Journal ArticleDOI
Advances in peripheral nerve regeneration
Jami L. Scheib,Ahmet Hoke +1 more
TLDR
Use of rodent models of chronic denervation will facilitate the understanding of the molecular mechanisms of peripheral nerve regeneration and create the potential to test therapeutic advances.Abstract:
Rodent models of nerve injury have increased our understanding of peripheral nerve regeneration, but clinical applications have been scarce, partly because such models do not adequately recapitulate the situation in humans. In human injuries, axons are often required to extend over much longer distances than in mice, and injury leaves distal nerve fibres and target tissues without axonal contact for extended amounts of time. Distal Schwann cells undergo atrophy owing to the lack of contact with proximal neurons, which results in reduced expression of neurotrophic growth factors, changes in the extracellular matrix and loss of Schwann cell basal lamina, all of which hamper axonal extension. Furthermore, atrophy and denervation-related changes in target tissues make good functional recovery difficult to achieve even when axons regenerate all the way to the target tissue. To improve functional outcomes in humans, strategies to increase the speed of axonal growth, maintain Schwann cells in a healthy, repair-capable state and keep target tissues receptive to reinnervation are needed. Use of rodent models of chronic denervation will facilitate our understanding of the molecular mechanisms of peripheral nerve regeneration and create the potential to test therapeutic advances.read more
Citations
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Journal ArticleDOI
The repair Schwann cell and its function in regenerating nerves
Kristjan R. Jessen,Rhona Mirsky +1 more
TL;DR: The transcription factor c‐Jun, although not required for Schwann cell development, is therefore central to the reprogramming of myelin and non‐myelin (Remak) Schwann cells to repair cells after injury.
Journal ArticleDOI
Peripheral nerve regeneration: Experimental strategies and future perspectives
TL;DR: This review summarises all the events occurring after nerve damage at the level of the cell body, the site of injury and the target organ.
Journal ArticleDOI
Bioactive polymeric scaffolds for tissue engineering.
Scott Stratton,Namdev B. Shelke,Kazunori Hoshino,Swetha Rudraiah,Sangamesh G. Kumbar,Sangamesh G. Kumbar +5 more
TL;DR: 3D scaffold fabrication methodologies with a focus on optimizing scaffold performance through the matrix pores, bioactivity and degradation rate to enable tissue regeneration are highlighted.
Journal ArticleDOI
The Success and Failure of the Schwann Cell Response to Nerve Injury.
Kristjan R. Jessen,Rhona Mirsky +1 more
TL;DR: The re-programming of Remak and myelin cells to repair cells, together with the injury-induced switch of peripheral neurons to a growth mode, gives peripheral nerves their strong regenerative potential.
Journal ArticleDOI
Repair Schwann cell update: Adaptive reprogramming, EMT, and stemness in regenerating nerves
TL;DR: The emerging similarities between the injury response seen in nerves and in other tissues are discussed and the transcription factors, epigenetic mechanisms, and signaling cascades that control repair Schwann cells are surveyed, with emphasis on systems that selectively regulate the Schwann cell injury response.
References
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Journal ArticleDOI
Regeneration of axons after nerve transection repair is enhanced by degradation of chondroitin sulfate proteoglycan.
TL;DR: It is concluded that growth inhibition by CSPG contributes critically to the poor regenerative growth of axons in nerve transection repair and chondroitinase application may be used clinically to improve the outcome of primary peripheral nerve repair.
Journal ArticleDOI
The expression of the low affinity nerve growth factor receptor in long‐term denervated Schwann cells
TL;DR: This study used short‐term and long‐term transected distal sciatic nerves of rats to determine the variations of p75 expression by using immunocytochemistry and in situ hybridization.
Journal ArticleDOI
Subcellular Knockout of Importin β1 Perturbs Axonal Retrograde Signaling
Rotem Ben-Tov Perry,Ella Doron-Mandel,Elena Iavnilovitch,Ida Rishal,Shachar Y. Dagan,Michael Tsoory,Giovanni Coppola,Marguerite K. McDonald,Cynthia Gomes,Daniel H. Geschwind,Jeffery L. Twiss,Avraham Yaron,Mike Fainzilber +12 more
TL;DR: In this article, a long 3' untranslated region (3' UTR) was found to direct axonal localization of Importin β1, which is required for efficient retrograde signaling in injured axons.
Journal ArticleDOI
Evidence that Very Slow Wallerian Degeneration in C57BL/Ola Mice is an Intrinsic Property of the Peripheral Nerve.
TL;DR: Evidence is provided that the peripheral nerves of C57BL/Ola mice are different from those of other mice as they degenerate at a slower rate in vitro, providing additional evidence that recruited monocytes play a role in rapid Wallerian degeneration.
Journal ArticleDOI
Transplanted neural stem cells promote axonal regeneration through chronically denervated peripheral nerves
TL;DR: Improved regeneration in the PNS can be accomplished by combining neurotrophic factor support and removal of axon growth inhibitory components in the extracellular matrix by the first successful demonstration of regeneration through a chronically denervated nerve.
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