ca²⁺ store content [associated with sarco(endo)plasmic reticulum Ca²⁺-ATPase 2b downregulation], and augmented ROCE. Based on evidence that receptor-operated, but not store-operated Ca²⁺ channels are Ba²⁺ permeable, Ba²⁺ entry was used to distinguish receptor-operated Ca²⁺ channels from store-operated Ca²⁺ channels. ROCE was activated by the diacylglycerol analog, 1-oleoyl-2-acetyl-sn-glycerol (OAG). In the presence of extracellular Ba²⁺, OAG-induced elevations of cytosolic Ba²⁺ (fura-2 340-to-380-nm ratio) were significantly larger in astrocytes treated with IL-1. These changes in IL-1-treated astrocytes correlate with augmented expression of transient receptor potential cation channel (TRPC)6 protein, which likely mediates ROCE. Knockdown of the TRPC6 gene markedly reduced ROCE. The data suggest that IL-1-induced dysregulation of Ca²⁺ homeostasis is the result of enhanced ROCE and TRPC6 expression. The disruption of Ca²⁺ homeostasis appears to be an upstream component in the cascade of IL-1-activated pathways leading to neurodegeneration.

transient receptor potential cation channel proteins

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