A Dimeric Structural Scaffold for PRC2-PCL Targeting to CpG Island Chromatin

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Preparation of poly(ε-caprolactone)/poly(trimethylene carbonate) blend nanofibers by electrospinning

Poly(ε-caprolactone) (PCL)/poly(trimethylene carbonate) (PTMC) blend nanofibers have been prepared for the first time using an electrospinning process. The mixed dichloromethane (DCM) and N,N-dimethylformamide (DMF) (75/25, v/v) was found to be the most suitable solvent for electrospinning. Various blends of PCL/PTMC solutions were investigated for the formation of nano-scale fibers and it was found that the average diameter of the fibers was reduced and the morphology became finer when PTMC content was increased. FT-IR and DSC analysis indicated that the molecular interactions between PCL and PTMC were weak and they were phase-separated in the fibers. Due to the biocompatible properties of PCL and PTMC, the spun nanofibers developed here could have applications in the biomedical field.     

关节镜下多种移植物联合重建膝关节前、后交叉韧带

目的：评估关节镜下膝关节前交叉韧带（ACL）与后交叉韧带（PCL）同时重建的技术和临床效果。方法：自2003年6月～2009年10月,27例病人（28膝）经MRJ检查及关节镜检查证实ACL和PCL均断裂,其中9膝伴内侧副韧带损伤（MCL）,8膝伴后外侧角损伤（PLC）,5膝伴内侧半月板破裂,4膝伴外侧半月板损伤。27例患者于伤后3～10周在关节镜下行膝关节前、后交叉韧带联合重建。结果：本组术后早期均未发生严重并发症。术后随访12-88个月,平均（42．67±3．34）个月,Lysholm膝关节功能评分为78-93分,平均（86．67±5．21）分。国际膝关节文件编制委员会（mDC）综合评定由术前显著异常（D级）28膝,改进为随访时正常（A级）9膝、接近正常（B级）16膝、异常（C级）3膝。结论：关节镜下膝关节前交叉韧带（ACL）与后交叉韧带（PCL）同时重建创伤小、手术操作精细,术后膝关节功能恢复满意。     

关节镜下多种移植物联合重建膝关节前、后交叉韧带

目的:评估关节镜下膝关节前交叉韧带(ACL)与后交叉韧带(PCL)同时重建的技术和临床效果。方法:自2003年6月～2009年10月,27例病人(28膝)经MRI检查及关节镜检查证实ACL和PCL均断裂,其中9膝伴内侧副韧带损伤(MCL),8膝伴后外侧角损伤(PLC),5膝伴内侧半月板破裂,4膝伴外侧半月板损伤。27例患者于伤后3～10周在关节镜下行膝关节前、后交叉韧带联合重建。结果:本组术后早期均未发生严重并发症。术后随访12～88个月,平均(42.67±3.34)个月,Lysholm膝关节功能评分为78～93分,平均(86.67±5.21)分。国际膝关节文件编制委员会(IKDC)综合评定由术前显著异常(D级)28膝,改进为随访时正常(A级)9膝、接近正常(B级)16膝、异常(C级)3膝。结论:关节镜下膝关节前交叉韧带(ACL)与后交叉韧带(PCL)同时重建创伤小、手术操作精细,术后膝关节功能恢复满意。     

兔后交叉韧带断裂后外侧胫骨平台退变的组织学研究

目的:探讨兔后交叉韧带(Posterior cruciate ligament,PCL)断裂对外侧胫骨平台组织学的影响。方法:48只家兔膝关节随机配对为实验侧和对照侧造模,造模后第4、8、16、24周各随机处死12只,行外侧胫骨平台大体观察、HE染色、免疫组化检测基质金属蛋白酶13(matrix metalloproteinase-13,MMP-13)、基质金属蛋白酶抑制剂1(Tisse inhibitor-1 of matrix metalloproteinase1,TIMP-1)表达。结果:①大体观察,随时间延长,实验组外侧胫骨平台软骨出现磨损,呈灰黄色,弹性差,骨赘形成。②组织学观察,随时间延长,胫骨平台软骨纤维化,细胞排列紊乱,簇聚细胞出现频率增加。③实验组MMP-13、TIMP-1表达均高于对照组,有显著性差异,P<0.05。④实验组MMP-13、TIMP-1表达阳性率第4、8、16周逐渐升高,24周下降,各组比较有显著性差异,P<0.05。结论:①兔膝关节PCL断裂会引起外侧胫骨平台软骨退行性变,且该退变随着时间的推移逐渐加重。②MMP-13与TIMP-1在PCL断裂膝关节外侧胫骨平台中的表达呈现先高后低的变化规律,造成MMP-13与TIMP-1的失衡,加速软骨退变。③MMP-13与TIMP-1表达增高提示MMP-13与TIMP-1可能参与了PCL断裂后外侧胫骨平台软骨的退变过程。     

Synthesis and characterization of the biodegradable polycaprolactone-graft-chitosan amphiphilic copolymers

A novel synthetic approach to biodegradable amphiphilic copolymers based on poly (epsilon-caprolactone) (PCL) and chitosan was presented, and the prepared copolymers were used to prepare nanoparticles successfully. The PCL-graft-chitosan copolymers were synthesized by coupling the hydroxyl end-groups on preformed PCL chains and the amino groups present on 6-O-triphenylmethyl chitosan and by removing the protective 6-O-triphenylmethyl groups in acidic aqueous solution. The PCL content in the copolymers can be controlled in the range of 10-90 wt %. The graft copolymers were thoroughly characterized by 1H NMR, 13C NMR, FT-IR and DSC. The nanoparticles made from the graft copolymers were investigated by 1H NMR, DLS, AFM and SEM measurements. It was found that the copolymers could form spherical or elliptic nanoparticles in water. The amount of available primary amines on the surface of the prepared nanoparticles was evaluated by ninhydrin assay, and it can be controlled by the grafting degree of PCL.     

A mannose-specific lectin from Vicia villosa seeds

A lectin specific to mannose has been purified from Vicia villosa seed by (NH₄)₂SO₄ fractionation, GalNAc-Sepharose and Man-Sepharose affinity chromatography. It was defined as VVL_M, which showed a single band on an acidic-PAGE stained with Coosmassie brilliant blue. The molecular weight of VVL_M was 50 kDa as determined by gel filtration on Biogel P-100 column. The VVL_M molecule consists of 2 distinct subunits with apparent molecular weight of 30 kDa and 22kDa determined by SDS-PAGE. VVL_M has at least four isolectins with similar haemagglutinating activity. Its extinction coefficient is calculated as A_1cm¹ = 16.4 at 280 nm. Sugars could not be detected phenol-sulfuric acid method. The circular dichroism analysis at far UV indicated that VVL_M was a β-sheet-rich protein, and gave no α-helix, 69% β-sheet, 14% β-turn by Provencher and Glockner method. The lectin was inhibited by α-methyl-d-mannose at 12.5 mM and glucose or GlcNAc at 50 mM. The carbohydrate binding specificity of VVL_M was investigated by using affinity chromatography on a VVL_M-Sepharose column. Among various Asn-linked oligosaccharides, core structure Manα1→3(Manα1→6)Manβ1→4GlcNAcβ1→4GlcNAc_OT were found to have high affinity for VVL_M-Sepharose. The antisera of VVL_M did not produce precipitin line with VVL_G in agar double diffusion plate indicating so serological relationship between VVL_M and VVL_G. However VVL_M showed similar immunodeterminants of some other lectins of mannose specificity such as Con A, PSL, LCA and VFL.     

Proliferation of canine bone marrow derived mesenchymal stem cells on different nanomaterial based thin film scaffolds

Stem cell niche research uses nanotechnologies to mimic the extra-cellular microenvironment to promote proliferation and differentiation. The aim of designing different scaffolds is to simulate the best structural and environmental pattern for extracellular matrix. This experiment was designed to study the proliferative behaviour of canine bone marrow deriver mesenchymal stem cells (MSCs) on different nanomaterial based thin film scaffolds of carbon nanotubes (CNT), chitosan and poly ε-caprolactone. Similar number of cells was seeded on the scaffolds and standard cell culture flask, taken as control. Cells were maintained on DMEM media and relative number of metabolically active cells was determined by MTT assay up to day six of culture. Cells proliferated on control and all the scaffolds as the days progressed. Although proliferation rate was slow but no decline of cell number was noticed on the scaffolds during the study period. Initially, the cell proliferation was lower on CNT but as time progressed no significant difference was observed compared to control. The result indicated that nanomaterial based scaffolds reduce the proliferation rate of canine MSCs. However, canine MSCs adapted and proliferated better on CNT substrate in vitro and may be used as a scaffold component in canine tissue engineering in future.     

Novel hybrid scaffolds for the cultivation of osteoblast cells

In this study, natural biodegradable polysaccharide, chitosan, and synthetic biodegradable polymer, poly(?-caprolactone) (PCL) were used to prepare 3D, hybrid polymeric tissue scaffolds (PCL/chitosan blend and PCL/chitosan/PCL layer by layer scaffolds) by using the electrospinning technique. The hybrid scaffolds were developed through HA addition to accelerate osteoblast cell growth. Characteristic examinations of the scaffolds were performed by micrometer, SEM, contact angle measurement system, ATR-FTIR, tensile machine and swelling experiments. The thickness of all electrospun scaffolds was determined in the range of 0.010 ± 0.001-0.012 ± 0.002 mm. In order to optimize electrospinning processes, suitable bead-free and uniform scaffolds were selected by using SEM images. Blending of PCL with chitosan resulted in better hydrophilicity for the PCL/chitosan scaffolds. The characteristic peaks of PCL and chitosan in the blend and layer by layer nanofibers were observed. The PCL/chitosan/PCL layer by layer structure had higher elastic modulus and tensile strength values than both individual PCL and chitosan structures. The layer by layer scaffolds exhibited the PBS absorption values of 184.2; 197.2% which were higher than those of PCL scaffolds but lower than those of PCL/chitosan blend scaffolds. SaOs-2 osteosarcoma cell culture studies showed that the highest ALP activities belonged to novel PCL/chitosan/PCL layer by layer scaffolds meaning better cell differentiation on the surfaces.