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STUDY DESIGN: Examination of hyaluronidase-4 (Hyal-4) expression in a rat spinal cord hemisection model. PURPOSE: To determine the status of Hyal-4 expression after hemisection of the spinal cord, and the relationship between its expression and that of chondroitin sulfate proteoglycans (CSPGs). OVERVIEW OF LITERATURE: CSPGs are expressed at the site of spinal cord injury and inhibit axon regeneration. Administration of exogenous chrondroitinase ABC (ChABC), derived from bacteria, digested CSPGs and promoted axonal regrowth. Using a rat hemisection model, we have demonstrated peak CSPGs levels at by 3 weeks after injury but then decreased spontaneously. Could there be an endogenous enzyme similar to ChABC in the spinal cord? It has been suggested that Hyal-4 is involved in CSPG degradation. METHODS: A rat hemisection model was prepared and spinal cord frozen sections were prepared at 4 days and 1, 2, 3, 4, 5, and 6 weeks post-cordotomy and stained for CSPGs and Hyal-4 and subjected to Western blotting. RESULTS: CSPGs appeared at the injury site at 4 days after hemisection, reached a peak after 3 weeks, and then decreased. Hyal-4 was observed around the injury site from 4 days after cordotomy and increased until after 5-6 weeks. Double staining showed Hyal-4 around CSPGs. Western blotting identified a band corresponding to Hyal-4 from 4 days after hemisection. CONCLUSIONS: Hyal-4 was expressed in a rat hemisection model in areas surrounding CSPGs, and as its peak was delayed compared with that of CSPGs. These results suggest the involvement of Hyal-4 in the digestion of CSPGs.
Subject(s)
Animals , Rats , Axons , Bacteria , Blotting, Western , Chondroitin Sulfate Proteoglycans , Cordotomy , Digestion , Frozen Sections , Hyaluronoglucosaminidase , Regeneration , Spinal Cord Injuries , Spinal CordABSTRACT
Chondroitin sulfate proteoglycans ( CSPGs) is one kind of proteins that covalently bind with chondroitin sulfate.CSPGs play important roles in the growth and development of the central nervous system and the pathological reaction of nervous injury.This article reviews the functional and mechanism studies of CSPGs in the repair of nerve system injury.
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OBJECTIVE: To study whether the traditional Chinese medicine Suifukang can inhibit the expression of chondroitin sulfate proteoglycans(CSPGs) in rats with middle cerebral artery occlusion. METHODS: SD rats were selected and randomized into six groups: normal group, control group, methylprednisolone treatment group, and Suifukang high dose, middle dose and low dose treatment groups. Serum pharmacological method was used to prepare serum containing different concentrations of Suifukang. And glial scar model established in vitro was treated with the drug-containg serum. The expression of CSPGs was detected by immunohistology method. RESULTS: The expression of CSPGs in the injured brain and glial scar in vitro were significantly inhibited by Suifukang (P < 0.01). CONCLUSION: Suifukang can inhibit the expression of CSPGs. This function may be one of the mechanisms that Suifukang promotes the regeneration of axon and the functional recovery after ischemical injury of brain.
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Chondroitin sulfate proteoglycan (CSPG) is a group of extracellular matrix molecules expressed widely in the developing and mature central nervous system (CNS).They play an important role during embryonic CNS development and adult CNS plasticity.As a major extracellular inhibitory compound,CSPG can affect the axon regeneration and neurological recovery after CNS injury.
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Objective To investigate the effects of chondroitin sulfate proteoglycans (CSPGs) degradation induced by chondroitinase ABC (ChABC) on the rat flash visual evoked potential (F-VEP) around the end of the critical period of visual development.Methods A total of 30 Long Evans rats were randomly divided into 3 groups according to their age of 14,21 and 35 d.Then in each group,5 animals served as CSPGs degradation model induced by ChABC microinjection into 5 sites of the rat cortex [750 nL (48 U/ml) for 1 site,for 2 times at a 3-day interval],and the other 5 rats served as normal control and received normal saline microinjection.Immunofluorescence microscopy and laser scanning confocal microscopy were used to determine the establishment of animal model.F-VEPs were evaluated in 7 d after first microinjection.Results In the normal rats,the latency of F-VEP main wave became shorter with the increase of their age,the number was [(63.5?10.1),(50.8?6.4),(44.9?6.3) ms,P
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@#ObjectiveTo study the effect of SSY-B2 on regeneration of central nervous system of rats with bilateral fornix/fimbria transaction.MethodsMale adult SD rats were divided randomly into 6 groups as sham group,model group, positive control agent piracetam group, SSY-B2 low dosage(1.5g crude drug/kg) group, medium dosage(3g crude drug/kg) group and high dosage(6g crude drug/kg) group.The bilateral fornix/fimbria transection in the rats were carried out. After operation, drugs were fed introgastrically to each group respectively for 6 weeks. The immunoreactive products of growth-associated protein-43(GAP-43 )and chondroitin sulfate proteoglycans(CSPG) in defined areas were measured using immunohistochemical methods. ResultsThere was no difference in number of cells expressing GAP-43 between the model group and sham group (P>0.05),but that in low dosage group increased compared with the model group (P<0.001). The CSPG in parietal lobes after lesion expressed,which was in sham group and model group(sham group and model group respectively, 56.43±59.6,116.36±10.561), and SSY-B2 in low and medium dosage inhibited its expression compared with the model group (P<0.05,P<0.01). Conclusions SSY-B2 can enhance the expression of GAP-43 and inhibit the expression or deposition of CSPG, promote axonal regeneration in the CNS, and thus structural repair and functional restoration in certain degree.