Neuronal Release of Cytokine IL-3 Triggered by Mechanosensitive Autostimulation of the P2X7 Receptor Is Neuroprotective

Mechanical strain due to increased pressure or swelling activates inflammatory responses in many neural systems. As cytokines and chemokine messengers lead to both pro-inflammatory and neuroprotective actions, understanding the signaling patterns triggered by mechanical stress may help improve overa...

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Bibliographic Details
Published in:Frontiers in cellular neuroscience 2016-11, Vol.10, p.270-270
Main Authors: Lim, Jason C, Lu, Wennan, Beckel, Jonathan M, Mitchell, Claire H
Format: Article
Language:English
Subjects:
Adenosine
Astrocytes
ATP release
Calcium (extracellular)
CCL20 protein
Cell activation
Cell adhesion & migration
Cell culture
Cerebrospinal fluid
Chemokines
Cytokines
Enzyme-linked immunosorbent assay
Gene expression
Gene regulation
Glaucoma
Glial cells
Granulocyte-macrophage colony-stimulating factor
Inflammation
Interleukin 10
Interleukin 3
Interleukin 4
mechanosensitivity
Microglia
Neuronal-glial interactions
Neurons
Neuroprotection
Neuroscience
P2X7
Pressure
Retina
Signal transduction
Transcription
Traumatic brain injury
Traumatic brain injury (TBI)
Vascular endothelial growth factor
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Summary:Mechanical strain due to increased pressure or swelling activates inflammatory responses in many neural systems. As cytokines and chemokine messengers lead to both pro-inflammatory and neuroprotective actions, understanding the signaling patterns triggered by mechanical stress may help improve overall outcomes. While cytokine signaling in neural systems is often associated with glial cells like astrocytes and microglia, the contribution of neurons themselves to the cytokine response is underappreciated and has bearing on any balanced response. Mechanical stretch of isolated neurons was previously shown to trigger ATP release through pannexin hemichannels and autostimulation of P2X7 receptors (P2X7Rs) on the neural membrane. Given that P2X7Rs are linked to cytokine activation in other cells, this study investigates the link between neuronal stretch and cytokine release through a P2X7-dependent pathway. Cytokine assays showed application of a 4% strain to isolated rat retinal ganglion cells (RGCs) released multiple cytokines. The P2X7R agonist BzATP also released multiple cytokines; Interleukin 3 (IL-3), TNF-α, CXCL9, VEGF, L-selectin, IL-4, GM-CSF, IL-10, IL-1Rα, MIP and CCL20 were released by both stimuli, with the release of IL-3 greatest with either stimuli. Stretch-dependent IL-3 release was confirmed with ELISA and blocked by P2X7R antagonists A438079 and Brilliant Blue G (BBG), implicating autostimulation of the P2X7R in stretch-dependent IL-3 release. Neuronal IL-3 release triggered by BzATP required extracellular calcium. The IL-3Rα receptor was expressed on RGCs but not astrocytes, and both IL-3Rα and IL-3 itself were predominantly expressed in the retinal ganglion cell layer of adult retinal sections, implying autostimulation of receptors by released IL-3. While the number of surviving ganglion cells decreased with time in culture, the addition of IL-3 protected against this loss of neurons. Expression of mRNA for and increased in rat retinas stretched with moderate intraocular pressure (IOP) elevation; BBG blocked the rise in , implicating a role for the P2X7R in transcriptional regulation . In summary, mechanical stretch triggers release of cytokines from neurons that can convey neuroprotection. The enhancement of these signals implicates P2X7R-mediated IL-3 signaling as an endogenous pathway that could minimize damage following neuronal exposure to chronic mechanical strain.
ISSN:1662-5102
1662-5102
DOI:10.3389/fncel.2016.00270