Tissue‐Engineered Neural Network Graft Relays Excitatory Signal in the Completely Transected Canine Spinal Cord

Bi‐Qin Lai; Ming‐Tian Che; Bo Feng; Yu‐Rong Bai; Ge Li; Yuan‐Huan Ma; Lai‐Jian Wang; Meng‐Yao Huang; Ya‐Qiong Wang; Bin Jiang; Ying Ding; Xiang Zeng; Yuan‐Shan Zeng

doi:10.1002/advs.201901240

Advanced Science (Nov 2019)

Tissue‐Engineered Neural Network Graft Relays Excitatory Signal in the Completely Transected Canine Spinal Cord

Bi‐Qin Lai,
Ming‐Tian Che,
Bo Feng,
Yu‐Rong Bai,
Ge Li,
Yuan‐Huan Ma,
Lai‐Jian Wang,
Meng‐Yao Huang,
Ya‐Qiong Wang,
Bin Jiang,
Ying Ding,
Xiang Zeng,
Yuan‐Shan Zeng

Affiliations

Bi‐Qin Lai: Key Laboratory for Stem Cells and Tissue Engineering (Sun Yat‐sen University) Ministry of Education Guangzhou 510080 China
Ming‐Tian Che: Key Laboratory for Stem Cells and Tissue Engineering (Sun Yat‐sen University) Ministry of Education Guangzhou 510080 China
Bo Feng: Key Laboratory for Stem Cells and Tissue Engineering (Sun Yat‐sen University) Ministry of Education Guangzhou 510080 China
Yu‐Rong Bai: Key Laboratory for Stem Cells and Tissue Engineering (Sun Yat‐sen University) Ministry of Education Guangzhou 510080 China
Ge Li: Key Laboratory for Stem Cells and Tissue Engineering (Sun Yat‐sen University) Ministry of Education Guangzhou 510080 China
Yuan‐Huan Ma: Department of Histology and Embryology Zhongshan School of Medicine Sun Yat‐sen University Guangzhou 510080 China
Lai‐Jian Wang: Guangdong Provincial Key Laboratory of Brain Function and Disease Zhongshan School of Medicine Sun Yat‐sen University Guangzhou 510080 China
Meng‐Yao Huang: Guangdong Provincial Key Laboratory of Brain Function and Disease Zhongshan School of Medicine Sun Yat‐sen University Guangzhou 510080 China
Ya‐Qiong Wang: Department of Electron Microscope Zhongshan School of Medicine Sun Yat‐sen University Guangzhou 510080 China
Bin Jiang: Guangdong Provincial Key Laboratory of Brain Function and Disease Zhongshan School of Medicine Sun Yat‐sen University Guangzhou 510080 China
Ying Ding: Department of Histology and Embryology Zhongshan School of Medicine Sun Yat‐sen University Guangzhou 510080 China
Xiang Zeng: Key Laboratory for Stem Cells and Tissue Engineering (Sun Yat‐sen University) Ministry of Education Guangzhou 510080 China
Yuan‐Shan Zeng: Key Laboratory for Stem Cells and Tissue Engineering (Sun Yat‐sen University) Ministry of Education Guangzhou 510080 China

DOI: https://doi.org/10.1002/advs.201901240
Journal volume & issue: Vol. 6, no. 22
pp. n/a – n/a

Abstract

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Abstract Tissue engineering produces constructs with defined functions for the targeted treatment of damaged tissue. A complete spinal cord injury (SCI) model is generated in canines to test whether in vitro constructed neural network (NN) tissues can relay the excitatory signal across the lesion gap to the caudal spinal cord. Established protocols are used to construct neural stem cell (NSC)‐derived NN tissue characterized by a predominantly neuronal population with robust trans‐synaptic activities and myelination. The NN tissue is implanted into the gap immediately following complete transection SCI of canines at the T10 spinal cord segment. The data show significant motor recovery of paralyzed pelvic limbs, as evaluated by Olby scoring and cortical motor evoked potential (CMEP) detection. The NN tissue survives in the lesion area with neuronal phenotype maintenance, improves descending and ascending nerve fiber regeneration, and synaptic integration with host neural circuits that allow it to serve as a neuronal relay to transmit excitatory electrical signal across the injured area to the caudal spinal cord. These results suggest that tissue‐engineered NN grafts can relay the excitatory signal in the completely transected canine spinal cord, providing a promising strategy for SCI treatment in large animals, including humans.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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