共查询到20条相似文献,搜索用时 31 毫秒
1.
Youhua Wang Xinghai Cheng Zhengming Zhou Hao Wu Long Long Xingxing Gu Guangfei Xu 《Journal of molecular histology》2013,44(1):27-36
Gem belongs to the Rad/Gem/Kir subfamily of Ras-related GTPases, whose expression is induced in several cell types upon activation by extracellular stimuli. Two functions of Gem have been demonstrated, including regulation of voltage-gated calcium channel activity and inhibition of Rho kinase-mediated cytoskeletal reorganization, such as stress fiber formation and neurite retraction. Because of the essential relationship between actin reorganization and peripheral nerve regeneration, we investigated the spatiotemporal expression of Gem in a rat sciatic nerve crush (SNC) model. After never injury, we observed that Gem had a significant up-regulation from 1 day, peaked at day 5 and then gradually decreased to the normal level. At its peak expression, Gem expressed mainly in Schwann cells (SCs) and macrophages of the distal sciatic nerve segment, but had few colocalization in axons. In addition, the peak expression of Gem was in parallel with PCNA, and numerous SCs expressing Gem were PCNA positive. Thus, all of our findings suggested that Gem may be involved in the pathophysiology of sciatic nerve after SNC. 相似文献
2.
Long Long Yan Huang Hao Wu Wenkang Luan Qi Zhang Hai Wen Tao Ding Youhua Wang 《Cellular and molecular neurobiology》2013,33(5):689-698
As a novel cell cycle inhibitor, PHB2 controls the G1/S transition in cycling cells in a complex manner. Its aberrant expression is closely related to cell carcinogenesis. While its expression and role in peripheral nervous system lesion and repair were still unknown. Here, we performed an acute sciatic nerve crush (SNC) model in adult rats to examine the dynamic changes of PHB2. Temporally, PHB2 expression was sharply decreased after sciatic nerve crush and reached a valley at day 5. Spatially, PHB2 was widely expressed in the normal sciatic nerve including axons and Schwann cells. While after injury, PHB2 expression decreased predominantly in Schwann cells. The alteration was due to the decreased expression of PHB2 in Schwann cells after SNC. PHB2 expression correlated closely with Schwann cells proliferation in sciatic nerve post injury. Furthermore, PHB2 largely localized with GAP43 in axons in the crushed segment. Collectively, we suggested that PHB2 participated in the pathological process response to sciatic nerve injury and may be associated with Schwann cells proliferation and axons regeneration. 相似文献
3.
Jianhua Cao Jiao Yang Youhua Wang Jian Xu Zhengming Zhou Chun Cheng Xiaojuan Liu Xinghai Cheng Long Long Xingxing Gu 《Cellular and molecular neurobiology》2013,33(2):213-221
As a novel cell cycle protein, Spy1 enhances cell proliferation, promotes the G1/S transition as well as inhibits apoptosis in response to UV irradiation. Spy1 levels are tightly regulated during mammary development, and overexpression of Spy1 accelerates tumorigenesis in vivo. But little is known about the role of Spy1 in the pathological process of damage and regeneration of the peripheral nervous system. Here we established a rat sciatic nerve crush (SNC) model to examine the spatiotemporal expression of Spy1. Spy1 expression was elevated gradually after sciatic nerve crush and peaked at day 3. The alteration was due to the increased expression of Spy1 in axons and Schwann cells after SNC. Spy1 expression correlated closely with Schwann cells proliferation in sciatic nerve post injury. Furthermore, Spy1 largely localized in axons in the crushed segment, but rarely co-localized with GAP43. These findings suggested that Spy1 participated in the pathological process response to sciatic nerve injury and may be associated with Schwann cells proliferation and axons regeneration. 相似文献
4.
Gao S Fei M Cheng C Yu X Chen M Shi S Qin J Guo Z Shen A 《Neurochemical research》2008,33(6):1090-1100
Neuronal nitric oxide synthase (nNOS) has been implicated to influence peripheral nerve lesion and regeneration. Post-synaptic
density-95 (PSD-95) is one of nNOS-anchoring proteins and plays an important role in specifying the sites of reaction of NO
in nervous system. Here we established a rat sciatic nerve crush (SNC) model to examine the spatiotemporal expression of PSD-95
and nNOS. At gene levels, PSD-95 mRNA diminished shortly after crush, and significantly elevated from 2 days to 2 weeks, whereas
nNOS decreased progressively post-operation, reached the valley at 1 day, and markedly up-regulated from 1 to 2 weeks after
SNC. The expression of both molecules returned to the control level at 4 weeks post-injury. At protein levels, PSD-95 and
nNOS underwent the similar changes as their gene expression except for a time lag during up-regulating. At their peak expression,
PSD-95 co-labeled with nNOS in Schwann cells (SCs) of sciatic nerve within 0.5 mm from the lesion site, but had few colocalization
in axons. In addition, the interaction between PSD-95 and nNOS enhanced significantly at 2 weeks after SNC. These results suggest
a correlation of PSD-95 up-regulation with nNOS in reactive SCs of crushed sciatic nerve, which may lead to understanding
the function of PSD-95 during peripheral nerve regeneration.
Shangfeng Gao and Min Fei contributed equally to this work. 相似文献
5.
6.
Xiaolong Deng Haixiang Wei Dong Lou Binbin Sun Hailei Chen Yi Zhang Youhua Wang 《Journal of molecular histology》2012,43(6):669-679
CLIP3 (cytoplasmic linker protein 3) is a 547 amino acid residue cytoplasmic protein that localises to Golgi stacks and tubulovesicular elements juxtaposed to Golgi cisternae. Composed of three Ank (ankyrin) repeats and two CAP-Gly (cytoskeleton-associated protein-glycine) domains, CLIP3 may function as a cytoplasmic linker protein that is involved in TGN–endosome dynamics. To define the expression and role of CLIP3 during peripheral nervous system degeneration and regeneration, we created an acute sciatic nerve injury (SNI) model in adult rats. Western blot analyses revealed prominent up-regulation of CLIP3 and PCNA (proliferating cell nuclear antigen) protein levels at 3?days after SNI. Immunohistochemistry displayed that the expression of CLIP3 was noticeably increased in the injured nerve. Immunofluorescence further revealed that the CLIP3 and PCNA proteins colocalised respectively with S100 in the cytoplasm of Schwann cells. The expression profile of the SC/neuron co-cultures demonstrated that CLIP3 and PCNA protein levels were markedly expressed during the early stage of myelination. These results suggest that CLIP3 is likely associated with the myelination of proliferating Schwann cells, and nerve tissue regeneration after peripheral nerve injury. CLIP3 and PCNA expression during early myelination may be related to the direct uptake and transport of lipids and cholesterol, which were derived from the degenerating myelin, by Schwann cells to prepare for the formation of myelin sheath-like structures around regenerated axons after SNI. 相似文献
7.
8.
Zhigang Chen Weidong Zhang Li Ni Genlin Wang Yi Cao Weijie Wu Chi Sun Damin Yuan Haidan Ni Youhua Wang Huilin Yang 《Cellular and molecular neurobiology》2016,36(5):725-735
Poly(C)-binding proteins (PCBPs), also known as RNA-binding proteins, interact in a sequence-specific fashion with single-stranded poly(C). It was reported that PCBP2 contributed to gastric cancer proliferation and survival through miR-34a, and knockdown of PCBP2 inhibited glioma proliferation through inhibition of cell cycle progression. In addition, PCBP2 might play a critical role in the regulation of cortical neurons apoptosis induced by hypoxia or ischemia. Because of the essential role of PCBP2 in nervous system and cell growth, we investigated the spatiotemporal expression of PCBP2 in a rat sciatic nerve crush (SNC) model. We detected the upregulated expression of PCBP2 in Schwann cell after SNC. Besides, the peak expression of PCBP2 was in parallel with proliferation cell nuclear antigen. In vitro, we observed increased expression of PCBP2 during the process of TNF-α-induced Schwann cell proliferation. Specially, PCBP2-specific siRNA-transfected Schwann cell showed significantly decreased ability for proliferation. Together, all these data indicated that the change of PCBP2 protein expression was associated with Schwann cell proliferation after the trauma of the peripheral nervous system. 相似文献
9.
10.
Xinhui Zhu Li Yao Aisong Guo Aihong Li Huiqing Sun Ning Wang Hanzhang Liu Zhiqin Duan Jianhua Cao 《Journal of molecular histology》2014,45(3):337-348
Adenylate cyclase-associated protein 1 (CAP1), a member of cyclase-associated proteins that regulating actin dynamics, was shown to regulate actin filaments, localize to dynamic actin structures and mediate such processes as establishment of cell polarity, motility, morphogenesis, receptor-mediated endocytosis and mRNA location. But little is known about the role of CAP1 during peripheral nervous system injury. Here, we found the spatiotemporal protein expression of CAP1 after sciatic nerve crush. After crush, CAP1 had an increased protein expression level, reached a peak at about day 5 and then returned to the normal level at 4 weeks, similar to Oct-6. Besides, in 5-day injured tissue, using double immunofluorescent staining we found CAP1 had a colocalization with S100 and Oct-6. In vitro, during the process of cAMP-induced Schwann cells differentiation, we observed enhanced expression of CAP1 and P0. Specially, CAP1-specific siRNA-tranfected SCs did not show significant actin structure which form cellure surface tension and protrusion shape after cAMP treatment. And we observed the interaction of CAP1 with actin and that CAP1-specific siRNA-transfected SCs had a decreased motility and migration. Together, all these data indicated that the change of CAP1 protein expression was associated with Schwann cells motility and differentiation after the crush of sciatic nerve. 相似文献
11.
Yonghua Liu Weijie Wu Huiguang Yang Zhengming Zhou Xiaojian Zhu Chi Sun Yuxi Liu Zhaohui Yu Yuyan Chen Youhua Wang 《Neurochemical research》2017,42(4):1084-1095
Tripartite motif containing 32 (TRIM32), a member of the tripartite motif (TRIM) family, plays an indispensable role in myoblast proliferation. It also regulates neuron and skeletal muscle stem cell differentiation. Although it is of great importance, we know little about the roles of TRIM32 during peripheral nervous system injury. Here, we examined the dynamic changes of TRIM32 in acute sciatic nerve crush (SNC) model. After crush, TRIM32 rapidly increased and reached the climax at 1 week but then gradually declined to the normal level at 4 weeks post-injury. Meanwhile, we observed similar changes of Oct-6. What is more, we found co-localization of TRIM32 with S100 and Oct-6 in 1-week-injured tissues using double immunofluorescent staining. In further vitro experiments, enhancive expression of TRIM32 was detected during the process of cyclic adenosine monophosphate (cAMP)-induced Schwann cell differentiation and nerve growth factor (NGF)-induced PC12 cell neurite outgrowth. More interestingly, specific si-TRIM32-transfected RSC96 cells exhibited obvious reduction in the ability of migration. Taken together, we inferred that upregulated TRIM32 was not only involved in the differentiation and migration of Schwann cells but the neurite elongation after SNC. 相似文献
12.
Ye Huang Yonghua Liu Ying Chen Xiaowei Yu Junling Yang Mudan Lu Qiuyan Lu Qing Ke Aiguo Shen Meijuan Yan 《Cellular and molecular neurobiology》2009,29(3):403-411
Spy1, as a member of the Speedy/RINGO family and a novel activator of cyclin-dependent kinases, was shown to promote cell
cycle progression and cell survival in response to DNA damage. While its expression and roles in nervous system lesion and
repair were still unknown. Here, we performed an acute sciatic nerve injury model in adult rats and studied the dynamic changes
of Spy1 expression in lumbar spinal cord. Temporally, Spy1 expression was increased shortly after sciatic nerve crush and
peaked at day 2. Spatially, Spy1 was widely expressed in the lumbar spinal cord including neurons and glial cells. While after
injury, Spy1 expression was increased predominantly in astrocytes and microglia, which were largely proliferated. Moreover,
there was a concomitant up-regulation of CDK2 activity and down-regulation of p27. Collectively, we hypothesized peripheral
nerve injury induced an up-regulation of Spy1 in lumbar spinal cord, which was associated with glial proliferation.
Ye Huang and Yonghua Liu contributed equally to this work. 相似文献
13.
《Cell cycle (Georgetown, Tex.)》2013,12(17):2946-2958
Spinocerebellar ataxia type 10 (SCA10) is an autosomal dominant neurologic disorder,whose symptoms include cerebellar ataxia and epilepsy. The disease is caused by ATTCT expansion in the ATXN10 gene, which encodes the Ataxin-10 protein. Here we identified polo-like kinase 1 (Plk1) as one of Ataxin-10's binding partners. We show that epitope-tagged Ataxin-10 and Plk1 coimmunoprecipitate, and Plk1 phosphorylates Ataxin-10 at S77 and T82 in vitro. Knockdown of ATXN10 with siRNA in HeLa cells results in cytokinesis defects-multinucleation, which are rescued by wild-type Ataxin-10, but not the phosphor-deficient 2A mutant. Phosphorylation-specific antibodies towards pS77 detect specific signals at the midbody. Like the knockdown, overexpression of the 2A mutant generates multinucleated cells and the 2A mutant shows decreased interaction with the Plk1 polo-box domain. In addition, we found that Ataxin-10 is ubiquitinated, and is subject to proteasome-dependent degradation, which is delayed in the 2A mutant. We propose a model in which Plk1 phosphorylation of Ataxin-10 influences its degradation and cytokinesis, which may provide mechanistic insight to SCA10's pathogenesis. 相似文献
14.
Abe K Namikawa K Honma M Iwata T Matsuoka I Watabe K Kiyama H 《Journal of neurochemistry》2001,77(2):700-703
Ciliary neurotrophic factor (CNTF) can prevent injury-induced motor neuron death. However, it is also evident that expression of CNTF in Schwann cells is suppressed during nerve regeneration. In this report, we have addressed the mechanism underlying the down-regulation of CNTF expression in injured nerves using a mouse Schwann cell line IMS32 and mouse sciatic nerve. In IMS32 cells, activation of the Ras extracellular-signal-regulated kinase (ERK) pathway by adenoviral vector-mediated expression of dominant active MEK1 did not alter a basal level of CNTF expression, whereas inhibition of the Ras-ERK pathway by using adenoviral vectors resulted in a marked increase in CNTF expression. This inverse relation between before and after axotomy was also observed in mouse sciatic nerve. In the axotomized sciatic nerve, the phosphorylated ERK was markedly increased; in contrast, the expression of CNTF was markedly decreased. These findings suggest that an inactive state of ERK is crucial for the CNTF expression in Schwann cells, and that activation of ERK following nerve injury critically influences the expression of CNTF. This might well explain why CNTF is highly expressed in quiescent Schwann cells in the peripheral nervous system, and also why CNTF is not abundant in axotomized nerves or cultured Schwann cells in which the proliferation signal is obviously active. 相似文献
15.
FLRT3, a cell surface molecule containing LRR repeats and a FNIII domain, promotes neurite outgrowth
Tsuji L Yamashita T Kubo T Madura T Tanaka H Hosokawa K Tohyama M 《Biochemical and biophysical research communications》2004,313(4):1086-1091
The mature peripheral nervous system has the ability to survive and to regenerate its axons following axonal injury. After nerve injury, the distal axonal and myelin segment undergoes dissolution and absorption by the surrounding cellular environment, a process called Wallerian degeneration. Using cDNA microarrays, we isolated FLRT3 as one of the up-regulated genes expressed in the distal segment of the sciatic nerve 7 days after transection relative to those of the intact sciatic nerve. FLRT3 is a putative type I transmembrane protein containing 10 leucine-rich repeats, a fibronectin type III domain, and an intracellular tail. The neurons plated on CHO cells expressing FLRT3 extended significantly longer neurites than those plated on wild-type CHO cells, demonstrating that FLRT3 promotes neurite outgrowth. FLRT3 mRNA was especially abundant in the basal ganglia, the granular layer of cerebellum, and the hippocampus, except the CA1 region in the adult rat brain. Thus, FLRT3 may contribute to regeneration following axonal injury. 相似文献
16.
Yongbin Ma Dongwang Zhai Wenzhe Zhang Huanyan Zhang Liyang Dong Yuepeng Zhou Dingqi Feng Yu Zheng Ting Wang Chaoming Mao Xuefeng Wang 《Journal of cellular and molecular medicine》2020,24(13):7460-7469
Peripheral nerve injury and regeneration are complex processes and involve multiple molecular and signalling components. However, the involvement of long non‐coding RNA (lncRNA) in this process is not fully clarified. In this study, we evaluated the expression of the lncRNA maternally expressed gene 3 (MEG3) in rats after sciatic nerve transection and explored its potential mechanisms. The expression of lncRNA MEG3 was up‐regulated following sciatic nerve injury and observed in Schwann cells (SCs). The down‐regulation of lncRNA MEG3 in SCs enhanced the proliferation and migration of SCs via the PTEN/PI3K/AKT pathway. The silencing of lncRNA MEG3 promoted the migration of SCs and axon outgrowth in rats after sciatic nerve transection and facilitated rat nerve regeneration and functional recovery. Our findings indicated that lncRNA MEG3 may be involved in nerve injury and injured nerve regeneration in rats with sciatic nerve defects by regulating the proliferation and migration of SCs. This gene may provide a potential therapeutic target for improving peripheral nerve injury. 相似文献
17.
In this report, we have identified two apolipoproteins (apo), apoD and apoA-IV, that, together with the previously identified apoA-I and apoE, accumulate in the regenerating peripheral nerve. These four apolipoproteins were identified in regenerating rat sciatic nerves by their molecular weights, their isoelectric points, and their recognition by specific antibodies. Antibodies were also used to document the changing concentrations of these apolipoproteins in homogenates of regenerating sciatic nerves collected 1 day to 6 weeks after a denervating crush injury. By 3 weeks after injury, at their peak accumulation, apoA-IV and apoA-I had increased 14- and 26-fold, respectively, relative to their concentrations in the normal nerve. Apolipoproteins D and E, in contrast, increased over 500- and 250-fold, respectively, by 3 weeks. These same apolipoproteins also accumulated in the regenerating sciatic nerves of two other species, the rabbit and the marmoset monkey. Immunocytochemistry showed that apoD was produced by astrocytes and oligodendrocytes in the normal central nervous system, and by neurolemmal or fibroblastic cells in the normal peripheral nervous system. Metabolic labeling of both apoD and apoE by [35S]methionine during an in vitro incubation of regenerating rat sciatic nerve segments confirmed that these apolipoproteins are synthesized by the nerve. Neither apoA-IV nor apoA-I was metabolically labeled, however, suggesting that they enter the nerve from the plasma. The results from this study provide evidence that several different apolipoproteins from various sources may play a role in lipid transport within neural tissues. 相似文献
18.
Transcriptional profile of the human peripheral nervous system by serial analysis of gene expression
de Jonge RR Vreijling JP Meintjes A Kwa MS van Kampen AH van Schaik IN Baas F 《Genomics》2003,82(2):97-108
The peripheral nerve contains both nonmyelinating and myelinating Schwann cells. The interactions between axons, surrounding myelin, and Schwann cells are thought to be important for the correct functioning of the nervous system. To get insight into the genes involved in human myelination and maintenance of the myelin sheath and nerve, we performed a serial analysis of gene expression of human sciatic nerve and cultured Schwann cells. In the sciatic nerve library, we found high expression of genes encoding proteins related to lipid metabolism, the complement system, and the cell cycle, while cultured Schwann cells showed mainly high expression of genes encoding extracellular matrix proteins. The results of our study will assist in the identification of genes involved in maintenance of myelin and peripheral nerve and of genes involved in inherited peripheral neuropathies. 相似文献
19.
Bajestan SN Umehara F Shirahama Y Itoh K Sharghi-Namini S Jessen KR Mirsky R Osame M 《Journal of neurobiology》2006,66(3):243-255
Hedgehog proteins are important in the development of the nervous system. As Desert hedgehog (Dhh) is involved in the development of peripheral nerves and is expressed in adult nerves, it may play a role in the maintenance of adult nerves and degeneration and regeneration after injury. We firstly investigated the Dhh-receptors, which are expressed in mouse adult nerves. The Dhh receptor patched(ptc)2 was detected in adult sciatic nerves using RT-PCR, however, ptc1 was undetectable under the same experimental condition. Using RT-PCR in purified cultures of mouse Schwann cells and fibroblasts, we found ptc2 mRNA in Schwann cells, and at much lower levels, in fibroblasts. By immunohistochemistry, Ptc2 protein was seen on unmyelinated nerve fibers. Then we induced crush injury to the sciatic nerves of wild-type (WT) and dhh-null mice and the distal stumps of injured nerves were analyzed morphologically at different time points and expression of dhh and related receptors was also measured by RT-PCR in WT mice. In dhh-null mice, degeneration of myelinated fibers was more severe than in WT mice. Furthermore, in regenerated nerves of dhh-null mice, minifascicular formation was even more extensive than in dhh-null intact nerves. Both dhh and ptc2 mRNA levels were down-regulated during the degenerative phase postinjury in WT mice, while levels rose again during the phase of nerve regeneration. These results suggest that the Dhh-Ptc2 signaling pathway may be involved in the maintenance of adult nerves and may be one of the factors that directly or indirectly determines the response of peripheral nerves to injury. 相似文献
20.
目的观察极性蛋白Par-3在损伤后神经组织中的表达和分布,探讨Par-3蛋白在周围神经损伤后髓鞘再生中的作用。方法 32只Sprague Dawley大鼠随机分为正常对照组、损伤组(坐骨神经损伤后第1、2、4、8周)。制备坐骨神经挤压伤模型,分别于损伤后各时间点,采用免疫组织化学法检测坐骨神经损伤远端Par-3蛋白的表达和分布。结果正常大鼠坐骨神经组织中即存在Par-3蛋白,但表达量少,且仅分布于Schwann细胞核内。坐骨神经损伤后,Par-3蛋白的表达和分布发生变化。损伤后1周,Par-3蛋白表达开始升高,Par-3散在分布于Schwann细胞核和细胞浆内。损伤后2周,神经组织中的Par-3蛋白达峰值,在Schwann细胞浆内呈不对称性分布似包绕轴突,呈新月形或C形。损伤后4周和8周,Par-3蛋白表达显著降低,神经组织中Par-3蛋白主要分布于Schwann细胞核内,胞浆内很少。结果 极性蛋白Par-3可能参与周围神经损伤后Schwann细胞的髓鞘再生。 相似文献