Hepatocyte growth factor incorporated into herpes simplex virus vector accelerates facial nerve regeneration after crush injury

Esaki, Shinichi; Kitoh, Junzoh; Katsumi, Sachiyo; Goshima, Fumi; Kimura, Hiroshi; Safwat, Majid; Yamano, Koji; Watanabe, Nobuhiro; Nonoguchi, Naosuke; Nakamura, Toshikazu; Rs, Coffin; Si, Miyatake; Nishiyama, Yukihiro; Murakami, Shingo

doi:10.1038/gt.2011.57

Cited by 18 publications

(23 citation statements)

References 47 publications

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“…We also observed the phosphorylation of c‐Met in sciatic nerve explant cultures, which was suppressed by the c‐Met blockers (Figure d). In accordance with previous reports on the expression of HGF in normal nerves (Krasnoselsky et al, ; Esaki et al, ), we found that HGF was expressed in fibroblast‐like cells and vessels in the sciatic nerves using IF staining (Figure e), potentially indicating the paracrine action of secreted HGF on c‐Met receptor in SCs.…”

Section: Resultssupporting

confidence: 92%

“…The potential implication of the HGF/c‐Met signaling in nerve repair including peripheral nerves has been reported (Hashimoto et al, ; Kitamura et al, ). For example, HGF is normally present in sciatic nerves (Krasnoselsky et al, ) and virus‐mediated forceful HGF expression in the injured nerves enhanced peripheral nerve regeneration (Esaki et al, ). Even though the neurotrophic and axonotrophic effects of HGF provides a potential mechanism for the role of HGF in nerve repair (Davey et al, ; Ebens et al, ), we found significant activation of the HGF‐c‐Met‐Gab2 pathway in SCs after injury, and Gab2KO mice exhibited a defect in SC migration‐associated axonal regrowth.…”

Section: Discussionmentioning

confidence: 99%

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Cooperative interaction of hepatocyte growth factor and neuregulin regulates Schwann cell migration and proliferation through Grb2-associated binder-2 in peripheral nerve repair

Shin

Jang

Yun

et al. 2017

Glia

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The sequential reactive changes in Schwann cell phenotypes in transected peripheral nerves, including dedifferentiation, proliferation and migration, are essential for nerve repair. Even though the injury-induced migratory and proliferative behaviors of Schwann cells resemble epithelial and mesenchymal transition (EMT) in tumors, the molecular mechanisms underlying this phenotypic change of Schwann cells are still unclear. Here we show that the reactive Schwann cells exhibit migratory features dependent on the expression of a scaffolding oncoprotein Grb2-associated binder-2 (Gab2), which was transcriptionally induced by neuregulin 1-ErbB2 signaling following nerve injury. Injury-induced Gab2 expression was dependent on c-Jun, a transcription factor critical to a Schwann cell reprograming into a repair-type cell. Interestingly, the injury-induced activation (tyrosine phosphorylation) of Gab2 in Schwann cells was regulated by an EMT signal, the hepatocyte growth factor-c-Met signaling, but not by neuregulin 1. Gab2 knockout mice exhibited a deficit in nerve repair after nerve transection due to limited Schwann cell migration. Furthermore, Gab2 was required for the proliferation of Schwann cells following nerve injury and in vitro, and was over-expressed in human Schwann cell-derived tumors. In contrast, the tyrosine phosphorylation of Gab1 after nerve injury was principally regulated by the neuregulin 1-ErbB2 signaling and was indispensable for remyelination after crush injury, but not for the proliferation and migration of Schwann cells. Our findings indicate that Gab1 and Gab2 in Schwann cells are nonredundant and play a crucial role in peripheral nerve repair.

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Section: Resultssupporting

confidence: 92%

Section: Discussionmentioning

confidence: 99%

Cooperative interaction of hepatocyte growth factor and neuregulin regulates Schwann cell migration and proliferation through Grb2-associated binder-2 in peripheral nerve repair

Shin

Jang

Yun

et al. 2017

Glia

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“…The main neurotrophic factors used for peripheral nerve regeneration include nerve growth factor (NGF), glial cell line‐derived neurotrophic factor (GDNF), brain‐derived neurotrophic factor (BDNF), neurotrophin‐3, 4/5 (NT‐3, 4/5), ciliary neurotrophic factor (CNTF), and leukemia inhibitory factor (LIF) . Several studies have examined the effects of growth factors, such as pleiotrophin (PTN), hepatocyte growth factor (HGF), and vascular endothelial growth factor (VEGF), on peripheral nerve injury . However, applying one exogenous neurotrophin is often insufficient to stimulate the entire process of peripheral nerve regeneration, and the simultaneous up‐regulation of multiple neurotrophic factors remains challenging .…”

Section: Introductionmentioning

confidence: 99%

Chitosan conduits filled with simvastatin/Pluronic F‐127 hydrogel promote peripheral nerve regeneration in rats

et al. 2017

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Treating peripheral nerve defects represents a clinical challenge, and nerve conduits lacking an internal scaffold lead to limited large nerve gap regeneration. Here, we bridged 10-mm sciatic nerve defects in rats with a chitosan conduit filled with 0, 0.5, or 1.0 mg of simvastatin in Pluronic F-127 hydrogel. We assessed subsequent nerve regeneration using the sciatic functional index (SFI), electrophysiological assessments, Fluoro-Gold (FG) retrograde tracing, gastrocnemius muscle mass measurements, and histological and immunohistochemical assessments of nerve regeneration. Ten weeks after implantation, the chitosan conduit filled with simvastatin/Pluronic F-127 hydrogel promoted nerve regeneration; there were significant increases in the SFI, compound muscle action potential peak amplitude, motor nerve conduction velocity, FG-labeled neuron number in the dorsal root ganglia, myelin sheath thickness, axon diameter, gastrocnemius wet weight, and muscle fiber area percentage in the gastrocnemius muscle (all p < 0.05). The expression levels of neurotrophic factors, such as pleiotrophin, hepatocyte growth factor, vascular endothelial growth factor, and glial cell line-derived neurotrophic factor, were also found to be increased. The results suggest that chitosan conduits filled with simvastatin/Pluronic F-127 hydrogel improved peripheral nerve regeneration and functional recovery in rats, which may have been related to the increased expression of several endogenous neurotrophic factors. © 2017 Wiley Periodicals, Inc. J Biomed Mater Res Part B: Appl Biomater, 106B: 787-799, 2018.

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“…For example, the half-life of these proteins is usually very short, [ 39 ] and the growth factors released into the environment may not be as bioactive. [ 90 ] The release kinetics varies depending on the system and factor used, and therefore the dose needs to be optimized.…”

Section: Other Neurotrophic Factorsmentioning

confidence: 99%

Recent Strategies in Tissue Engineering for Guided Peripheral Nerve Regeneration

Belanger

Dinis

Sami

et al. 2016

Macromolecular Bioscience

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The repair of large crushed or sectioned segments of peripheral nerves remains a challenge in regenerative medicine due to the complexity of the biological environment and the lack of proper biomaterials and architecture to foster reconstruction. Traditionally such reconstruction is only achieved by using fresh human tissue as a surrogate for the absence of the nerve. However, recent focus in the field has been on new polymer structures and specific biofunctionalization to achieve the goal of peripheral nerve regeneration by developing artificial nerve prostheses. This review presents various tested approaches as well their effectiveness for nerve regrowth and functional recovery.

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Hepatocyte growth factor incorporated into herpes simplex virus vector accelerates facial nerve regeneration after crush injury

Cited by 18 publications

References 47 publications

Cooperative interaction of hepatocyte growth factor and neuregulin regulates Schwann cell migration and proliferation through Grb2-associated binder-2 in peripheral nerve repair

Cooperative interaction of hepatocyte growth factor and neuregulin regulates Schwann cell migration and proliferation through Grb2-associated binder-2 in peripheral nerve repair

Chitosan conduits filled with simvastatin/Pluronic F‐127 hydrogel promote peripheral nerve regeneration in rats

Recent Strategies in Tissue Engineering for Guided Peripheral Nerve Regeneration

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