Biological evaluation of RGD peptidomimetics, designed for the covalent derivatization of cell culture substrata, as potential promotors of cellular adhesion.

Our aim was to replace the proteins and peptides, generally used for the biocompatibilization of polymer substrata, with synthetic molecules mimicking the RGD (Arg-Gly-Asp) active sequence. Based on the (L)-tyrosine template, RGD peptidomimetics were constructed; one molecule 3 was equipped with an anchorage arm that allowed its covalent grafting on a culture substratum made from poly(ethylene terephthalate) (PET) microporous membrane. The amount of fixed molecules was readily determined by XPS, using a fluorine tag incorporated in the peptidomimetic structure. The binding of peptidomimetics 1-3 to the vitronectin (VN) and fibronectin (FN) receptors could not be revealed in a test of inhibition of MSC 80 cells adhesion, by the synthetic compounds in solution placed in competition with the adhesive proteins (VN and FN) coating polystyrene plates. However, the cell-attachment activity of peptidomimetic 3 was shown by culturing CaCo2 cells, in the absence of serum, on the PET substratum grafted with 3. The performance of this support was similar to that of PET grafted with the reference peptide RGDS (Arg-Gly-Asp-Ser), and only reduced by half comparatively to the PET grafted with FN.     

Polyethylene terephthalate membrane grafted with peptidomimetics: endothelial cell compatibility and retention under shear stress

The present work aimed to treat a polyethylene terephthalate (PET) surface to make the biomaterial more ‘attractive’ in terms of attachment and shear stress response to endothelial cells with a view to possible applications in vascular grafting. A surface wet-chemistry protocol was applied to graft track-etched PET membranes with RGD peptidomimetics based on the tyrosine template and active at the nano-level vs. isolated human α_vβ₃ receptor, which was monitored by X-ray photoelectron spectroscopy, contact angle measurement and atomic force microscopy for characterization. A primary culture of human saphenous vein endothelial cells was used before and after sterilization of the membranes (heat treatment or γ-ray irradiation) to test the benefit of grafting. The optimal surface concentrations of grafted molecules were around 50?pmol/cm². Compared to GRGDS, the peptidomimetics promoted cell attachment with similar or slightly better performances. Endothelialized grafted supports were further exposed to 2?h of shear stress mimicking arterial conditions. Cells were lost on non-grafted PET whereas cells on grafted polymers sterilized by γ-ray irradiation withstood forces with no significant difference in focal contacts. At the mRNA level, cells on functionalized PET were able to respond to shear stress with NFkB upregulation. Thus, grafting of peptidomimetics as ligands of the α_vβ₃ integrin could be a relevant strategy to improve the adhesion of human endothelial cells and to obtain an efficient endothelialized PET for the surgery of small-diameter vascular prostheses.     

Adhesion and growth of dental pulp stem cells on enamel-like fluorapatite surfaces

To study how apatite crystal alignment of an enamel-like substrate affects DPSC cellular adhesion and growth as a precursor to produce an in vitro enamel/dentin superstructure for future studies. The cells were subcultured in 10% FBS DMEM up to seven weeks on the two surfaces. Specimens were observed under SEM, counted, and analyzed using the human pathway-focused matrix and adhesion PCR array. After three days, the cell number on ordered FA surface was significantly higher than on the disordered surface. Of the 84 focused pathway genes, a total of 20 genes were either up or down regulated in the cells on ordered FA surface compared to the disordered surface. More interestingly, of the cell-matrix adhesion molecules, integrin alpha 7 and 8 (ITGA 7 and 8), integrin beta 3 and 4 (ITGB3 and 4), and the vitronectin receptor-integrin alpha V (ITGAV) and the key adhesion protein-fibronectin1 (FN1) were up-regulated. In SEM, both surfaces showed good biocompatibility and supported long term growth of DPSC cells but with functional cell-matrix interaction on the ordered FA surfaces. Significance: The enhanced cellular response of DPSC cell to the ordered FA crystal surface involves a set of delicately regulated matrix and adhesion molecules which could be manipulated by treating the cells with a dentin extract, to produce a dentin/enamel superstructure.     

Surface modification of polypropylene nonwovens with LDV peptidomimetics and their application in the leukodepletion of blood products

For clinical indications and according to European standards, a depletion of the leukocytes from whole blood has to be realized before transfusion to a patient. In this study, the surface of a layer of meltblown oxygen-plasma treated polypropylene nonwoven (O(2)-PP), making part of the composition of leukodepletion filters, was modified with bioactive molecules to enhance the adhesion of leukocytes. These synthetic small molecules (called peptidomimetics) mimic the "Leu-Asp-Val" (LDV) tripeptide sequence recognized by the α(4)β(1) integrin, a receptor expressed on leukocytes. Their activity, as ligands of the α(4)β(1) integrin, was confirmed through cell adhesion assays. The peptidomimetics were covalently immobilized on O(2)-PP nonwoven via activation of the hydroxyl- and carboxyl-functions displayed on the polymer surface with trifluoro-triazine reagent, or were simply deposited on the O(2)-PP surface. The treated materials were characterized by X-ray photoelectron spectroscopy, wettability, and morphological analyses, before and after steam sterilization. Experimental filters composed of 10 layers of O(2)-PP nonwovens and a last layer modified with the peptidomimetics were evaluated, using whole blood filtration assays, for their leukodepletion efficiency, the recovery of red cells and platelets and the waste of blood, with an objective to design new filters fulfilling practical and medical criteria.     

Altered vitronectin receptor (alphav integrin) function in fibroblasts adhering on hydrophobic glass.

Function of integrins is crucial for adhesion, movement, proliferation, and survival of cells. In a recent study we found impaired fibronectin receptor function on hydrophobic substrata (G. Altankov et al. J Biomater Sci Polym Edn 1997;8:712-740). Here, we have studied the distribution and function of the vitronectin receptor (alphav integrin) in fibroblasts adhering on hydrophilic glass and hydrophobic octadecyl glass (ODS). The morphology of fibroblasts and the organization of actin cytoskeleton were studied and found to be altered on ODS, where the cells did not spread and possessed condensed actin. Pretreatment of the surfaces with serum or pure vitronectin improved cell morphology on both substrata, resulting in the development of longitudinal actin stress fibers. It was found with biotinylated vitronectin that comparable quantities of vitronectin were adsorbed from single vitronectin solutions or serum on glass and on hydrophobic ODS. The organization of the vitronectin receptors on the ventral cell surface was investigated in permeabilized cells showing normal focal adhesions in fibroblasts plated on glass but none of these structures on ODS. The distribution of alphav integrin on the dorsal cell surface was studied on nonpermeabilized living cells after antibody tagging. While fibroblasts adhering on plain or serum-treated glass developed a linear organization of alphav integrin, cells on plain and serum-treated ODS were not able to reorganize the vitronectin receptor. Studies on signal transduction with antiphosphotyrosine antibodies revealed co-localization of alphav integrin and phosphotyrosine in focal adhesions on glass and serum-treated glass. However, signaling was almost absent on plain ODS and weak on serum-treated ODS. It was concluded that alterations in vitronectin receptor function on the ventral cell surface caused by the hydrophobic material surface inhibit signal transfer and subsequent intracellular events that are important for the organization and function of integrins.     

Mouse polymorphonuclear granulocyte binding to extracellular matrix molecules involves β1 integrins

The mechanism of adhesion of purified mouse polymorphonuclear granulocytes (PMN) to extracellular matrix proteins characteristic of basement membranes and the interstitium has been investigated and compared with the adhesion of a mouse progranulocytic cell line, 32DC13, and a mouse monocytic cell line, WEHI 78/24. All three cell types bound specifically to fibronectin and vitronectin to different degrees under different cellular activation states. 32DC13 bound to fibronectin and vitronectin strongly, and this binding increased upon cellular activation with phorbol 12-myristate-13-acetate (PMA) but not with formyl-Met-Leu-Phe. Only 32DC13 showed significant binding to laminin-1. By contrast, WEHI 78/24 and PMN bound only fibronectin and vitronectin; this binding was weak and was altered only marginally upon activation with PMA. In the case of WEHI 78/24, a slight increase in adhesion both to fibronectin and to vitronectin was observed after cellular activation with PMA, while PMN adhesion to both substrates was slightly reduced. The mechanism of binding to fibronectin and vitronectin was similar in the three cell types. The integrin α5β1 mediated fibronectin adhesion, demonstrating for the first time the existence of a functionally active β1 integrin on mouse PMN. Vitronectin binding was mediated by αvβ3, as demonstrated by the ability of αv-specific cyclic L -Arg-L -Gly-L -Asp-D -Phe-L -Val (RGDfV) peptide (EMD66203), and anti-β3 antibody to inhibit cell adhesion. 32DC13 adhesion to laminin-1 was via the α6β1 integrin. None of the three cell types tested bound to the basement membrane proteins collagen type IV and perlecan, or to the interstitial stromal constituents tenascin, collagen types I, V and VI. Interestingly, perlecan and collagen type IV were found to repel all three cell types. The relative inability of PMN, WEHI 78/24, and 32DC13 to bind to extracellular matrix proteins characteristic of basement membranes and their ability to bind inflammatory markers of the interstitium is discussed with respect to leukocyte extravasation processes.     

Mechanisms of pertussis toxin-induced myelomonocytic cell adhesion: role of Mac-1(CD11b/CD18) and urokinase receptor (CD87).

Stimulation of monoblastic U937 cells with transforming growth factor beta 1 and 1,25-(OH)2 vitamin D3 (TGF-beta 1/D3) upregulates urokinase receptor (uPAR) and confers urokinase-dependent adhesiveness to the cells for serum- or vitronectin-coated surfaces. Recent studies show that uPAR itself is a high-affinity adhesion receptor for vitronectin and that urokinase (uPA) is an activator of this adhesive function. In the course of exploring possible G-protein involvement in this adhesion it was observed that TGF-beta 1/D3-primed U937 cells became adhesive to vitronectin in an uPAR-dependent manner when exposed to pertussis toxin (PTX). The adherent response is concentration- and time-dependent, and was not due to the ADP-ribosyltransferase activity of the toxin because the purified B-subunit of PTX was equally effective. Although promoting adhesion to serum- or vitronectin-coated surfaces, PTX blocked spontaneous cell adhesion to fibrinogen, an endogenous ligand for the Mac-1 receptor (CD11b/CD18). Flow cytometry study showed that expression of the alpha-subunit of Mac-1 (CD11b) on primed cells was increased by nearly threefold. Monoclonal antibody to CD11b abolished the PTX-induced cell adhesion and the binding of the primed cells to PTX-coated plates. Activation of Mac-1 receptor by its endogenous ligand fibrinogen induced cell adherent response similar to PTX. PTX, but not uPA, triggered a rapid rise in [Ca2+]i in primed U937 cells, and PTX-induced adhesion was significantly attenuated by 1,2-bis-(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid/acetoxy-methyl ester (BAPTA/AM), a selective membrane-permeant [Ca2+]i chelator. PTX-induced cell adhesion was also prevented by antibodies to uPAR and by conditioned medium containing soluble uPAR. Together these data indicate that PTX B-subunit may bind to Mac-1 integrin, which leads to a rapid rise in [Ca2+]i and subsequent activation of uPAR for adherence to vitronectin, suggesting a functional link between Mac-1 and activation of uPAR important to cellular trafficking and host defence in response to Bordetella pertussis infection.     

整合素αvβ6对结肠癌细胞中整合素αvβ5内吞胞吐循环的影响

 目的：探讨整合素αvβ6对结肠癌细胞中整合素αvβ5内吞胞吐循环及细胞黏附、迁移能力的影响。方法：采用Western blotting检测不同细胞中整合素αvβ6和αvβ5的表达情况,通过整合素内吞实验、胞吐实验和capture-ELISA实验检测不同细胞中整合素αvβ6和αvβ5的内吞胞吐循环时相,利用细胞黏附实验和细胞迁移实验检测各种细胞在不同基质表面黏附和迁移能力的差异。结果：SW480、SW480 wild-type β6和SW480 mock细胞中整合素αv亚基和β5亚基的表达无显著差异（P>0.05）,SW480 wild-type β6细胞中整合素β6亚基的表达显著高于另外2种细胞（P<0.05）;SW480细胞中整合素αvβ5存在内吞胞吐循环,但当向SW480细胞中转染β6亚基后,整合素αvβ6进行内吞胞吐循环的同时,会对整合素αvβ5的内吞和胞吐过程产生抑制作用,差异有统计学意义（P<0.05）;3种细胞中整合素αvβ6和αvβ5的内吞胞吐循环的差异,会影响细胞在纤连蛋白（整合素αvβ6配体）和玻连蛋白（整合素αvβ5配体）表面的黏附和迁移能力。结论：整合素αvβ6和αvβ5拥有共同的α亚基,它们在细胞内的内吞胞吐循环存在某种竞争性关系,当二者同时存在时,整合素αvβ6会抑制αvβ5的内吞胞吐循环过程,并由此对细胞在相应基质表面黏附和迁移能力产生影响。     

Integrins as differential cell lineage markers of primary liver tumors.

This study analyzed new cell lineage markers for the differential diagnosis between hepatocellular carcinoma (HCC) and cholangiocarcinoma (ChC), as well as the potential pathways of cell-cell and cell-extracellular matrix interactions of neoplastic liver cells during tumor spread and invasion, by comparing the expression of (VLA) integrins, vitronectin receptor, and neural cell adhesion molecule in normal, inflamed, and neoplastic human liver biopsies. All cases of liver cell adenoma and well-differentiated HCC expressed the same set of integrins as observed in normal liver tissue, i.e., VLA-alpha 1 and VLA-beta 1. Poorly differentiated HCC also expressed VLA-alpha 1 and VLA-beta 1, but in addition de-novo expressed VLA-alpha 2, VLA-alpha 3, VLA-alpha 6 and vitronectin receptor. All cases of well-differentiated ChC expressed an identical integrin immunoprofile as observed in normal bile duct epithelium, i.e., VLA-alpha 2, VLA-alpha 3, VLA-alpha 6, VLA-beta 4 and vitronectin receptor, whereas poorly differentiated ChC showed a markedly decreased expression of these integrin subunits. VLA-alpha 1 was constantly absent from all cases of ChC, whereas VLA-beta 4 was never expressed by HCC. Neural cell adhesion molecule, exclusively expressed by proliferating reactive bile ductules in cholestatic and regenerating liver, was constantly absent from both malignant neoplasms. In conclusion, the integrin make up of various liver tumors closely follows that of their normal counterparts. Differences in integrin receptor expression vary according to the cellular origin of the tumors and are associated with a poor differentiation. Our findings suggest that immunohistochemical staining for VLA-alpha 1 and VLA-beta 4 integrin subunits, which highlight the cellular phenotype of the two neoplasms, might be a helpful tool in the differential diagnosis between HCC and ChC.     

Human endothelial cell interactions with surface-coupled adhesion peptides on a nonadhesive glass substrate and two polymeric biomaterials.

The attachment, spreading, spreading rate, focal contact formation, and cytoskeletal organization of human umbilical vein endothelial cells (HUVECs) were investigated on substrates that had been covalently grafted with the cell adhesion peptides Arg-Gly-Asp (RGD) and Tyr-Ile-Gly-Ser-Arg (YIGSR). This approach was used to provide substrates that were adhesive to cells even in the absence of serum proteins and with no prior pretreatment of the surface with proteins of the cell adhesion molecule (CAM) family. This approach was used to dramatically enhance the cell-adhesiveness of substrates that were otherwise cell-nonadhesive and to improve control of cellular interactions with cell-adhesive materials by providing stably bound adhesion ligands. Glycophase glass was examined as a model cell-nonadhesive substrate prior to modification, and polyethylene terephthalate (PET) and polytetrafluoroethylene (PTFE) were examined as representative materials for biomedical applications. The peptides were surface-coupled by their N-terminal amine to surface hydroxyl moieties using tresyl chloride chemistry. Prior to peptide grafting, the PET and PTFE were surface hydroxylated to yield PET-OH and PTFE-OH. The PET-OH was less cell-adhesive and the PTFE-OH was much more cell-adhesive than the native polymers. Radioiodination of a C-terminal tyrosine residue was used to quantify the amount of peptide coupled to the surface, and these amounts were 12.1 pmol/cm2 on glycophase glass, 139 fmol/cm2 on PET-OH, and 31 fmol/cm2 on PTFE-OH. Although the glycophase glass did not support adhesion or spreading even in the presence of serum, the RGD- and YIGSR-grafted glycophase glass did support adhesion and spreading, even when the only serum protein that was included was albumin. Although PET and PTFE-OH supported adhesion when incubated in serum-supplemented medium, neither of these materials supported adhesion with only albumin present, indicating that cell adhesion is mediated by adsorbed CAM proteins. When these materials were peptide-grafted, however, extensive adhesion and spreading did occur even when only albumin was present. Since the peptide grafting is quite easily controlled and is temporally stable, while protein adsorption is quite difficult to precisely control and is temporally dynamic, peptide grafting may be advantageous over other approaches employed to improve long-term cell adhesion to biomaterials.     

Influence de la densité de peptides RGD greffés en surface de polyéthylène téréphtalate sur l’attachement des MC3T3

The aim of this study was to evaluate the impact of different densities on MC3T3 cells attachment onto polyethylene terephthalate (PET) film surfaces. Biomimetic modifications were performed by means of a three-step reaction procedure: creation of COOH functions onto PET surface, coupling agent grafting and finally immobilization of peptides. The originality of this work consist, in one hand on quantifying RGD peptides densities grafted onto PET, and on the other hand on studying MC3T3 cells responses after seeding on such biomimetic surfaces. After each functionnalization step, modifications were validated by several physicochemical techniques: X-Ray Photoelectron Spectroscopy permitted to prove the grafting and high-resolution β-imager coupled with use of radiolabelled amino acids served in evaluation of peptides densities. Moreover, this last technique permit us to ensure stability of binding between peptides and polymer. The efficiency of this new route for biomimetic modification of PET surface was demonstrated by measuring the adhesion at 15 hours of osteoblast like cells. Study of cellular comportment was realized by means of focal contact proteins (vinculin, actin) immunostaining.     

Effects of plasma treated PET and PTFE on expression of adhesion molecules by human endothelial cells in vitro

The aim of this study was to evaluate the expression of adhesion molecules on the surface of human endothelial cells in response to the systematic variation in materials properties by the ammonia plasma modification of polyethylene terephthalate (PET) and polytetrafluorethylene (PTFE). These adhesion molecules act as mediators of cell adhesion, play a role in the modulation of cell adhesion on biomaterials and therefore condition the response of tissues to implants. First and second passage human umbilical vein endothelial cells (HUVECs) were cultured on plasma treated and untreated PET and PTFE. HUVECs grown on polystyrene tissue culture coverslips and HUVECs stimulated with tumour necrosis factor (TNF-alpha) were used as controls. After 1 day and 7 days, the expression of adhesion molecules platelet endothelial cell adhesion molecule-1 (PECAM-1), intercellular adhesion molecule-1 (ICAM-1), Integrin alphavbeta3, vascular cell adhesion molecule-1 (VCAM-1), E-selectin, P-selectin and L-selectin were evaluated using flow cytometry and immunohistochemistry. There was a slight increase in positive cell numbers expressing the adhesion molecules ICAM-1 and VCAM-1 on plasma treated PET and PTFE. A significant increase in E-selectin positive cells on untreated PTFE was demonstrated after 7 days. Stimulation with TNF-alpha demonstrated a significant increase in the proportion of ICAM-1. VCAM-1 and E-selectin positive cells. Almost all cells expressed PECAM-1 and integrin alphavbeta3, on both materials and controls but did not express P- and L-selectin on any surface. When second passage cells were used, the expression of the adhesion molecules ICAM-1 and VCAM-1 was markedly increased on all surfaces but not with TNF-alpha. These significant differences were not observed in other adhesion molecules. These results were supported by immunohistochemical studies. The effects of plasma treated PET and PTFE on cell adhesion and proliferation was also studied. There was a 1.3-fold increase in cell numbers adhered on ammonia plasma treated PET compared to untreated PET and a 5.5-fold increase in cell numbers on treated PTFE compared to untreated PTFE after 1 day. This is significantly different when analysed statistically. After 7 days, cell number increased significantly on all surfaces compared to 1 day, except for untreated PTFE which conversely reduced by 41%. Cell number on the surface of untreated PET was no different to treated PET on days 1 and 7 when second passage cells were used. The study has shown that the plasma treatment of PET and PTFE with ammonia improves the adhesion and growth of endothelial cells and slightly upregulates the expression of adhesion molecules. This surface modification should promote colonisation of an artificial vascular prosthesis by endothelial cells and make it less vulnerable to immune system cells of the recipient. In addition, it should be considered which passage of cells is used due to the different adhesion features of different passages of HUVECs on untreated PET.     

Recombinant vitronectin is a functionally defined substrate that supports human embryonic stem cell self-renewal via alphavbeta5 integrin

Defined growth conditions are essential for many applications of human embryonic stem cells (hESC). Most defined media are presently used in combination with Matrigel, a partially defined extracellular matrix (ECM) extract from mouse sarcoma. Here, we defined ECM requirements of hESC by analyzing integrin expression and ECM production and determined integrin function using blocking antibodies. hESC expressed all major ECM proteins and corresponding integrins. We then systematically replaced Matrigel with defined medium supplements and ECM proteins. Cells attached efficiently to natural human vitronectin, fibronectin, and Matrigel but poorly to laminin + entactin and collagen IV. Integrin-blocking antibodies demonstrated that alphaVbeta5 integrins mediated adhesion to vitronectin, alpha5beta1 mediated adhesion to fibronectin, and alpha6beta1 mediated adhesion to laminin + entactin. Fibronectin in feeder cell-conditioned medium partially supported growth on all natural matrices, but in defined, nonconditioned medium only Matrigel or (natural and recombinant) vitronectin was effective. Recombinant vitronectin was the only defined functional alternative to Matrigel, supporting sustained self-renewal and pluripotency in three independent hESC lines.     

生物活性短肽RGD在PET表面接枝方法的研究

在高分子材料表面共价引入人工合成的精氨酰-甘氨酰-天冬氨酸三肽(Arg-Gly-Asp peptides，RGD)，以达到让内皮细胞与之特异结合并更加牢固的目的。实验用紫外辐照法将活性基团羧基(-COOH)接枝到聚对苯二甲酸乙二醇酯(Poly(ethylene terephtalate)，PET)膜的表面，将液相合成的RGD三肽耦合接枝到处理过的材料表面，光电子能谱对以羧基为活性基团的接肽反应结果进行分析，光学、电子显微镜观察内皮细胞生长情况以检测接枝短肽的生物活性。内皮细胞生长实验结果表明，成功接枝的RGD序列对材料内皮细胞种植起到了促进作用。本实验成功运用紫外接枝与化学耦合，将生物活性短肽RGD接枝到膜表面，探索了一种新的接枝生物活性短肽的方法。     

The vitronectin receptor (αVβ3) as an example for the role of integrins in T lymphocyte stimulation

Integrins are a family of cell surface receptors which mediate the adhesion of cells to each other or to extracellular matrix (ECM) proteins. The interaction of integrins with their ligands or counter-receptors was initially considered to be a one-way process in that cells actively regulate the interaction of integrins with their ligands (‘inside-out signal’). In contrast, it was not obvious that cells would receive a signal from the outside via the integrin heterodimers following ligand binding (‘outside-in signal’). Recent evidence increasingly supports the active role of integrins in cell activation and proliferation. Many reports describe the effects of integrin-mediated signaling in lymphoid cells. Our studies of γ/δ T cells, expressing the β3 integrin vitronectin receptor (VNR), reflect some of the consequences this active interaction between lymphocytes and the ECM could have for T cell activation and differentiation. The VNR has been described as a T cell costimulatory molecule. We recently reported that the VNR has the potential to stimulate cytokine secretion in T cell hybridomas without involvement of T cell receptor-mediated signals. Further studies demonstrated tyrosine phosphorylation of proteins following VNR cross-linking and the interaction of the VNR with protein kinases. Intensive research focuses on the signal transduction mechanisms of integrins and their interaction with other costimulatory or activation molecules. This knowledge is important to better understand the role of adhesion molecules, the ECM, and the cellular microenvironment for lymphocyte activation and differentation.     

Vitronectin expression in differentiating neuroblastic tumors: integrin alpha v beta 5 mediates vitronectin-dependent adhesion of retinoic-acid-differentiated neuroblastoma cells.

The metastatic potential of undifferentiated neuroblastomas is typically lost when differentiation into ganglioneuroblastomas occurs spontaneously or is induced. Cell adhesion may play a role in metastasis, and we have shown recently that expression of integrin alpha v beta 5 protein and mRNA is up-regulated in ganglioneuroblastomas in vivo. To investigate whether interactions of alpha v beta 5 with matrix components play a role in the loss of metastatic potential, we used immunohistochemical and in situ hybridization to analyze neuroblastic tumors at various stages of differentiation for expression of the alpha v beta 5 ligands, vitronectin and osteopontin, and determined the ability of vitronectin to promote attachment and neurite outgrowth in vitro in a retinoic-acid-differentiated neuroblastoma cell model. We found that vitronectin, but not osteopontin, was expressed in 5 of 5 ganglioneuroblastomas but was absent or weakly expressed in 6 of 6 undifferentiated neuroblastomas. Neuronal cell vitronectin was detected in 7 of 9 ganglioneuromas, 5 of 8 peripheral ganglia, and 14 of 21 adrenal gland medullae, confirming expression of vitronectin in mature peripheral neurons. In vitro, vitronectin promoted attachment of both undifferentiated and retinoic-acid-differentiated neuroblastoma cells, which was inhibited 20 and 60%, respectively, by monoclonal antibody anti-integrin alpha v beta 5. Vitronectin-promoted neurite outgrowth of retinoic-acid-differentiated neuroblastoma cells was not inhibited by monoclonal antibody anti-alpha v beta 5. These data suggest that the synthesis of vitronectin and the ability of integrin alpha v beta 5 to mediate vitronectin adhesion on retinoic-acid-differentiated neuroblastoma cells may promote differentiation of neuroblastoma cells in vivo.     

Urokinase-Receptor/Integrin Complexes Are Functionally Involved in Adhesion and Progression of Human Breast Cancer in Vivo

Interactions between specific cell-surface molecules, which include the urokinase receptor (uPAR) and integrins, are crucial to processes of tumor invasion and metastasis. Here we demonstrate that uPAR and beta1-integrins may cluster at distinct sites at the cell surface of metastatic MDA-MB-231 breast cancer cells and form functional complexes. Attachment assays performed in the presence of a synthetic peptide (p25), which interferes with the formation of uPAR-integrin complexes, reveal that uPAR is able to regulate the adhesive function of integrins in breast cancer cells. On dissociation of the uPAR-integrin complexes by p25, tumor cell attachment to the extracellular matrix was either decreased (vitronectin) or increased (fibronectin). Moreover, the tumor cells display remarkable morphological changes when cultured on fibronectin in the continuous presence of p25, leading to increased cell spreading and attachment. In marked contrast to control conditions, increased cellular adhesion to fibronectin after p25 treatment was entirely beta1-integrin-mediated. The role of uPAR-integrin complexes in tumor progression was studied in an in vivo bone xenograft model. Stably transfected MDA-MB-231 cells that overexpress p25 showed a significant reduction in tumor progression in bone (P < or = 0.0001 versus mock-control). In line with these observations, continuous administration of p25 (25 microg/mouse/day, osmotic minipumps) for 28 days resulted in significantly reduced tumor progression of MDA-MB-231 cells in bone (P < or = 0.005) when compared to scrambled control peptide. In conclusion, our data demonstrate that uPAR can act as an adhesion receptor in breast cancer and is capable of regulating integrin function. Our findings strongly suggest that adhesive and proteolytic events are tightly associated in metastatic breast cancer cells and that functional integrin-uPAR complexes are involved in tumor progression in vivo.     

Expression and function of beta(1) and beta(3) integrins of human mesothelial cells in vitro.

Mesothelial cells (MC) and extracellular matrix (ECM) components are thought to play a pivotal regulatory role during the inflammatory-reparative response of serosal membranes. Integrins are known to serve as cellular ECM receptors, but mesothelial integrin expression and its function, particularly its role for attachment to different ECM components, remain to be elucidated. The aim of the present study was to characterize the integrin expression of human omentum majus derived MC (HOMC) in vitro by immunohistochemistry and to investigate their functional significance with regard to HOMC adhesion to fibronectin (fn), vitronectin (vn), collagen IV (coll IV), and laminin (ln). Mesothelial cells in vitro strongly expressed beta(1), beta(3), alpha(2), alpha(3), alpha(5), and alpha(v) chains. A weak reactivity was found for alpha(1) and alpha(6), but no alpha(4) reactivity was detectable. Compared to the control, fn, vn, coll IV, and ln caused a significant 2.6-, 2.2-, 2-, and 1.6-fold increase of HOMC adhesion, respectively. Inhibition studies revealed that HOMC attachment to fn is mediated by alpha(5)beta(1), alpha(v)beta(1), and alpha(v)beta(3), with a synergistic effect of alpha(5)beta(1) and alpha(v)beta(3). Adhesion to vn is mediated by alpha(v)beta(1) and alpha(v)beta(3). Integrins alpha(1)beta(1), alpha(2)beta(1), and alpha(3)beta(1) mediate adhesion to coll IV and ln. We suggest that the integrin expression and function of mesothelial cells described here play an important role in the interaction of MC with the ECM, particularly during the acute and chronic inflammatory-reparative response of serosal membranes.     

The effect of RGD density on osteoblast and endothelial cell behavior on RGD-grafted polyethylene terephthalate surfaces

Hybrid materials combining polyethylene terephthalate and different types of cells (endothelial and osteoblastic cells) have been developed thanks to the covalent grafting of different densities of RGD containing peptides onto the polymer surface. Biomimetic modifications were performed by means of a three-step reaction procedure: creation of COOH functions, coupling agent grafting and the immobilization of the RGDC peptides. High resolution μ-imager was used to evaluate RGD densities (varying between 0.6 and 2.4 pmol/mm²) and has exhibited the stability of the surface grafted peptides when treated in harsh conditions. The efficiency of this route for biomimetic modification of a PET surface was demonstrated by measuring the adhesion of MC3T3 and HSVEC cells and by focal adhesion observation. Results obtained prove that a minimal RGDC density of 1 pmol/mm² is required to improve MC3T3 and HSVEC cells responses. Indeed, cells seeded onto a RGDC-modified PET with a density higher than 1 pmol/mm² were able to establish focal adhesion as visualized by fluorescence microscope compared to cells immobilized onto unmodified PET and RGDC-modified PET with densities lower than 1 pmol/mm². Moreover, the number of focal contacts was enhanced by the increase of RGDC peptide densities grafted onto the material surface. With this study we proved that the density of peptides immobilized on the surface is a very important parameter influencing osteoblast or endothelial cell adhesion and focal contact formation.     

整合素β1及纤连蛋白、层粘连蛋白对胶质瘤细胞浸润性的影响

目的 探讨整合素β1和纤连蛋白（FN）、层粘连蛋白（LN）对人胶质瘤浸润性的影响和作用机制。方法 以U251人胶质母细胞瘤（U251MG）细胞为研究对象,通过细胞黏附实验、迁移实验和体外侵袭实验,检测整合素β1及LN、FN对人恶性胶质瘤细胞黏附、迁移和转移能力的影响。通过荧光染色结合激光扫描共聚焦显微镜观察和扫描电镜方法,观察细胞微丝数量、分布和细胞表面伪足情况,比较整合素β1及FN、LN对微丝骨架的影响。结果 （1）FN对U251MG细胞黏附能力无明显影响,但抗整合素β1抗体可减少U251MG细胞的黏附数量（P〈0．01）;LN增加U251MG细胞黏附能力（P〈0．01）,抗整合素β1抗体对此作用影响较小。（2）抗整合素β1抗体减弱U251MG细胞在FN的运动、迁移能力（P〈0．05）。（3）U251MG细胞内可见清晰的微丝结构,FN、LN使细胞内纤维型肌动蛋白（F-actin）形成束状纤维,粗壮而密集;抗整合素B1抗体处理的细胞内,难以见到清晰的细胞微丝骨架,并常见大量絮团状的F-actin。（4）扫描电镜观察显示,FN、LN使细胞表面的伪足数量明显增加,而抗整合素β1抗体使细胞伪足数量明显减少,甚至消失。（5）FN和抗整合素β1抗体对U251MG细胞的体外侵袭能力无明显影响;LN可促进U251MG细胞的体外侵袭能力,抗整合素β1抗体可抑制这种作用（P〈0．01）。结论 （1）U251MG细胞通过整合素β1和FN相互作用,改变细胞微丝骨架、伪足结构和数量而促进U251MG细胞的运动、迁移能力。（2）整合素β1参与了LN介导的U251MG细胞体外侵袭作用。