Huaiqin Li scite author profile

Huaiqin Li

5Publications

93Citation Statements Received

92Citation Statements Given

How they've been cited

123

How they cite others

163

Affiliations

Nantong University

Publications

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Effect of Spp1 on nerve degeneration and regeneration after rat sciatic nerve injury

Liu

Sun

et al. 2017

BMC Neurosci

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BackgroundWallerian degeneration (WD) in injured peripheral nerves is associated with a large number of up- or down-regulated genes, but the effects of these changes are poorly understood. In our previous studies, we reported some key factors that are differentially expressed to activate nerve degeneration and regeneration during WD. Here, we determined the effects of secreted phosphoprotein 1 (Spp1) on WD after rat sciatic nerve injury.ResultsSpp1 was upregulated from 6 h to 14 days after sciatic nerve injury. Altered expression of Spp1 in Schwann cells (SC) resulted in altered mRNA and protein expression levels for cytokines, c-Fos, PKCα and phospho-ERK/ERK and affected SC apoptosis in vitro. Silencing of Spp1 expression in SCs using siRNA technology reduced proliferation and promoted migration of SCs in vitro. By contrast, overexpression of Spp1 promoted proliferation and reduced migration in SCs in vitro. Differential expression of Spp1 after sciatic nerve injury in vivo altered the expression of cytokines, c-Fos, PKCα, and the p-ERK/ERK pathway.ConclusionsSpp1 is a key regulatory factor that affects nerve degeneration and regeneration through c-Fos, PKCα and p-ERK/ERK pathways after rat sciatic nerve injury. These results shed new light on the role of Spp1 in nerve degeneration and regeneration during WD.

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Signal flow and pathways in response to early Wallerian degeneration after rat sciatic nerve injury

Guo

Zhang

et al. 2013

Neuroscience Letters

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Protein expression profiling during wallerian degeneration after rat sciatic nerve injury

Zhang

Guo

et al. 2014

Muscle and Nerve

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Differential gene expression in proximal and distal nerve segments of rats with sciatic nerve injury during Wallerian degeneration

Jiang

Sun

et al. 2014

Neural Regen Res

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Wallerian degeneration is a subject of major interest in neuroscience. A large number of genes are differentially regulated during the distinct stages of Wallerian degeneration: transcription factor activation, immune response, myelin cell differentiation and dedifferentiation. Although gene expression responses in the distal segment of the sciatic nerve after peripheral nerve injury are known, differences in gene expression between the proximal and distal segments remain unclear. In the present study in rats, we used microarrays to analyze changes in gene expression, biological processes and signaling pathways in the proximal and distal segments of sciatic nerves undergoing Wallerian degeneration. More than 6,000 genes were differentially expressed and 20 types of expression tendencies were identified, mainly between proximal and distal segments at 7–14 days after injury. The differentially expressed genes were those involved in cell differentiation, cytokinesis, neuron differentiation, nerve development and axon regeneration. Furthermore, 11 biological processes were represented, related to responses to stimuli, cell apoptosis, inflammatory response, immune response, signal transduction, protein kinase activity, and cell proliferation. Using real-time quantitative PCR, western blot analysis and immunohistochemistry, microarray data were verified for four genes: aquaporin-4, interleukin 1 receptor-like 1, matrix metalloproteinase-12 and periaxin. Our study identifies differential gene expression in the proximal and distal segments of a nerve during Wallerian degeneration, analyzes dynamic biological changes of these genes, and provides a useful platform for the detailed study of nerve injury and repair during Wallerian degeneration.

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The effects of claudin 14 during early Wallerian degeneration after sciatic nerve injury

Gong¹,

Zhu²,

Xu³

et al. 2014

Neural Regen Res

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Claudin 14 has been shown to promote nerve repair and regeneration in the early stages of Wallerian degeneration (0–4 days) in rats with sciatic nerve injury, but the mechanism underlying this process remains poorly understood. This study reported the effects of claudin 14 on nerve degeneration and regeneration during early Wallerian degeneration. Claudin 14 expression was up-regulated in sciatic nerve 4 days after Wallerian degeneration. The altered expression of claudin 14 in Schwann cells resulted in expression changes of cytokines in vitro. Expression of claudin 14 affected c-Jun, but not Akt and ERK1/2 pathways. Further studies revealed that enhanced expression of claudin 14 could promote Schwann cell proliferation and migration. Silencing of claudin 14 expression resulted in Schwann cell apoptosis and reduction in Schwann cell proliferation. Our data revealed the role of claudin 14 in early Wallerian degeneration, which may provide new insights into the molecular mechanisms of Wallerian degeneration.

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Huaiqin Li

Effect of Spp1 on nerve degeneration and regeneration after rat sciatic nerve injury

Signal flow and pathways in response to early Wallerian degeneration after rat sciatic nerve injury

Protein expression profiling during wallerian degeneration after rat sciatic nerve injury

Differential gene expression in proximal and distal nerve segments of rats with sciatic nerve injury during Wallerian degeneration

The effects of claudin 14 during early Wallerian degeneration after sciatic nerve injury

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