Litcius/Paper detail

Skin precursor‐derived Schwann cells accelerate in vivo prevascularization of tissue‐engineered nerves to promote peripheral nerve regeneration

Meiyuan Li, Xiyang Cheng, Shuyue Feng, Hui Zhu, Panjian Lu, Ping Zhang, Xiaodong Cai, Pingping Qiao, Xiaosong Gu, Gang Wang, Chengbin Xue, Hongkui Wang

2023Glia16 citationsDOI

Abstract

Prevascularization strategies have become a hot spot in tissue engineering. As one of the potential candidates for seed cells, skin precursor-derived Schwann cells (SKP-SCs) were endowed with a new role to more efficiently construct prevascularized tissue-engineered peripheral nerves. The silk fibroin scaffolds seeded with SKP-SCs were prevascularized through subcutaneously implantation, which was further assembled with the SKP-SC-containing chitosan conduit. SKP-SCs expressed pro-angiogenic factors in vitro and in vivo. SKP-SCs significantly accelerated the satisfied prevascularization in vivo of silk fibroin scaffolds compared with VEGF. Moreover, the NGF expression revealed that pregenerated blood vessels adapted to the nerve regeneration microenvironment through reeducation. The short-term nerve regeneration of SKP-SCs-prevascularization was obviously superior to that of non-prevascularization. At 12 weeks postinjury, both SKP-SCs-prevascularization and VEGF-prevascularization significantly improved nerve regeneration with a comparable degree. Our figures provide a new enlightenment for the optimization of prevascularization strategies and how to further utilize tissue engineering for better repair.

Topics & Concepts

Regeneration (biology)FibroinIn vivoCell biologyTissue engineeringNerve guidance conduitSchwann cellBiologyAnatomyMaterials scienceSILKBiotechnologyGeneticsComposite materialNerve injury and regenerationSilk-based biomaterials and applicationsWound Healing and Treatments