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Adipose tissue stem cells in peripheral nerve regeneration— In vitro and in vivo
Author(s) -
Rhode Sophie Charlotte,
Beier Justus Patrick,
Ruhl Tim
Publication year - 2021
Publication title -
journal of neuroscience research
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.72
H-Index - 160
eISSN - 1097-4547
pISSN - 0360-4012
DOI - 10.1002/jnr.24738
Subject(s) - neurotrophic factors , regeneration (biology) , microbiology and biotechnology , nerve guidance conduit , neurotrophin , mesenchymal stem cell , ciliary neurotrophic factor , peripheral nerve injury , stem cell , biology , neuroscience , biochemistry , receptor
Abstract After peripheral nerve injury, Schwann cells (SCs) are crucially involved in several steps of the subsequent regenerative processes, such as the Wallerian degeneration. They promote lysis and phagocytosis of myelin, secrete numbers of neurotrophic factors and cytokines, and recruit macrophages for a biological debridement. However, nerve injuries with a defect size of >1 cm do not show proper tissue regeneration and require a surgical nerve gap reconstruction. To find a sufficient alternative to the current gold standard—the autologous nerve transplant—several cell‐based therapies have been developed and were experimentally investigated. One approach aims on the use of adipose tissue stem cells (ASCs). These are multipotent mesenchymal stromal cells that can differentiate into multiple phenotypes along the mesodermal lineage, such as osteoblasts, chondrocytes, and myocytes. Furthermore, ASCs also possess neurotrophic features, that is, they secrete neurotrophic factors like the nerve growth factor, brain‐derived neurotrophic factor, neurotrophin‐3, ciliary neurotrophic factor, glial cell‐derived neurotrophic factor, and artemin. They can also differentiate into the so‐called Schwann cell‐like cells (SCLCs). These cells share features with naturally occurring SCs, as they also promote nerve regeneration in the periphery. This review gives a comprehensive overview of the use of ASCs in peripheral nerve regeneration and peripheral nerve tissue engineering both in vitro and in vivo . While the sustainability of differentiation of ASCs to SCLCs in vivo is still questionable, ASCs used with different nerve conduits, such as hydrogels or silk fibers, have been shown to promote nerve regeneration.

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