Autocrine Interleukin-10 Mediates Glucagon-Like Peptide-1 Receptor-Induced Spinal Microglial β-Endorphin Expression

The glucagon-like peptide-1 (GLP-1) receptor agonist exenatide stimulates microglial β-endorphin expression and subsequently produces neuroprotection and antinociception. This study illustrated an unrecognized autocrine role of IL-10 in mediation of exenatide-induced β-endorphin expression. Treatmen...

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Bibliographic Details
Published in:The Journal of neuroscience 2017-11, Vol.37 (48), p.11701-11714
Main Authors: Wu, Hai-Yun, Tang, Xue-Qi, Mao, Xiao-Fang, Wang, Yong-Xiang
Format: Article
Language:English
Subjects:
Activation
Animals
Animals, Newborn
Autocrine Communication - drug effects
Autocrine Communication - physiology
Autocrine signalling
beta-Endorphin - biosynthesis
beta-Endorphin - genetics
Cells, Cultured
Cyclic AMP response element-binding protein
Cytokines
Dose-Response Relationship, Drug
Endorphins
Exenatide
Gene Expression
Glucagon
Glucagon-like peptide 1
Glucagon-Like Peptide-1 Receptor - agonists
Glucagon-Like Peptide-1 Receptor - biosynthesis
Glucagon-Like Peptide-1 Receptor - genetics
Inflammation
Injection
Interleukin 10
Interleukin 4
Interleukin 6
Interleukin-10 - biosynthesis
Interleukin-10 - genetics
Interleukin-10 - pharmacology
Kinases
Male
Markers
Microglia
Microglia - drug effects
Microglia - metabolism
Neuropathy
Neuroprotection
Pain perception
Peptides - pharmacology
Phosphorylation
Protein kinase A
Rats
Rats, Wistar
Receptor mechanisms
Receptors
Rodents
Signal transduction
siRNA
Spinal Cord - cytology
Spinal Cord - drug effects
Spinal Cord - metabolism
Stat3 protein
Tumor necrosis factor-α
Venoms - pharmacology
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Summary:The glucagon-like peptide-1 (GLP-1) receptor agonist exenatide stimulates microglial β-endorphin expression and subsequently produces neuroprotection and antinociception. This study illustrated an unrecognized autocrine role of IL-10 in mediation of exenatide-induced β-endorphin expression. Treatment with exenatide in cultured primary spinal microglia concentration dependently stimulated the expression of the M2 microglial markers IL-10, IL-4, Arg 1, and CD206, but not the M1 microglial markers TNF-α, IL-1β, IL-6, or CD68. Intrathecal exenatide injection also significantly upregulated spinal microglial expression of IL-10, IL-4, Arg 1, and CD206, but not TNF-α, IL-1β, IL-6, or CD68. Intrathecal injection of exenatide stimulated spinal microglial expression of IL-10 and β-endorphin in neuropathic rats. Furthermore, treatment with IL-10 (but not IL-4) stimulated β-endorphin expression in cultured primary microglia, whereas treatment with β-endorphin failed to increase IL-10 expression. The IL-10-neutralizing antibody entirely blocked exenatide-induced spinal microglial expression of β-endorphin and and fully blocked exenatide mechanical antiallodynia in neuropathic rats. Moreover, specific cAMP/PKA/p38 signal inhibitors and siRNA/p38β, but not siRNA/p38α, completely blocked exenatide-induced IL-10 expression in cultured primary microglia. Knock-down of IL-10 receptor-α mRNA using siRNA fully inhibited exenatide-induced spinal microglial β-endorphin expression and mechanical antiallodynia in neuropathy. Exenatide also markedly stimulated phosphorylation of the transcription factor STAT3 in cultured primary microglia and β-endorphin stimulation was completely inhibited by the specific STAT3 activation inhibitor. These results revealed that IL-10 in microglia mediated β-endorphin expression after GLP-1 receptor activation through the autocrine cAMP/PKA/p38β/CREB and subsequent IL-10 receptor/STAT3 signal pathways. Activation of GLP-1 receptors specifically and simultaneously stimulates the expression of anti-inflammatory cytokines IL-10 and IL-4, as well as the neuroprotective factor β-endorphin from microglia. GLP-1 receptor agonism induces β-endorphin expression and antinociception through autocrine release of IL-10. Activation of GLP-1 receptors stimulates IL-10 and β-endorphin expression subsequently through the Gs-cAMP/PKA/p38β/CREB and IL-10/IL-10 receptor-α/STAT3 signal transduction pathways.
ISSN:0270-6474
1529-2401
DOI:10.1523/JNEUROSCI.1799-17.2017