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Mahdieh Nazari-Robati Khosro Khajeh Mahdi Aminian Nasrin Mollania Abolfazl Golestani 《Biochimica et Biophysica Acta - Proteins and Proteomics》2013,1834(2):479-486
The application of chondroitinase ABC I (cABC I) in damaged nervous tissue is believed to prune glycosaminoglycan chains of proteoglycans, thereby facilitates axon regeneration. However, the utilization of cABC I as therapeutics is notably restricted due to its thermal instability. In the present study, we have explored the possibility of thermostabilization of cABC I through release of its conformational strain using Ramachandran plot information. In this regard, Gln140 with non-optimal φ and ψ values were replaced with Gly, Ala and Asn. The results indicated that Q140G and Q140A mutants were able to improve both activity and thermal stability of the enzyme while Q140N variant reduced the enzyme activity and destabilized it. Moreover, the two former variants displayed a remarkable resistance to trypsin degradation. Structural analysis of all mutants showed an increase in intrinsic fluorescence intensity and secondary structure content of Q140G and Q140A compared to the wild type which indicated more compact structure upon mutation. This investigation demonstrated that relief of conformational tension can be considered as a possible approach to increase the stability of the protein. 相似文献
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Dominique R. Smith Daniel J. Margul Courtney M. Dumont Mitchell A. Carlson Mary K. Munsell Mitchell Johnson Brian J. Cummings Aileen J. Anderson Lonnie D. Shea 《Biotechnology and bioengineering》2019,116(1):155-167
Spinal cord injury (SCI) results in paralysis below the injury and strategies are being developed that support axonal regrowth, yet recovery lags, in part, because many axons are not remyelinated. Herein, we investigated strategies to increase myelination of regenerating axons by overexpression of platelet-derived growth factor (PDGF)-AA and noggin either alone or in combination in a mouse SCI model. Noggin and PDGF-AA have been identified as factors that enhance recruitment and differentiation of endogenous progenitors to promote myelination. Lentivirus encoding for these factors was delivered from a multichannel bridge, which we have previously shown creates a permissive environment and supports robust axonal growth through channels. The combination of noggin+PDGF enhanced total myelination of regenerating axons relative to either factor alone, and importantly, enhanced functional recovery relative to the control condition. The increase in myelination was consistent with an increase in oligodendrocyte-derived myelin, which was also associated with a greater density of cells of an oligodendroglial lineage relative to each factor individually and control conditions. These results suggest enhanced myelination of regenerating axons by noggin+PDGF that act on oligodendrocyte-lineage cells post-SCI, which ultimately led to improved functional outcomes. 相似文献
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To demonstrate calpain involvement in neurodegeneration in rat spinal cord injury (SCI), we examined SCI segments for DNA
fragmentation, neurons for calpain overexpression, neuronal death, and neuroprotection with calpain inhibitor (E-64-d). After
the induction of SCI (40 g cm force) on T12, rats were treated within 15 min with vehicle (DMSO) or E-64-d. Sham animals underwent
laminectomy only. Animals were sacrificed at 24 h, and five 1-cm long spinal cord segments were collected: two rostral (S1
and S2), one lesion (S3), and two caudal segments (S4 and S5). Agarose gel electrophoresis of DNA samples isolated from the
SCI segments showed both random and internucleosomal DNA fragmentation indicating occurrence of necrosis as well as apoptosis
mostly in the lesion, moderately in caudal, and slightly in rostral segments from SCI rats. Treatment of SCI rats with E-64-d
(1 mg/kg) reduced DNA fragmentation in all segments. The lesion and adjacent caudal segments (S3 and S4) were further investigated
by in situ double-immunofluorescent labelings that showed increase in calpain expression in neurons in SCI rats and decrease
in calpain expression in SCI rats treated with E-64-d. In situ combined TUNEL and double-immunofluorescent labelings directly
detected co-localization of neuronal death and calpain overexpressin in SCI rats treated with only vehicle while attenuation
of neuronal death in SCI rats treated with E-64-d. Previous studies from our laboratory indirectly showed neuroprotective
effect of E-64-d in SCI rats. Our current results provide direct in situ evidence for calpain involvement in neuronal death
and neuroprotective efficacy of E-64-d in lesion and penumbra in SCI rats.
Special issue in honor of Naren Banik. 相似文献
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Ma Z Liu T Li X Zhou T Xiao L Que H Tian D Jing S Liu S 《Cellular and molecular neurobiology》2006,26(3):277-288
Spinal cord injury (SCI) initiates a cascade of events and these responses to injury are likely to be mediated and reflected by changes in mRNA concentrations. As a step towards understanding the complex mechanisms underlying repair and regeneration after SCI, the gene expression pattern was examined 4.5 days after complete transection at T8-9 level of rat spinal cord. Improved subtractive hybridization was used to establish a subtracted cDNA library using cDNAs from normal rat spinal cord as driver and cDNAs from injured spinal cord as tester. By expressed sequence tag (EST) sequencing, we obtained 73 EST fragments from this library, representing 40 differentially expressed genes. Among them, 32 were known genes and 8 were novel genes. Functions of all annotated genes were scattered in almost every important field of cell life such as DNA repair, detoxification, mRNA quality control, cell cycle control, and signaling, which reflected the complexity of SCI and regeneration. Then we verified subtraction results with semiquantitative RT-PCR for eight genes. These analyses confirmed, to a large extent, that the subtraction results accurately reflected the molecular changes occurring at 4.5 days post-SCI. The current study identified a number of genes that may shed new light on SCI-related inflammation, neuroprotection, neurite-outgrowth, synaptogenesis, and astrogliosis. In conclusion, the identification of molecular changes using improved subtractive hybridization may lead to a better understanding of molecular mechanisms responsible for repair and regeneration after SCI. 相似文献
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雪豹(Uncia uncia)研究的文献计量评价 总被引:1,自引:0,他引:1
通过对1950—2010年SCI收录和1989—2010年CSCD收录的雪豹(Uncia uncia)研究文献分析,从年度文献数量变化、国家/地区分布、主要研究机构、期刊分布、发表文献作者、基金资助机构、刊载文献类型、学科类别和语种分布9个方面,对雪豹研究文献的分布规律和研究现状进行了统计分析。结果表明:在SCI上发表雪豹研究论文的国家排名依次是美(50.6%)、英(16.5%)、印度(12.5%)和中国(5.6%);在文献量机构排名方面,国际雪豹基金会和英国爱丁堡大学并列第一,中国科学院排名第五;中国的主要合作国家中包括了美、英和中亚国家(吉尔吉斯斯坦、蒙古)。无论是分布范围还是数量,中国雪豹资源都居于世界第一,而研究却不相匹配,国内在这方面还仍需努力。 相似文献
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Kulbatski I Mothe AJ Parr AM Kim H Kang CE Bozkurt G Tator CH 《Progress in histochemistry and cytochemistry》2008,43(3):123-176
Traumatic injury to the brain or spinal cord and multiple sclerosis (MS) share a common pathophysiology with regard to axonal demyelination. Despite advances in central nervous system (CNS) repair in experimental animal models, adequate functional recovery has yet to be achieved in patients in response to any of the current strategies. Functional recovery is dependent, in large part, upon remyelination of spared or regenerating axons. The mammalian CNS maintains an endogenous reservoir of glial precursor cells (GPCs), capable of generating new oligodendrocytes and astrocytes. These GPCs are upregulated following traumatic or demyelinating lesions, followed by their differentiation into oligodendrocytes. However, this innate response does not adequately promote remyelination. As a result, researchers have been focusing their efforts on harvesting, culturing, characterizing, and transplanting GPCs into injured regions of the adult mammalian CNS in a variety of animal models of CNS trauma or demyelinating disease. The technical and logistic considerations for transplanting GPCs are extensive and crucial for optimizing and maintaining cell survival before and after transplantation, promoting myelination, and tracking the fate of transplanted cells. This is especially true in trials of GPC transplantation in combination with other strategies such as neutralization of inhibitors to axonal regeneration or remyelination. Overall, such studies improve our understanding and approach to developing clinically relevant therapies for axonal remyelination following traumatic brain injury (TBI) or spinal cord injury (SCI) and demyelinating diseases such as MS. 相似文献
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