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A neuronal wiring platform through microridges for rationally engineered neural circuits

Authors :
Benjamin J. Seicol
Meijian Wang
Huiran Yang
Hao Qi
Yu Wu
Liang Guo
Ruili Xie
Yong Wang
Source :
APL Bioengineering, Vol 4, Iss 4, Pp 046106-046106-10 (2020), APL Bioengineering
Publication Year :
2020
Publisher :
AIP Publishing LLC, 2020.

Abstract

Precisely engineered neuronal circuits are promising for both fundamental research and clinical applications. However, randomly plating thousands of cells during neural network fabrication remains a major technical obstacle, which often results in a loss of tracking in neurons' identities. In this work, we demonstrated an accurate and unique neural wiring technique, mimicking neurons' natural affinity to microfibers. SU-8 microridges, imitating lie-down microfibers, were photolithographically patterned and then selectively coated with poly-l-lysine. We accurately plated Aplysia californica neurons onto designated locations. Plated neurons were immobilized by circular microfences. Furthermore, neurites regrew effectively along the microridges in vitro and reached adjacent neurons without undesirable crosstalks. Functional chemical synapses also formed between accurately wired neurons, enabling two-way transmission of electrical signals. Finally, we fabricated microridges on a microelectrode array. Neuronal spikes, stimulation-evoked synaptic activity, and putative synaptic adaption between connected neurons were observed. This biomimetic platform is simple to fabricate and effective with neurite pathfinding. Therefore, it can serve as a powerful tool for fabricating neuronal circuits with rational design, organized cellular communications, and fast prototyping.

Details

Language :
English
ISSN :
24732877
Volume :
4
Issue :
4
Database :
OpenAIRE
Journal :
APL Bioengineering
Accession number :
edsair.doi.dedup.....9c8de53dbff2dbc6c77a688bf5eb2986