Growth factors-based therapeutic strategies and their underlying signaling mechanisms for peripheral nerve regeneration

Li, Rui; Li, Duo-hui; Zhang, Hongyu; Wang, Jian; Li, Xiaokun; Xiao, Jian

doi:10.1038/s41401-019-0338-1

Cited by 154 publications

(134 citation statements)

References 160 publications

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“…The site of injury contains a heterogeneous population of cells, and the increase in CTDSP1 after injury may therefore re ect the change in the type of cells that are present at the site of injury, such as the presence of injury-induced cells, like MPCs, which may express higher levels of CTDSP1 and lower levels of BDNF than muscle cells. Nevertheless, insu cient levels of BDNF and other neurotrophic factors at the site of injury are partly responsible for inhibition of axonal regeneration [5,28]. Importantly, our study suggests that it may be possible to increase the secretion of BDNF and other neurotrophic factors at the site of injury by modulating CTDSP1 activity.…”

Section: Discussionmentioning

confidence: 74%

“…Regeneration of peripheral nerves relies on the ability of peripheral neurons to switch to a regenerative state and on the development of a pro-regenerative environment at the site of injury created by local support cells. Both events require comprehensive transcriptional changes in both injured neurons and support cells [1][2][3][4]; however, therapeutic approaches have mainly focused on modulating or introducing a single or at most the combination of a limited number of molecules, rather than sustaining the regenerative program as a whole [5][6][7][8]. An overall epigenetic reprogramming approach could promote a favorable regenerative environment by targeting the support cells located at the site of injury, as well as activating the intrinsic mechanism of axonal regeneration in the neuronal cell bodies of the injured nerves located at a distance from the site of injury (Fig.…”

Section: Introductionmentioning

confidence: 99%

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C-terminal domain small phosphatase 1 (CTDSP1) regulates growth factor expression and axonal regeneration

Gervasi¹,

Dimitchev²,

Clark³

et al. 2020

Preprint

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Background: Peripheral Nerve Injury (PNI) represents a major clinical and economic burden. Despite the ability of peripheral neurons to regenerate their axons after an injury, patients are often left with motor and/or sensory disability and may develop chronic pain. Successful regeneration and target organ reinnervation require comprehensive transcriptional changes in both injured neurons and support cells located at the site of injury. The expression of most of the genes required for axon growth and guidance and for synapsis formation is repressed by a single master transcriptional regulator, the Repressor Element 1 Silencing Transcription factor (REST). Sustained increase of REST levels after injury inhibits axon regeneration and leads to chronic pain. REST is stabilized by the Carboxy-terminal domain small phosphatase 1 (CTDSP1), which prevents REST targeting to the proteasome. Here, we explore whether knockdown of CTDSP1 promotes neurotrophic factor expression in mesenchymal progenitor cells (MPCs), a type of support cells that can be harvested from the site of injury during surgical debridement, and in dorsal root ganglion (DRG) neurons. In addition, we explore whether CTDSP1 knockdown supports DRG neurite regeneration. Methods: Cultured human MPCs or rat DRG neurons were transfected with REST or CTDSP1 specific siRNA. Neurotrophic factor expression was analyzed by RT-qPCR and Western Blot. Brain-derived Neurotrophic Factor (BDNF) in cell culture medium was quantified by ELISA. Axon regeneration was quantified measuring the length of the longest neurite of a neuron. Results: Knockdown of REST or CTDSP1 in MPCs results in increased expression of BDNF and nerve growth factor (NGF). In addition, knockdown of CTDSP1 leads to increased release of BDNF in cell culture medium from MPCs and to reduced levels of REST protein. Finally, knockdown of CTDSP1 in DRG neurons results in increased levels of BDNF and increased DRG neurite growth rate.Conclusions: CTDSP1 knockdown promotes neurotrophic factor expression in both DRG neurons and the support cells MPCs. In addition, it promotes DRG neuron regeneration. Therapeutics targeting CTDSP1 activity may represent a novel epigenetic strategy to promote peripheral nerve regeneration after PNI by promoting the regenerative program repressed by injury-induced increased levels of REST in both neurons and support cells.

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Section: Discussionmentioning

confidence: 74%

Section: Introductionmentioning

confidence: 99%

C-terminal domain small phosphatase 1 (CTDSP1) regulates growth factor expression and axonal regeneration

Gervasi¹,

Dimitchev²,

Clark³

et al. 2020

Preprint

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“…The first group includes five types of neurotrophic factors: axonal growth promoters (neurotrophins), neuropoietic cytokines, fibroblast growth factors, transforming growth factors, and insulin-like growth factors (Boyd and Gordon, 2003;Jin et al, 2009;Li et al, 2020).…”

Section: Differential Regeneration Of Sensory and Motor Axonsmentioning

confidence: 99%

“…Axonal growth promoters NGF, BDNF, NT3, NT4/5 Boyd and Gordon, 2003;Jin et al, 2009;Li et al, 2020 Transforming growth factors GDNF Allodi et al, 2012;Hoyng et al, 2014;Anand et al, 2017 Insulin-like growth factors IGF1 e IGF2 Di Giulio et al, 2000;Brushart et al, 2013 Fibroblast growth factors FGF2 Allodi et al, 2012;Brushart et al, 2013;Santos et al, 2016b Neuropoietic cytokines PTN, CNTF, IL6, LIF Mi et al, 2007;Gordon, 2014 Molecules integrated into the surrounding nerve tissue…”

Section: Neurotrophic Factorsmentioning

confidence: 99%

Biomimetic Approaches for Separated Regeneration of Sensory and Motor Fibers in Amputee People: Necessary Conditions for Functional Integration of Sensory–Motor Prostheses With the Peripheral Nerves

Guedan-Duran

Jemni-Damer

Orueta-Zenarruzabeitia

et al. 2020

Front. Bioeng. Biotechnol.

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“…É possível observar perda da continuidade das fibras nervosas, reação inflamatória devido ao trauma ocorrido no local e formação de tecido cicatricial que dificulta a regeneração axonal. Nesse tipo de lesão o prognóstico espontâneo é negativo, necessitando assim na maioria das vezes de intervenção cirúrgica e a recuperação e regeneração são incompletas, não ocorrendo o reestabelecimento total das funções do nervo afetado(LI, 2020;LEUNG, 2019;SARIKOV;JUODZBALYS, 2014). tratamentos disponíveis para casos de parestesias podem trazer uma melhora nos sintomas, porém podem não alcançar uma recuperação completa.…”

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Lesão Enegrecida-Azulada Em Mucosa Bucal: Possíveis Diagnósticos Diferenciais E Como Proceder

Soares¹,

Silva²,

Silva³

et al. 2020

Prática Problematizadora E Ensino Participativo Na Odontologia

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Todo o conteúdo deste livro está licenciado sob uma Licença de Atribuição Creative Commons. Atribuição 4.0 Internacional (CC BY 4.0). O conteúdo dos artigos e seus dados em sua forma, correção e confiabilidade são de responsabilidade exclusiva dos autores, inclusive não representam a posição oficial da Atena Editora. Permitido o download da obra e o compartilhamento desde que sejam atribuídos créditos aos autores, mas sem a possibilidade de alterá-la de nenhuma forma ou utilizá-la para fins comerciais. Direitos para esta edição cedidos à Atena Editora pelos autores.

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Growth factors-based therapeutic strategies and their underlying signaling mechanisms for peripheral nerve regeneration

Cited by 154 publications

References 160 publications

C-terminal domain small phosphatase 1 (CTDSP1) regulates growth factor expression and axonal regeneration

C-terminal domain small phosphatase 1 (CTDSP1) regulates growth factor expression and axonal regeneration

Biomimetic Approaches for Separated Regeneration of Sensory and Motor Fibers in Amputee People: Necessary Conditions for Functional Integration of Sensory–Motor Prostheses With the Peripheral Nerves

Lesão Enegrecida-Azulada Em Mucosa Bucal: Possíveis Diagnósticos Diferenciais E Como Proceder

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