Physiological Electrical Signals Promote Chain Migration of Neuroblasts by Up-Regulating P2Y1 Purinergic Receptors and Enhancing Cell Adhesion
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- 作者:Lin Cao ; Jin Pu ; Roderick H. Scott ; Jared Ching…
- 关键词:Neuroblasts ; Chain migration ; P2Y1 ; β ; catenin ; Extracellular electrical gradients
- 刊名:Stem Cell Reviews and Reports
- 出版年:2015
- 出版时间:February 2015
- 年:2015
- 卷:11
- 期:1
- 页码:75-86
- 全文大小:2,851 KB
- 参考文献:1. Alvarez-Buylla, A., & Garcia-Verdugo, J. M. (2002). Neurogenesis in adult subventricular zone. / The Journal of Neuroscience: the Official Journal of the Society for Neuroscience, 22, 629-34.
2. Lois, C., Garcia-Verdugo, J. M., & Alvarez-Buylla, A. (1996). Chain migration of neuronal precursors. / Science, 271, 978-81. CrossRef
3. O’Rourke, N. A., Chenn, A., & McConnell, S. K. (1997). Postmitotic neurons migrate tangentially in the cortical ventricular zone. / Development, 124, 997-005.
4. Wynn, M. L., Kulesa, P. M., & Schnell, S. (2012). Computational modelling of cell chain migration reveals mechanisms that sustain follow-the-leader behaviour. / Journal of the Royal Society Interface/the Royal Society, 9, 1576-588. CrossRef
5. Yagita, Y., Sakurai, T., Tanaka, H., Kitagawa, K., Colman, D. R., & Shan, W. (2009). N-cadherin mediates interaction between precursor cells in the subventricular zone and regulates further differentiation. / Journal of Neuroscience Research, 87, 3331-342. CrossRef
6. Tomasiewicz, H., Ono, K., Yee, D., Thompson, C., Goridis, C., Rutishauser, U., et al. (1993). Genetic deletion of a neural cell adhesion molecule variant (N-CAM-180) produces distinct defects in the central nervous system. / Neuron, 11, 1163-174. CrossRef
7. Bonfanti, L., & Theodosis, D. T. (1994). Expression of polysialylated neural cell adhesion molecule by proliferating cells in the subependymal layer of the adult rat, in its rostral extension and in the olfactory bulb. / Neuroscience, 62, 291-05. CrossRef
8. Wang, Y., Kaneko, N., Asai, N., Enomoto, A., Isotani-Sakakibara, M., Kato, T., et al. (2011). Girdin is an intrinsic regulator of neuroblast chain migration in the rostral migratory stream of the postnatal brain. / The Journal of Neuroscience: the Official Journal of the Society for Neuroscience, 31, 8109-122. CrossRef
9. Delaloy, C., Liu, L., Lee, J. A., Su, H., Shen, F., Yang, G. Y., et al. (2010). MicroRNA-9 coordinates proliferation and migration of human embryonic stem cell-derived neural progenitors. / Cell Stem Cell, 6, 323-35. CrossRef
10. Jacques, T. S., Relvas, J. B., Nishimura, S., Pytela, R., Edwards, G. M., Streuli, C. H., et al. (1998). Neural precursor cell chain migration and division are regulated through different beta1 integrins. / Development, 125, 3167-177.
11. McCaig, C. D., Song, B., & Rajnicek, A. M. (2009). Electrical dimensions in cell science. / Journal of Cell Science, 122, 4267-276. CrossRef
12. McCaig, C. D., Rajnicek, A. M., Song, B., & Zhao, M. (2002). Has electrical growth cone guidance found its potential? / Trends in Neurosciences, 25, 354-59. CrossRef
13. Hotary, K. B., & Robinson, K. R. (1991). The neural tube of the Xenopus embryo maintains a potential difference across itself. / Brain Research. Developmental Brain Research, 59, 65-3. CrossRef
14. Shi, R., & Borgens, R. B. (1994). Embryonic neuroepithelial sodium transport, the resulting physiological potential, and cranial development. / Developmental Biology, 165, 105-16. CrossRef
15. Hotary, K. B., & Robinson, K. R. (1990). Endogenous electrical currents and the resultant voltage gradients in the chick embryo. / Developmental Biology, 140, 149-60. CrossRef
16. Shi, R., & Borgens, R. B. (1995). Three-dimensional gradients of voltage during development of the nervous system as invisible coordinates for the establishment of embryonic pattern. / Developmental Dynamics, 202, 101-14.
文摘
Neuroblasts migrate as directed chains of cells during development and following brain damage. A fuller understanding of the mechanisms driving this will help define its developmental significance and in the refinement of strategies for brain repair using transplanted stem cells. Recently, we reported that in adult mouse there are ionic gradients within the extracellular spaces that create an electrical field (EF) within the rostral migratory stream (RMS), and that this acts as a guidance cue for neuroblast migration. Here, we demonstrate an endogenous EF in brain slices and show that mimicking this by applying an EF of physiological strength, switches on chain migration in mouse neurospheres and in the SH-SY5Y neuroblastoma cell line. Firstly, we detected a substantial endogenous EF of 31.8?±-.5 mV/mm using microelectrode recordings from explants of the subventricular zone (SVZ). Pharmacological inhibition of this EF, effectively blocked chain migration in 3D cultures of SVZ explants. To mimic this EF, we applied a physiological EF and found that this increased the expression of N-cadherin and β-catenin, both of which promote cell-cell adhesion. Intriguingly, we found that the EF up-regulated P2Y purinoceptor 1 (P2Y1) to contribute to chain migration of neuroblasts through regulating the expression of N-cadherin, β-catenin and the activation of PKC. Our results indicate that the naturally occurring EF in brain serves as a novel stimulant and directional guidance cue for neuronal chain migration, via up-regulation of P2Y1.