Electric field-induced astrocyte alignment directs neurite outgrowth

JOHN K. ALEXANDER; BABETTE FUSS; RAYMOND J. COLELLO

doi:10.1017/S1740925X0600010X

Abstract

The extension and directionality of neurite outgrowth are key to achieving successful target connections during both CNS development and during the re-establishment of connections lost after neural trauma. The degree of axonal elongation depends, in large part, on the spatial arrangement of astrocytic processes rich in growth-promoting proteins. Because astrocytes in culture align their processes on exposure to an electrical field of physiological strength, we sought to determine the extent to which aligned astrocytes affect neurite outgrowth. To this end, dorsal root ganglia cells were seeded onto cultured rat astrocytes that were pre-aligned by exposure to an electric field of physiological strength (500 mV mm−1). Using confocal microscopy and digital image analysis, we found that neurite outgrowth at 24 hours and at 48 hours is enhanced significantly and directed consistently along the aligned astrocyte processes. Moreover, this directed neurite outgrowth is maintained when grown on fixed, aligned astrocytes. Collectively, these results indicate that endogenous electric fields present within the developing CNS might act to align astrocyte processes, which can promote and direct neurite growth. Furthermore, these results demonstrate a simple method to produce an aligned cellular substrate, which might be used to direct regenerating neurites.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Ayres, Chantal Bowlin, Gary L. Henderson, Scott C. Taylor, Leander Shultz, Jackie Alexander, John Telemeco, Todd A. and Simpson, David G. 2006. Modulation of anisotropy in electrospun tissue-engineering scaffolds: Analysis of fiber alignment by the fast Fourier transform. Biomaterials, Vol. 27, Issue. 32, p. 5524.

Li, Grace N. and Hoffman-Kim, Diane 2008. Tissue-Engineered Platforms of Axon Guidance. Tissue Engineering Part B: Reviews, Vol. 14, Issue. 1, p. 33.

Li, Grace NgaYin and Hoffman-Kim, Diane 2008. Evaluation of neurite outgrowth anisotropy using a novel application of circular analysis. Journal of Neuroscience Methods, Vol. 174, Issue. 2, p. 202.

Ariza, Carlos Atico and Mallapragada, Surya K. 2009. Advanced Biomaterials. p. 613.

He, Jianghong Liu, Jun Zhang, Zhijun Sun, Maomin Zhu, Ting and Xia, Chunlin 2009. Expression of fasciculation and elongation protein zeta-1 (FEZ1) in cultured rat neonatal astrocytes. Molecular and Cellular Biochemistry, Vol. 325, Issue. 1-2, p. 159.

Gugutkov, Dencho González-García, Cristina Rodríguez Hernández, José Carlos Altankov, George and Salmerón-Sánchez, Manuel 2009. Biological Activity of the Substrate-Induced Fibronectin Network: Insight into the Third Dimension through Electrospun Fibers. Langmuir, Vol. 25, Issue. 18, p. 10893.

Wang, Han Bing Mullins, Michael E Cregg, Jared M Hurtado, Andres Oudega, Martin Trombley, Matthew T and Gilbert, Ryan J 2009. Creation of highly aligned electrospun poly-L-lactic acid fibers for nerve regeneration applications. Journal of Neural Engineering, Vol. 6, Issue. 1, p. 016001.

Yao, Li O'Brien, Norah Windebank, Anthony and Pandit, Abhay 2009. Orienting neurite growth in electrospun fibrous neural conduits. Journal of Biomedical Materials Research Part B: Applied Biomaterials, Vol. 90B, Issue. 2, p. 483.

Corredor, Raul G and Goldberg, Jeffrey L 2009. Electrical activity enhances neuronal survival and regeneration. Journal of Neural Engineering, Vol. 6, Issue. 5, p. 055001.

Kofron, Celinda M. and Hoffman-Kim, Diane 2009. Optimization by Response Surface Methodology of Confluent and Aligned Cellular Monolayers for Nerve Guidance. Cellular and Molecular Bioengineering, Vol. 2, Issue. 4, p. 554.

Chao, Tzu‐I Xiang, Shuhuai Lipstate, Jessica Faye Wang, Changchun and Lu, Jennifer 2010. Poly(methacrylic acid)‐Grafted Carbon Nanotube Scaffolds Enhance Differentiation of hESCs into Neuronal Cells. Advanced Materials, Vol. 22, Issue. 32, p. 3542.

Kofron, Celinda M. Liu, Yu-Ting López-Fagundo, Cristina Y. Mitchel, Jennifer A. and Hoffman-Kim, Diane 2010. Neurite Outgrowth at the Biomimetic Interface. Annals of Biomedical Engineering, Vol. 38, Issue. 6, p. 2210.

East, Emma de Oliveira, Daniela Blum Golding, Jon P. and Phillips, James B. 2010. Alignment of Astrocytes Increases Neuronal Growth in Three-Dimensional Collagen Gels and Is Maintained Following Plastic Compression to Form a Spinal Cord Repair Conduit. Tissue Engineering Part A, Vol. 16, Issue. 10, p. 3173.

Ariza, Carlos Atico Fleury, Asha T. Tormos, Christian J. Petruk, Vadim Chawla, Sagar Oh, Jisun Sakaguchi, Donald S. and Mallapragada, Surya K. 2010. The Influence of Electric Fields on Hippocampal Neural Progenitor Cells. Stem Cell Reviews and Reports, Vol. 6, Issue. 4, p. 585.

Hoffman-Kim, Diane Mitchel, Jennifer A. and Bellamkonda, Ravi V. 2010. Topography, Cell Response, and Nerve Regeneration. Annual Review of Biomedical Engineering, Vol. 12, Issue. 1, p. 203.

Wu, Huijun Fan, Jintu Chu, Chih-Chang and Wu, Jun 2010. Electrospinning of small diameter 3-D nanofibrous tubular scaffolds with controllable nanofiber orientations for vascular grafts. Journal of Materials Science: Materials in Medicine, Vol. 21, Issue. 12, p. 3207.

Voge, Christopher M and Stegemann, Jan P 2011. Carbon nanotubes in neural interfacing applications. Journal of Neural Engineering, Vol. 8, Issue. 1, p. 011001.

Behan, Brenda L. DeWitt, Daniel G. Bogdanowicz, Danielle R. Koppes, Abigail N. Bale, Shyam S. and Thompson, Deanna M. 2011. Single‐walled carbon nanotubes alter Schwann cell behavior differentially within 2D and 3D environments. Journal of Biomedical Materials Research Part A, Vol. 96A, Issue. 1, p. 46.

Williams, Corin Xie, Angela W. Yamato, Masayuki Okano, Teruo and Wong, Joyce Y 2011. Stacking of aligned cell sheets for layer-by-layer control of complex tissue structure. Biomaterials, Vol. 32, Issue. 24, p. 5625.

Moore, Simon W. and Sheetz, Michael P. 2011. Biophysics of substrate interaction: Influence on neural motility, differentiation, and repair. Developmental Neurobiology, Vol. 71, Issue. 11, p. 1090.

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Electric field-induced astrocyte alignment directs neurite outgrowth

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