功能化自组装肽水凝胶在细胞培养中应用

自组装肽水凝胶是一类能够在特定的条件下利用疏水作用、静电作用、氢键、范德华力等非共价作用力来形成内部高度有序结构的多肽分子凝胶.自组装多肽凝胶具有易于设计合成、低免疫原性、低炎症反应、良好组织相容性、生物利用度高等特点,可为各种细胞提供近似于天然的细胞外基质,促进细胞增殖、分化、黏附等细胞生物学行为.因此,自组装肽水凝...     

自组装IKVAV多肽纳米纤维支架凝胶及其对嗅鞘细胞的作用

旨在观察自组装IKVAV多肽纳米纤维支架凝胶对鼠嗅鞘细胞(OECs)的作用。通过调整IKVAV溶液pH值并加入培养液触发多肽自组装为支架凝胶, 用原子力显微镜检测IKVAV分子可以自组装成编织状纳米纤维(直径为3~5 nm)。采用原代分离培养方法获得OECs单细胞悬液后, 使用差速贴壁法两次纯化OECs且在第12天通过免疫染色计数OECs纯度为85%。将IKVAV多肽纳米纤维支架凝胶与OECs复合培养, 倒置显微镜下观察OECs生长良好, Calcein-AM/PI活、死细胞染色表明活细胞数达95%。CCK-8法间接细胞计数证实IKVAV多肽可促进OECs的黏附, 对OECs增殖没有影响。由此可见IKVAV多肽可以自组装成纳米纤维支架凝胶且对OECs有良好的生物相容性及黏附作用, 可作为神经组织工程支架材料。     

基于天然水凝胶的生物材料在骨组织工程中的应用*

天然水凝胶是指原材料来自于天然生物材料的水凝胶。由于这种天然的聚合物含有构成生物体的天然成分,与天然组织具有生物学和化学相似性,而受到特别关注。天然水凝胶由于其与细胞外基质高度的相似性被认为是骨组织工程中优良的仿生基质材料。而针对天然水凝胶机械性能差、成骨诱导性能弱等缺陷,通常需要对天然水凝胶进行改性、引入其他材料或生物活性因子,以此来获得更适用于骨组织工程支架材料。对近年来基于天然水凝胶的生物材料在骨组织工程的应用,与其不同的应用形式(可注射水凝胶、多孔水凝胶支架、3D生物打印水凝胶支架等)进行了概述,以期对这类基于天然水凝胶的生物材料在未来骨组织工程中的应用提供参考。     

手性自组装短肽对子宫创伤修复的影响

本研究旨在探索手性自组装短肽在大鼠子宫创伤修复过程中发挥的作用。通过圆二色谱仪分析手性自组装短肽的二级结构;刚果红染色观察短肽自组装过程;红细胞裂解实验检测短肽对细胞膜的裂解作用;通过在模拟子宫创伤大鼠模型上引入手性自组装短肽,利用HE染色及免疫组织手段分析其在子宫创伤修复过程中的影响。结果显示,手性自组装短肽二级结构均为稳定的β折叠;可在盐离子触发下自组装形成致密的膜状结构;短肽自组装前后对细胞膜无裂解作用;可为细胞提供三维培养支架;Hela细胞在短肽形成的水凝胶环境中可持续生长;动物实验结果表明,手性自组装短肽可明显加快子宫修复过程。手性自组装短肽作为新型生物工程材料,可构建细胞三维培养环境并用于子宫创伤修复。     

MSCs在自组装多肽纳米纤维支架中的三维培养及脂向分化研究

拟采用自组装多肽RADA16水凝胶建市MSCs的三维培养体系,以观察MSCs在RADA16中的黏附、形态及脂向分化情况.将第3代细胞置于RADA16水凝胶中进行三维培养.实验组细胞-材料复合物以脂向诱导液诱导,对照组以DMEM培养液培养,然后进行形态学观察,油红O染色及Western blot检测.荧光染色显示,绝大多数MSCs在RADA16水凝胶中能存活,且在不同的三维平面上生长.经诱导后,细胞内有大量油红O染色阳性的脂滴聚集,Western blot分析结果显示有脂肪细胞特异的蛋白PPARγ表达,且表达量随诱导时间的延长而增加.以上结果表明,RADA16水凝胶支架为MSCs的黏附、生长提供良好的三维环境,经定向诱导后支架内的MSCs可向脂肪组织方向分化.     

小鼠前成骨细胞MC3T3-E1在自组装多肽水凝胶支架中的成骨分化

目的研究MC3T3-E1细胞在自组装多肽水凝胶支架上的生长和成骨分化.方法在多肽水凝胶支架RADA16上接种MC3T3-E1细胞,荧光染色观察细胞形态和存活情况;组织化学染色检测MC3T3-E1细胞碱性磷酸酶活性以及细胞外钙质沉积;RT-PCR分析成骨特异性基因的表达.结果 MC3T3-E1细胞在水凝胶支架RADA16上粘附铺展良好,呈纺锤样形态.诱导培养后支架上的细胞有较高水平的碱性磷酸酶表达和矿化基质沉积.此外,骨分化特异性基因骨桥蛋白和骨涎蛋白也有表达,且表达量随培养时间的延长而增多.结论 在自组装水凝胶内MC3T3-E1细胞可向成骨方向分化,并能在凝胶内产生矿化的细胞外基质.     

自组装短肽水凝胶支架三维培养环境对骨髓间充质干细胞生物学特性及心肌方向分化的影响

目的:探究短肽GFS-4自组装形成的水凝胶作为支架材料构建三维微环境对BMSCs生物学特性及向心肌细胞方向诱导分化过程的影响。方法:刚果红染色、红细胞膜裂解实验检测短肽GFS-4自组装效果及对细胞膜是否具有裂解作用;CCK8和AO/EB染色分别检测对BMSCs活性和凋亡的影响;Real-time PCR分析BMSCs诱导分化后MLC-2v、GATA-4基因表达情况。结果:GFS-4自组装后形成致密凝胶,自组装前后对细胞膜无损伤;三维培养环境细胞呈球形生长,细胞活力和凋亡速度均低于二维培养环境。三维培养组在诱导分化过程中的第5天和第7天MLC-2v、GATA-4基因表达均显著高于二维组(P0.05)。结论:短肽GFS-4自组装水凝胶构建的三维微环境延缓了BMSCs的增殖速度和凋亡速度,并促进向心肌方向诱导分化过程中MLC-2v、GATA-4基因的表达。     

应用多种水凝胶支架材料构建三维神经干细胞培养模型

该研究以鼠尾胶原、透明质酸以及海藻酸钠为主要成分,同时添加功能化的层粘连蛋白形成12种生物材料支架。应用大鼠神经干细胞(rat neural stem cells,r NSCs)体外培养,比较了支架的生物相容性和功能特点。结果显示,鼠尾胶原和透明质酸支架形成的三维多孔结构利于r NSCs的黏附,培养7 d后,1 mg/m L胶原组内的细胞活力更强,而含15%交联剂的层粘连蛋白–透明质酸支架内细胞与神经突触相互缠绕,展现出更明显的神经元样生理形态和特异性蛋白。1.5%海藻酸钠胶珠内的细胞呈球体生长,更适用于进行细胞的大规模动态培养。该研究构建的支架与r NSCs具有良好的生物相容性,利于其增殖和分化。因此,r NSCs分化后的神经元与水凝胶构成的三维培养模型,有望进一步应用于神经退行性疾病的研究和相关药物检测中。     

酶启动和调控自组装超分子水凝胶

超分子间的弱相互作用使自组装超分子水凝胶的结构比较容易改变。用酶启动和调控超分子水凝胶的自组装不仅能在原位上对超分子水凝胶结构进行调整和控制,而且具有很好的生物选择性,有望制造出生物医学上所需要的材料,并能够控制生物体系中一些重要的生物过程。本文对酶启动和调控自组装超分子水凝胶的两类过程进行了总结,并以磷酸酯酶、β-内酰胺酶、嗜热菌蛋白酶、脂肪酶、基质金属蛋白酶和磷酸酯酶/激酶等酶为例,综述了如何设计和使用酶来启动和调控小分子的自组装超分子水凝胶。     

腹膜间皮细胞与聚羟基乙酸的细胞相容性研究

目的：研究腹膜间皮细胞（Peritoneal mesothelial cell,PMC）与可吸收生物材料聚羟基乙酸（Polyglycolicacids,PGA）的相容性,为组织工程化尿道的构建奠定基础。方法：采用酶消化法,从SD大鼠腹腔中分离出PMC,常规传代,取第2代细胞与PGA混合培养,形成细胞-生物材料复合物。每两天换液1次,观察细胞形态和黏附生长状况。体外培养1周后,行扫描电镜观察和RT-PCR检测。结果：复合物体外培养1周后,PMC能成功黏附在PGA支架上,并分泌大量细胞外基质。RT-PCR提示CK-AE1/AE3和Vimentin均呈阳性表达,PMC表型未发生改变。结论：PMC与PGA有良好的细胞相容性,PGA可作为组织工程化腹膜样组织的支架材料。     

Laminin-1 and the RKRLQVQLSIRT Laminin-1 α1 Globular Domain Peptide Stimulate Matrix Metalloproteinase Secretion by PC12 Cells

Here we have investigated the ability of laminin-1 and specific laminin-1-derived synthetic peptides to stimulate neuronal cell matrix metalloproteinase secretion. Zymographic analysis of conditioned media from laminin-1-treated PC12 and NG108-15 cells revealed a 72-kDa matrix metalloproteinase which was not secreted by untreated cells. Laminin-1 α1 chain-derived synthetic peptides, AASIKVAVSADR (LAM-L) and RKRLQVQLSIRT (AG-73), also stimulated PC12 cell secretion of a 72-kDa matrix metalloproteinase. We further investigated the structural requirements of AG-73 for cell attachment, neurite outgrowth, and matrix metalloproteinase secretion using a series of AG-73 analogs that had single amino acids substituted with alanine. At the substrate levels tested, the AG-73 peptide promoted the adhesion of 67% of the PC12 cells and neurite outgrowth in 71% of the PC12 cells. Substitutions in any one of the amino acids within the central LQVQ sequence resulted in a large reduction in cell attachment whereas substitution in the carboxyl terminal proximal amino acids L, S, and R had little effect on attachment. Alanine substitution of any of the amino terminal proximal LQV amino acids and the carboxyl terminal L, I, and R residues resulted in a 65–91% reduction in neurite outgrowth. These data demonstrate that the sequence requirements for cell attachment and neurite outgrowth were not necessarily coupled but that the sequence requirements for neurite outgrowth and matrix metalloproteinase secretion were identical. We conclude that laminin-1 is able to stimulate neuronal cells to secrete a matrix metalloproteinase. Further, this study identifies the LQVXLXIR laminin-1 α1 globular domain peptide to be capable of stimulating both neurite outgrowth and matrix metalloproteinase secretion.     

层粘连蛋白及其肽段对小鼠胚泡粘附和扩展的作用

作为细胞外基质的主要成分之一的层粘连蛋白（ＬＮ）,对小鼠胚泡的粘附、扩展有显著促进作用。ＬＮ分子上的一些活性位点对胚泡的粘附和扩展也具有一定的作用,含ＲＧＤ位点序列的合成肽段ＲＧＤＳ对胚泡的粘附有促进作用;含ＹＩＧＳＲ位点序列的合成肽段ｃＹＩＧＳＲ对胚泡的粘附和扩展均有促进作用;且ＲＧＤＳ和ｃＹＩＧＳＲ可以竞争性抑制ＬＮ对胚泡粘附和扩展的促进作用。以上结果表明ＬＮ对胚泡的作用是通过胚泡上不同的ＬＮ     

A laminin-pepsin fragment with cell attachment and neurite outgrowth activity at distinct sites

Laminin is a large basement membrane glycoprotein which influences the behavior and morphology of a variety of cells. We have found that laminin and a pepsin fragment of laminin (P-lam) contain distinct sites for HT-1080 human fibrosarcoma cell attachment and for neurite outgrowth activity of PC12 and NG108-15 cell lines. Reduction and alkylation of laminin and P-lam fragment disulfide bonds, in the absence of denaturing agents, markedly reduced the cell attachment activity without reducing the neurite outgrowth response. The P-lam fragment (approximately 375 kDa) was found to contain part of the cross region of laminin and a portion of the long arm, on the basis of recognition by antisera against laminin synthetic peptides and fusion proteins. Modification of arginine residues by cyclohexanedione also had no effect on neurite outgrowth but reduced HT-1080 cell adhesion. Modification of lysine residues by succinic and citraconic anhydride, however, abolished laminin neurite outgrowth but not cell attachment activity. Neurite outgrowth activity was recovered by reversing the lysine modification. These data support the existence on laminin of separate sites for cell attachment and for neurite outgrowth.     

Identification of neurite outgrowth promoting sites on the laminin alpha 3 chain G domain

Laminins are expressed in specific tissues and are involved in various biological activities including promoting cell adhesion, growth, migration, neurite outgrowth, and differentiation. The laminin alpha3 chain is mainly located in the skin and is also expressed in the floor plate of the developing neural tube. Previously, we showed that the human laminin alpha3 chain LG4 module binds to syndecan-2/4, a membrane-associated proteoglycan, and promotes human fibroblast adhesion. Here, we have evaluated the neurite outgrowth activity of the laminin alpha3 chain LG4 and LG5 modules. Three overlapping recombinant proteins, which contained LG4 and/or LG5 modules of the human laminin alpha3 chain, were prepared using a mammalian cell expression system. Two proteins, rec-alpha3LG4-5 and rec-alpha3LG4, promoted cell attachment and neurite outgrowth of rat pheochromocytoma PC12 cells, but rec-alpha3LG5 was inactive. Twenty-two peptides covering the entire LG4 module were synthesized and tested for cell attachment and neurite outgrowth activity to identify active sites of the LG4 module. A3G75 (KNSFMALYLSKG, alpha3 chain 1411-1422) and A3G83 (GNSTISIRAPVY, alpha3 chain 1476-1487) promoted PC12 cell attachment and neurite outgrowth. Additionally, A3G75 and A3G83 inhibited PC12 cell attachment to rec-alpha3LG4. These results suggest that the A3G75 and A3G83 sites are important for PC12 cell attachment and neurite outgrowth in the laminin alpha3 chain LG4 module. We also conjugated the A3G75 and A3G83 peptides on chitosan membranes to test their potential as bio-materials. These peptide-conjugated chitosan membranes were more active for neurite outgrowth than the peptide-coated plates. These results suggest that the A3G75- and A3G83-conjugated chitosan membranes are applicable as bio-medical materials for neural tissue repair and engineering.     

智能多肽的自组装机理及其生物学应用

智能多肽是指智能响应外界刺激并做出相应回应的多肽。由于其形成过程为自发的自组装,故智能多肽又可称为自组装多肽。智能多肽的氨基酸构成使其拥有良好的生物相容性及生物可降解性,作为构筑基元拼接成为功能性材料,在新型生物材料方面展示出了广阔的应用前景。概括了智能多肽的性质、自组装机理及应用,重点阐述了它在生物能源、生物医学工程和分离工程上的应用,以期在系统认识智能多肽的基础上,发掘其应用潜能,突破开发瓶颈。     

Identification of active sequences in the L4a domain of laminin α5 promoting neurite elongation

Laminin α5 is an extracellular matrix protein containing multiple domains implicated in various biological processes, such as embryogenesis and renal function. In this study, we used recombinant proteins and synthetic peptides to identify amino acid residues within the short arm region of α5 that were critical for neurite outgrowth activity. The short arm of α5 contains three globular domains (LN, L4a, and L4b) and three rodlike elements (LEa, LEb, and LEc). Recombinant proteins comprised of the α5 short arm fused with a Fc tag produced in 293 cells were assayed for PC12 (pheochromocytoma) cell adhesion and neurite outgrowth activities. Although it did not have cell attachment activity, neurite outgrowth was promoted by the recombinant protein. To narrow the region involved in neurite outgrowth activity, two truncated recombinant proteins were produced in 293 cells. A recombinant protein lacking L4a and LEb lost activity. Furthermore, we synthesized 78 partially overlapping peptides representing most of the amino acid sequences of L4a and LEb. Of the peptides, A5-76 [mouse laminin α5 928-939 (TSPDLFRLVFRY) in L4a] exhibited neurite outgrowth activity. Mutagenesis studies showed that Phe(933) and Arg(934) were involved in neurite outgrowth activity. Moreover, inhibition assays using anti-integrin monoclonal antibodies showed that neurite outgrowth on the α5 short arm was partially mediated by integrin α1β1. However, the antibodies to integrin α1 and β1 did not inhibit neurite elongation on the A5-76 peptide. These results suggest that in addition to cellular interactions with the active site in the L4a domain, the binding of integrin α1β1 seems to modulate neurite elongation on the short arm of α5.     

The RGD containing site of the mouse laminin A chain is active for cell attachment, spreading, migration and neurite outgrowth

The laminin A chain has been sequenced by cDNA cloning and was found to contain an RGD sequence. Synthetic peptides containing the RGD sequence and flanking amino acids were active in mediating cell adhesion, spreading, migration, and neurite outgrowth. Furthermore, endothelial cell attachment to a laminin substrate was inhibited by an RGD-containing synthetic peptide. Antisera against the integrin (fibronectin) receptor, and monoclonal antibody to the integrin, VLA-6, inhibited cell interaction with laminin, as well as with peptides containing an RGD sequence. These results suggest that the RGD containing site of laminin is active and interacts with the integrin family of receptors in certain cells.     

Integrin-dependent cell behavior on ECM peptide-conjugated chitosan membranes

Extracellular matrix (ECM) plays an important role in tissue regeneration by promoting cell adhesion, migration, proliferation, and differentiation. ECM mimetics are of importance for tissue engineering because of their functions as scaffolds for cells. Previously, we developed bioactive laminin-derived peptide-conjugated chitosan membranes and demonstrated their cell- and peptide-type specific functions. Here, we conjugated twelve integrin-binding peptides derived from ECM proteins onto chitosan membranes and examined biological activity. Seven peptide-chitosan membranes promoted human foreskin fibroblast attachment. Additionally, FIB1 (YAVTGRGDSPAS; from fibronectin), A99 (AGTFALRGDNPQG; from laminin alpha1 chain), EF1zz (ATLQLQEGRLHFXFDLGKGR, X = Nle; from laminin alpha1 chain), and 531 (GEFYFDLRLKGDKY; from collagen alpha1 (IV) chain) conjugated chitosan membranes promoted integrin-dependent cell adhesion. Various integrins, including alphav, beta1, and beta3, were involved in the cell adhesion to the peptide-chitosan membranes. Further, only the FIB1- and A99-chitosan membranes promoted neurite outgrowth with PC12 rat pheochromocytoma cells. These data demonstrate that peptide-chitosan membranes can regulate specific integrin-mediated cell responses and are useful constructs as ECM mimetics.     

Biological activities of homologous loop regions in the laminin alpha chain G domains

Laminin alpha chains (alpha1-alpha5 chains) have diverse chain-specific biological functions. The LG4 modules of laminin alpha chains consist of a 14-stranded beta-sheet (A-N) sandwich structure. Several biologically active sequences have been identified in the connecting loop regions. Here, we evaluated the biological activities of the loop regions of the E and F strands in the LG4 modules using five homologous peptides from each of the mouse alpha chains (EF-1: DYATLQLQEGRLHFMFDLG, alpha1 chain 2747-2765; EF-2: DFGTVQLRNGFPFFSYDLG, alpha2 chain 2808-2826; EF-3: RDSFVALYLSEGHVIFALG, alpha3 chain 2266-2284; EF-4: DFMTLFLAHGRLVFMFNVG, alpha4 chain 1511-1529; EF-5: SPSLVLFLNHGHFVAQTEGP, alpha5 chain 3304-3323). These homologous peptides showed chain-specific cell attachment and neurite outgrowth activities. Well organized actin stress fibers and focal contacts with vinculin accumulation were observed in fibroblasts attached on EF-1, whereas fibroblasts on EF-2 and EF-4 showed filopodia with ruffling. Fibroblast attachment to EF-2 and EF-4 was mediated by syndecan-2. In contrast, EF-1 promoted alpha2beta1 integrin-mediated fibroblast attachment and inhibited fibroblast attachment to a recombinant laminin alpha1 chain LG4-5. The receptors for EF-3 and EF-5 are unknown. Further, when the active core sequence of EF-1 was cyclized, utilizing two additional cysteine residues at both the N and C termini through a disulfide bridge, the cyclic peptide significantly enhanced integrin-mediated cell attachment. These results indicate that integrin-mediated cell attachment to the EF-1 sequence is conformation-dependent and that the loop structure is important for the activity. The homologous peptides, which promote either integrin- or syndecan-mediated cell attachment, may be useful for understanding the cell type- and chain-specific biological activities of the laminins.     

Embryonic neural retinal cell response to extracellular matrix proteins: developmental changes and effects of the cell substratum attachment antibody (CSAT)

Cell attachment and neurite outgrowth by embryonic neural retinal cells were measured in separate quantitative assays to define differences in substrate preference and to demonstrate developmentally regulated changes in cellular response to different extracellular matrix glycoproteins. Cells attached to laminin, fibronectin, and collagen IV in a concentration-dependent fashion, though fibronectin was less effective for attachment than the other two substrates. Neurite outgrowth was much more extensive on laminin than on fibronectin or collagen IV. These results suggest that different substrates have distinct effects on neuronal differentiation. Neural retinal cell attachment and neurite outgrowth were inhibited on all three substrates by two antibodies, cell substratum attachment antibody (CSAT) and JG22, which recognize a cell surface glycoprotein complex required for cell interactions with several extracellular matrix constituents. In addition, retinal cells grew neurites on substrates coated with the CSAT antibodies. These results suggest that cell surface molecules recognized by this antibody are directly involved in cell attachment and neurite extension. Neural retinal cells from embryos of different ages varied in their capacity to interact with extracellular matrix substrates. Cells of all ages, embryonic day 6 (E6) to E12, attached to collagen IV and CSAT antibody substrates. In contrast, cell attachment to laminin and fibronectin diminished with increasing embryonic age. Age-dependent differences were found in the profile of proteins precipitated by the CSAT antibody, raising the possibility that modifications of these proteins are responsible for the dramatic changes in substrate preference of retinal cells between E6 and E12.