Loading…

Graphene oxide substrates with N-cadherin stimulates neuronal growth and intracellular transport

[Display omitted] Intracellular transport is fundamental for neuronal function and development and is dependent on the formation of stable actin filaments. N-cadherin, a cell–cell adhesion protein, is actively involved in neuronal growth and actin cytoskeleton organization. Various groups have explo...

Full description

Saved in:
Bibliographic Details
Published in:Acta biomaterialia 2019-05, Vol.90, p.412-423
Main Authors: Qin, Ellen C., Kandel, Mikhail E., Liamas, Evangelos, Shah, Tauseef B., Kim, Chaeyeon, Kaufman, Collin D., Zhang, Zhenyu J., Popescu, Gabriel, Gillette, Martha U., Leckband, Deborah E., Kong, Hyunjoon
Format: Article
Language:English
Subjects:
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:[Display omitted] Intracellular transport is fundamental for neuronal function and development and is dependent on the formation of stable actin filaments. N-cadherin, a cell–cell adhesion protein, is actively involved in neuronal growth and actin cytoskeleton organization. Various groups have explored how neurons behaved on substrates engineered to present N-cadherin; however, few efforts have been made to examine how these surfaces modulate neuronal intracellular transport. To address this issue, we assembled a substrate to which recombinant N-cadherin molecules are physiosorbed using graphene oxide (GO) or reduced graphene oxide (rGO). N-cadherin physisorbed on GO and rGO led to a substantial enhancement of intracellular mass transport along neurites relative to N-cadherin on glass, due to increased neuronal adhesion, neurite extensions, dendritic arborization and glial cell adhesion. This study will be broadly useful for recreating active neural tissues in vitro and for improving our understanding of the development, homeostasis, and physiology of neurons. Intracellular transport of proteins and chemical cues is extremely important for culturing neurons in vitro, as they replenish materials within and facilitate communication between neurons. Various studies have shown that intracellular transport is dependent on the formation of stable actin filaments. However, the extent to which cadherin-mediated cell–cell adhesion modulates intracellular transport is not heavily explored. In this study, N-cadherin was adsorbed onto graphene oxide-based substrates to understand the role of cadherin at a molecular level and the intracellular transport within cells was examined using spatial light interference microscopy. As such, the results of this study will serve to better understand and harness the role of cell–cell adhesion in neuron development and regeneration.
ISSN:1742-7061
1878-7568
DOI:10.1016/j.actbio.2019.04.005