Journal
PURINERGIC SIGNALLING
Volume 12, Issue 2, Pages 331-341Publisher
SPRINGER
DOI: 10.1007/s11302-016-9507-6
Keywords
Stem cells; Purinergic signalling; P2X7 receptors; Ca2+ waves; Ependyma; Spinal cord
Categories
Funding
- ANII [FCE 2369, FCE 100411, FCE 103356]
- National Institute of Neurological Disorders and Stroke [R01NS048255]
- NICHD
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The ependyma of the spinal cord harbours stem cells which are activated by traumatic spinal cord injury. Progenitor-like cells in the central canal (CC) are organized in spatial domains. The cells lining the lateral aspects combine characteristics of ependymocytes and radial glia (RG) whereas in the dorsal and ventral poles, CC-contacting cells have the morphological phenotype of RG and display complex electrophysiological phenotypes. The signals that may affect these progenitors are little understood. Because ATP is massively released after spinal cord injury, we hypothesized that purinergic signalling plays a part in this spinal stem cell niche. We combined immunohistochemistry, in vitro patch-clamp whole-cell recordings and Ca2+ imaging to explore the effects of purinergic agonists on ependymal progenitor-like cells in the neonatal (P1-P6) rat spinal cord. Prolonged focal application of a high concentration of ATP (1 mM) induced a slow inward current. Equimolar concentrations of BzATP generated larger currents that reversed close to 0 mV, had a linear current-voltage relationship and were blocked by Brilliant Blue G, suggesting the presence of functional P2X7 receptors. Immunohistochemistry showed that P2X7 receptors were expressed around the CC and the processes of RG. BzATP also generated Ca2+ waves in RG that were triggered by Ca2+ influx and propagated via Ca2+ release from internal stores through activation of ryanodine receptors. We speculate that the intracellular Ca2+ signalling triggered by P2X7 receptor activation may be an epigenetic mechanism to modulate the behaviour of progenitors in response to ATP released after injury.
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