ECM regulates MT1-MMP localization with beta1 or alphavbeta3 integrins at distinct cell compartments modulating its internalization and activity on human endothelial cells

Regulation of membrane-type 1 matrix metalloproteinase (MT1-MMP) by different extracellular matrices (ECMs) on human endothelial cells (ECs) has been investigated. First, MT1-MMP is found at the intercellular contacts of confluent ECs grown on beta1 integrin-dependent matrix such as type 1 collagen (COL I), fibronectin (FN), or fibrinogen (FG), but not on gelatin (GEL) or vitronectin (VN). The novel localization of MT1-MMP at cell-cell contacts is assessed by confocal videomicroscopy of MT1-MMP-GFP-transfected ECs. Moreover, MT1-MMP colocalizes with beta1 integrins at the intercellular contacts, whereas it is preferentially found with alphavbeta3 integrin at motility-associated structures on migrating ECs. In addition, clustered integrins recruit MT1-MMP and neutralizing anti-beta1 or anti-alphav integrin mAb displace MT1-MMP from its specific sites, pointing to a biochemical association that is finally demonstrated by coimmunoprecipitation assays. On the other hand, COL I, FN, or FG up-regulate cell surface MT1-MMP on confluent ECs by an impairment of its internalization, whereas expression and internalization are not modified on GEL or VN. In addition, MT1-MMP activity is diminished in confluent ECs on COL I, FN, or FG. Finally, MT1-MMP participates and cooperates with beta1 and alphavbeta3 integrins in the migration of ECs on different ECM. These data show a novel mechanism by which ECM regulates MT1-MMP association with beta1 or alphavbeta3 integrins at distinct cellular compartments, thus modulating its internalization, activity, and function on human ECs.     

Selective adhesion of osteoblastic cells to different integrin ligands induces osteopontin gene expression.

Skeletal homeostasis is partly regulated by the mechanical environment and specific signals generated by a cell's adhesion to the matrix. Previous studies demonstrated that osteopontin (OPN) expression is stimulated in response to both cellular adhesion and mechanical stimulation. The present studies examine if specific integrin ligands mediate osteoblast selective adhesion and whether opn mRNA expression is induced in response to these same ligands. Embryonic chicken calvaria osteoblastic cells were plated on bacteriological dishes coated with fibronectin (FN), collagen type I (Col1), denatured collagen/gelatin (G), OPN, vitronectin (VN), laminin (LN) or albumin (BSA). Osteoblastic cells were shown to selectively adhere to FN, Col1, G and LN, yet not to VN, OPN or BSA. Opn mRNA expression was induced by adhesion to Col1, FN, LN and G, but neither OPN nor VN induced this expression. Examination of the activation of the protein kinases A and C second signaling systems showed that only adhesion to FN induced protein kinase A and protein kinase C (PKC) activity while adherence to Col1 induced PKC. Evaluation of the intracellular distribution of focal adhesion kinase (FAK) and p-tyrosine within cells after adherence to FN, VN or BSA demonstrated that adherence to FN stimulated FAK translocation from the nucleus to the cytoplasm and high levels of p-tyrosine localization at the cell surface. However, cell adherence to VN or BSA did not show these morphological changes. These data illustrate that osteoblast selective adhesion is mediated by specific integrin ligands, and induction of intracellular second signal kinase activity is related to the nature of the ligand.     

不同生长底物对培养背根神经节细胞的影响（简报）

发育期细胞和细胞外基质(extracellular matrix,ECM)之间的相互作用调节着细胞的功能,包括细胞的迁移、细胞骨架的构建、细胞的增值和分化。神经元“移居”体外后,失去了在体内所依托的组织学关系,必须黏附于一个固相表面才能生存,所以神经元只有在包被基质的培养器皿上才能存活,     

不同生长底物对培养背根神经节细胞的影响(简报)

发育期细胞和细胞外基质(extracellular matrix,ECM)之间的相互作用调节着细胞的功能,包括细胞的迁移、细胞骨架的构建、细胞的增值和分化。神经元“移居”体外后,失去了在体内所依托的组织学关系,必须黏附于一个固相表面才能生存,所以神经元只有在包被基质的培养器皿上才能存活,对于分离的神经元来说,能否尽快粘附到生长基质上是影响神经元体外存活的因素之一。许多研究证明     

Enhanced neurite outgrowth of rat neural cortical cells on surface-modified films of poly(lactic-<Emphasis Type="Italic">co</Emphasis>-glycolic acid)

Neural cortical cells, isolated from prenatal rat cerebra, were grown on surface-modified poly(lactic-co-glycolic acid, 65:35) (PLGA) films coated with poly-D-lysine (PDL) with either laminin (LN), fibronectin (FN) or collagen (CN). Immunocytochemistry showed that the isolated cells were highly immunopositive for both neurofilament and MAP-2 with well-organized neurites and somatodendritic localization. The presence of PDL with LN or FN on the PLGA films was essential for increased neural cell growth. Also, PLGA films coated with either PDL/LN or PDL/FN mixtures had higher neurite outgrowth and regular differentiation.Revisions requested 30 September 2004; Revisions received 10 November 2004     

Adhesion of human monocytic THP-1 cells to endothelial cell adhesion molecules or extracellular matrix proteins via beta1 integrins regulates heparin binding epidermal growth factor-like growth factor (HB-EGF) expression

Adherence to endothelium and then to the extracellular matrix is a prerequisite for extravasation of monocytes into injured tissues. There, monocytes differentiate into macrophages and express heparin binding epidermal growth factor-like growth factor (HB-EGF), a key growth factor involved in normal wound healing. We investigated whether the interaction of human monocytic THP-1 cells with the endothelial cell adhesion molecules (vascular CAM-1, VCAM-1; intercellular adhesion molecule-1 ICAM-1 and endothelial-selectin, E-selectin), or the extracellular matrix (ECM) proteins (fibronectin, FN; laminin, LN and fibrinogen, FG) regulate HB-EGF expression. We have shown that adherence of THP-1 cells via VCAM-1, E-selectin or FN, which are all overexpressed at sites of inflammation, potentiates HB-EGF mRNA expression. In contrast, adhesion of THP-1 cells via ICAM-1 or FG, has no significant effect. Since THP-1 cells interact with ICAM-1 and FG through beta2 integrins, and with VCAM-1 and FN via beta1 integrins, regulation of HB-EGF expression appears to be specific to beta1 integrin ligation. In addition, we demonstrate that THP-1 binding to LN, through the beta1 integrin VLA-6, down regulates HB-EGF expression. Thus physiologically, transient destruction of LN and expression of VCAM-1, E-selectin and fibronectin at sites of inflammation, may locally induce HB-EGF overexpression.     

Fibrinogen induces adhesion, spreading, and microfilament organization of human endothelial cells in vitro

Human umbilical vein endothelial cells (ECs) have been shown to attach to a substratum of fibrinogen (fg). Later, ECs undergo spreading, organization of thick microfilament bundles of the stress fiber type, and formation of focal contacts (adhesion plaques) that correspond to accumulation of vinculin at the cytoplasmic aspect of the ventral membrane. The rate of attachment to fg and the type of spreading is virtually identical to that obtained on substrata coated with fibronectin (FN). Antibodies to fg, but not to FN, prevent EC adhesion to fg; conversely, antibodies to FN, but not to fg, prevent adhesion of ECs to a FN-coated substratum. The removal of residual FN contamination from fg preparations by means of DEAE-cellulose chromatography does not result in any difference in EC adhesion on fg. Moreover, pretreatment of cells with inhibitors of synthesis and release of proteins does not impair their adhesion capacity on an fg-coated substratum. In contrast, human arterial smooth muscle cells do not adhere and spread on fg substrata but do so on FN. The synthetic peptides (Gly-Arg-Gly-Asp[GRGD] and Gly-Arg-Gly-Asp-Ser-Pro[GRGDSP]) containing the tripeptide Arg-Gly-Asp (RGD), originally found to be responsible for the cell binding activity of FN, have been found to inhibit EC spreading and the redistribution of their cytoskeleton, including the formation of stress fibers and the localization of vinculin either on fg or on FN. Conversely, the synthetic peptide Arg-Gly-Gly (RGG) was completely uneffective in inhibiting the adhesion and the sequence of events leading to spreading and cytoskeletal organization. These results indicate that ECs, but not smooth muscle cells, specifically adhere and spread on an fg substratum and this occurs by recognition mechanisms similar to those reported for FN.     

Histidine-rich glycoprotein blocks collagen-binding integrins and adhesion of endothelial cells through low-affinity interaction with α2 integrin

The plasma protein histidine-rich glycoprotein (HRG) affects the morphology and function of both endothelial cells (ECs) and monocytes/macrophages in cancer. Here, we examined the mechanism of action of HRG's effect on ECs. HRG suppressed adhesion, spreading and migration of ECs specifically on collagen I (COL I) whereas ECs seeded on other extracellular matrix proteins were insensitive to HRG. HRG did not bind specifically to COL I or to the α-integrin binding site on collagen, GFOGER. Furthermore, HRG's inhibition of EC adhesion was not dependent upon heparan sulfate (HS) moieties as heparitinase-treated ECs remained sensitive to HRG. C2C12 cells expressing α2 integrin, the major collagen-binding α-integrin subunit in ECs, showed increased binding of HRG compared with wild type C2C12 cells lacking the α2 subunit. Recombinant α2 I-domain protein bound HRG and to a higher extent when in active conformation. However, the α2 I-domain bound weakly to HRG compared with COL I and the purified α2β1 ectodomain complex failed to retain HRG. We conclude that HRG binds to α2 integrin through low-affinity interactions in a HS-independent manner, thereby blocking EC-adhesion to COL I.     

Effects of an extract of human brain containing growth factor activity on the proliferation of human vascular endothelial cells in primary culture

Lesions of vascular human EC play an important role in the development of thrombi and atherosclerosis. The factors which control the repair of vascular lesions are not well known. In addition, they are difficult to study because vascular EC from large vessels are fastidious cells to grow in tissue culture. We have investigated some of the factors that may be important in human umbilical vein EC growth in primary culture. Because of reported species differences in EC culture, we have decided to culture human EC only in the presence of biological culture reagents of human origin. Human umbilical vein EC, at low seed density, can be grown to confluency on a human FN matrix or on human ECM providing the medium is supplemented with a high concentration (30%) of human serum. The optimal proliferation of EC (even when seeded at clonal density) is obtained if HBE is added. HBE cannot completely replace serum, but EC proliferate to a similar extent whether they are grown on FN or on ECM in the presence of 30% human serum of 10% human serum plus HBE. Thus, HBE contains a growth factor activity for human EC which stimulates cell growth and DNA replication. Further work is needed to purify HBE and to compare it to other endothelial cell growth factors isolated from bovine brain and bovine eye.     

Laminin and fibronectin modulate inner ear spiral ganglion neurite outgrowth in an in vitro alternate choice assay

Extracellular matrix (ECM) molecules have been shown to function as cues for neurite guidance in various populations of neurons. Here we show that laminin (LN) and fibronectin (FN) presented in stripe micro-patterns can provide guidance cues to neonatal (P5) inner ear spiral ganglion (SG) neurites. The response to both ECM molecules was dose-dependent. In a LN versus poly-L-lysine (PLL) assay, neurites were more often observed on PLL at low coating concentrations (5 and 10 microg/mL), while they were more often on LN at a high concentration (80 microg/mL). In a FN versus PLL assay, neurites were more often on PLL than on FN stripes at high coating concentrations (40 and 80 microg/mL). In a direct competition between LN and FN, neurites were observed on LN significantly more often than on FN at both 10 and 40 microg/mL. The data suggest a preference by SG neurites for LN at high concentrations, as well as avoidance of both LN at low and FN at high concentrations. The results also support a potential model for neurite guidance in the developing inner ear in vivo. LN, in the SG and osseus spiral lamina may promote SG dendrite growth toward the organ of Corti. Within the organ of Corti, lower concentrations of LN may slow neurite growth, with FN beneath each row of hair cells providing a stop or avoidance signal. This could allow growth cone filopodia increased time to sample their cellular targets, or direct the fibers upward toward the hair cells.     

Disruption of integrin α5β1 signaling does not impair PDGF-BB-mediated stimulation of the extracellular signal-regulated kinase pathway in smooth muscle cells

Smooth muscle cell (SMC) proliferation is dependent on both anchorage to the extracellular matrix by integrins and the presence of growth factors. Integrins and growth factor receptors transduce signals that seem to converge on the extracellular signal-regulated (ERK) pathway, but the molecular basis for this interaction is not known. SMC proliferation has previously been shown to be supported by culture on fibronectin (FN), whereas cells cultured on laminin (LN) are growth inhibited. In the present study, we examined the mitogenic response to platelet-derived growth factor BB (PDGF-BB) in baboon SMCs cultured on FN vs. LN. Induction of DNA synthesis and the activity of ERK and the ERK activating kinase MKK-1 were reduced only slightly after stimulation with PDGF-BB in cells cultured on LN vs. those cultured on FN. We tested the possibility that endogenous FN secretion contributes to the ability of the cells to respond to PDGF stimulation during culture on LN. Inhibition of interactions between FN and integrin α₅β₁ by the competitive GRGDSP-peptide or anti-α₅ integrin antibody restricted cell spreading, reduced cell-surface staining for α₅β₁ and FN fibrils, and inhibited PDGF-BB-induced DNA synthesis. These results showed that SMC growth on LN required a provisional FN matrix. Although disruption of interactions between α₅β₁ and FN by the GRGDSP-peptide prevented PDGF-BB-induced DNA synthesis, neither ERK activity nor translocation of ERKs into the nucleus was inhibited. These results show that integrins regulate SMC growth through pathways that function in parallel with, but distinct from, growth factor-mediated ERK signaling. J. Cell. Physiol. 172:109–116, 1997. © 1997 Wiley-Liss, Inc.     

The role of beta 1 integrin in spreading and myofibrillogenesis in neonatal rat cardiomyocytes in vitro.

The influence of the extracellular matrix (ECM) on cell behavior, myofibrillogenesis and cytoarchitecture was investigated in neonatal rat cardiac myocytes in vitro. Cell behavior was examined by analyzing cell spreading on different ECM components under a variety of experimental conditions. Area measurements were made on digitized images of cells grown for various time intervals on fibronectin (FN), laminin (LN), collagens I and III (C I+III), plastic, and bovine serum albumin (BSA). The amount of spreading was varied on the different matrices and was maximal on FN greater than LN greater than C I+III greater than plastic greater than BSA. Addition of anti-beta 1 integrin antibodies to myocytes cultured on FN, LN and C I+III blocked spreading outward on the substrates and altered normal myofibrillogenesis, especially on LN. Concomitantly, the integrin antibodies induced the formation of giant pseudopodial processes which protruded upward from the substrates. These pseudopods contained actin polygonal networks which exhibited a regular geometrical configuration. Effects of the ECM on cytoarchitecture was examined by analyzing the temporal and spatial patterns of fluorescence and immunogold labeling of cytoskeletal and integrin proteins as myocytes spread in culture. The first indication of sarcomeric patterns was the appearance at 4 hours of striations formed by lateral alignment of alpha-actinin aggregates into Z bands. At later times, vinculin at 8 hours and beta 1 integrin at 22 hours became co-localized with alpha-actinin at the Z bands and focal adhesions. These data indicate that ECM components influence myocyte spreading and that myofibril assembly and/or stability is associated with ECM-integrin-cytoskeleton associations.     

Effects of extracellular matrix components on the growth and differentiation of cultured rat hepatocytes

Summary Some effects of culturing adult rat hepatocytes on each of four different substrates—laminin (LN), collagen type I (C-I), collagen type IV (C-IV), and fibronectin (FN)—have been investigated under defined conditions. No differential effect on the attachment of the cells to the various substrates was noted; however, the spreading of hepatocytes shortly after initial plating was most strikingly enhanced by FN, whereas LN exhibited little or no such enhancement. The two collagen substrates enhanced the spreading of hepatocytes more than did LN, but less than FN. The different substrates had no differential effect on the induction of tyrosine aminotransferase by dexamethasone and glucagon for at least the first 10 d in culture. The longevity of the hepatocytes was not changed significantly by any of the substrates, at least through the 14th d of culture. During the culture periods the hepatocytes at high cell density were maintained as confluent monolayers, regardless of the substrate on which they had been cultured. After 14 d of culture, γ-glutamyltranspeptidase activity was highest in cells cultured on C-IV, and lowest in those on FN. DNA synthesis in cultured hepatocytes at a low cell density was highest in cells cultured on FN, with decreasing levels of this parameter in cells cultured on C-IV, C-I, and LN, respectively. These results demonstrate that specific components of the extracellular matrix modulate both differentiated functions and the replication of hepatocytes cultured in serum-free medium. This work was supported in part by grants (CA-07175, CA-09135, CA-22484) from the National Cancer Institute, Bethesda MD. N. Sawada was supported by a Cancer Research Campaign Grant D (U.K.) from the International Union Against Cancer.     

Effects of matrix proteins on the expression of matrix metalloproteinase-2, -9, and -14 and tissue inhibitors of metalloproteinases in human cytotrophoblast cells during the first trimester.

The activity of matrix metalloproteinases (MMPs) specifies the ability of the trophoblast cell to degrade extracellular matrix (ECM) substrates. Usually the process of normal human placentation involves a coordinated interaction between the fetal-derived trophoblast cells and their microenvironment in the uterus. In this study, the effects of ECM proteins on the expression of MMP-2, -9, and -14 (membrane-type MMP-1); and the production of tissue inhibitors of metalloproteinase (TIMP) types -1, -2, and -3 have been investigated. Cytotrophoblast cells at 9 or 10 wk of gestation were cultured on various ECM coated dishes under serum-free conditions. Gelatin zymography analysis showed that cells grown on fibronectin (FN), laminin (LN), and vitronectin (VN) secreted more MMP-9 (about 1.5- to 3-fold more) than cells cultured on collagen I (Col I), whereas the secretion of MMP-9 by cells cultured on collagen IV (Col IV) was only half that by the cells on Col I. Northern Blot analysis gave the same results as zymography, indicating that expression of the MMP-9 gene in cytotrophoblast cells can be affected by matrix proteins. There was no significant difference in the expression of MMP-2 either at protein or mRNA levels among the cells cultured on the different matrix substrates. The expression of MMP-14 was regulated in a manner similar to that of MMP-2. Using ELISA, we detected higher levels of TIMP-1 in the culture medium of cells grown on VN, LN, and FN compared with that grown on Col I. But the expression of TIMP-3 mRNA was remarkably inhibited by VN, and ECM proteins had no effect on TIMP-1 and TIMP-2 mRNA expression. It was also observed that cultured cytotrophoblast cells expressed the corresponding receptors for the tested matrix proteins, such as integrins alpha(1), alpha(5), alpha(6), beta(1), and beta(4). Furthermore, the adhesiveness of cytotrophoblast cells on Col I, Col IV, FN, and LN was increased by 62%, 45%, 21%, and 22%, respectively, when compared with adhesiveness on VN. Isolated cytotrophoblast cells remained stationary when cultured on dishes coated with Col I and Col IV, but they assumed a more motile morphology and aggregated into a network when cultured on LN and VN. These data indicate that human trophoblast cells interact with their microenvironment to control their behavior and function.     

Influence of ganglion age,nonneuronal cells and substratum on neurite outgrowth in culture

This study characterizes the outgrowth patterns of superior cervical ganglia (SCG) obtained from embryonic (E15), perinatal (E20–21), and adult (P35) rats when placed in culture on various substrata. Outgrowth morphology, degree of fasciculation, and outgrowth length were examined on collagen (COL), polyornithine (PO), polylysine (PL), fibronectin (FN), and nonneuronal cells (NNCs) from the ganglion. COL and FN supported extensive neuritic outgrowth; PO and PL provided poor support. Outgrowth pattern, degree of fasciculation, neurite growth rate, and the number of NNCs in the outgrowth varied considerably depending upon the COL configuration. When undiluted COL (～5 mg/ml) was air dried, a three-dimensional loose fibrillar network was formed. Upon COL dilution or gelling undiluted COL by ammoniation, an essentially two-dimensional layer was formed. On two-dimensional COL, NNCs were able to proliferate and migrate extensively from ganglia of all ages; their presence influenced the form and extent of neurite growth. E15, E20, and P35 neurites responded differently to their endogenous NNCs. E15 neurites extended in relation to NNC surfaces and were predominantly nonfasciculated. E20 neurites became more fasciculated in the presence of NNCs that exhibited morphological and behavioral differences from those migrating from E15 ganglia. E20 neurite bundles became defasciculated when they extended into E15 outgrowth. Far fewer neurites grew from P35 explants in the presence of their NNCs. Three-dimensional COL greatly slowed NNC migration and thus allowed investigation of neurite outgrowth from ganglia of differing age in the absence of NNCs. We conclude that neuritic outgrowth patterns on varying substrata reflect not only neurite differences depending upon ganglion age but also variation in the behavior of accompanying NNCs.     

Growth and morphology of anchorage-dependent animal cells in a liquid/liquid interface system

In general, anchorage-dependent animal cells cultivated on a solid culture substrate, such as polystyrene, are collected by trypsin treatment. This treatment may have detrimental effects such as the proteolysis of the cell membrane proteins. To avoid these effects, cell cultivation using a liquid/liquid interface system has been investigated. In this cultivation method, the cells grow at the interface between a culture medium and a hydrophobic liquid. In this study, various fluorocarbons (FC-40, FC-70, KPF-91, KPF-102, and KPF-142) were used as substrates for the interface, and the cultivation of fibroblast cells (L-929; the mouse-derived cell line) at the interfaces was investigated. Early in the cultivation period, the growth of L-929 cells depended on the substrate type. Although cell cultivation at the interfaces was possible, it was slower than that at the polystyrene surface. Cell spreading at the interfaces was relatively small, which indicates that cell adhesion at the interfaces may be weak. In particular, the cells at the MEM/FC-70 interface anchored with one another and formed multicellular hemispherical aggregations shaped like spheroids. The difference in the adhesions to the interfaces appears to be dependent on the contaminants contained in the fluorocarbons because the physical properties of the fluorocarbon did not affect the cell growth and adhesion. Moreover, subcultivation from the interfaces to the same interface was possible without trypsin treatment. In this case, the delay of the growth at the interfaces did not occur because the cells were not affected by trypsin treatment.     

Substrate-dependent differences in production of extracellular matrix molecules by squamous carcinoma cells and diploid fibroblasts

Two human squamous carcinoma cell lines and human diploid fibroblasts were examined for the production of extracellular matrix (ECM) molecules including fibronectin (FN), laminin (LN), and thrombospondin (TSP) when grown on a number of different substrates. The substrates used included glass, plastic, collagen (gelatin), and DEAE-dextran. Levels of TSP as indicated by enzyme-linked immunosorbent assay did not vary significantly as a function of substrate. In contrast, LN levels in the culture medium were significantly decreased when the cells were grown on DEAE-dextran or collagen-linked dextran as compared to the other substrates. FN levels were slightly lower in the culture medium of the cells grown on DEAE-dextran. Biosynthetic labeling followed by immunoprecipitation indicated that the reduction in LN was due, in part, to decreased biosynthesis. Previous studies have indicated that LN influences the behavior of epithelial cells in culture and that the cells, themselves, are a major source of the LN. The differences in LN production noted here indicate that the production of this ECM component is influenced by the substratum on which the cells are grown. These differences could contribute to alterations in biological properties that are known to be influenced by the substratum.     

肝癌细胞-胞外基质粘附性与粘附识别序列的相关性

以微管吸吮技术研究了人肝癌细胞在ＩＶ型胶原／层粘连蛋白（ＬＮ）／纤维连结蛋白（ＦＮ）裱衬表面的粘附性。进一步,用四种人工合成肽精－甘－天冬－丝（ＲＧＤＳ）、甘－精－甘－天冬－苏－脯ＧＲＧＤＴＰ）、酪－异亮－甘－丝－精（ＹＩＧＳＲ０和半胱－天冬－脯－甘－酪－异亮－甘－丝－精（ＣＤＰＧＹＩＧＳＲ）研究了肝癌细胞粘附性对两种粘附识别序列ＲＧＤ和ＹＩＧＳＲ的依赖性。为了归纳和整理实验结果,根据竞争性抑制的     

Endothelin-1 combined with extracellular matrix proteins promotes the adhesion and chemotaxis of amelanotic melanocytes from human hair follicles in vitro

During the repigmentation of vitiliginous skin, amelanotic melanocytes (AMMCs) migrate from the outer root sheath (ORS) of the hair follicles into depigmented skin. It has been shown that endothelin-1 (ET-1) is an important cytokine in the migration of epidermal melanocytes, produced by keratinocytes particularly after irradiation with ultraviolet B (UVB). To further examine the role of ET-1 on the migration of AMMCs, we investigated the effects of ET-1 to the adhesion and chemotaxis of human AMMCs combined with extracellular matrix proteins (ECMP) and observed the effects on the actin and tubulin cytoskeleton of AMMC by ET-1. Human AMMCs were treated with different concentrations of ET-1 (0.1-100 nM) to observe adhesion on culture dishes coated with fibronectin (FN), laminin (LN) and collagen IV (CIV). In addition, chemotaxis on FN, LN and CIV coated micropore filters, with various concentrations of ET-1 as attractants, was investigated using a Boyden chemotaxis chamber. Cellular microfilaments and microtubules were immunostained with Rhodamine labeled actin and FITC labeled beta-tubulin. The effects of ET-1 on cytoskeleton were observed with laser confocal microscopy. The study demonstrated that ET-1 increases human AMMCs adhesion on FN in a dose-dependent manner, but minor increases are found on the coated surface with LN and CIV. ET-1 also induces chemotaxis of AMMCs on CIV, LN and FN in a dose-dependent manner. The greatest effect was seen with CIV. Minor chemotactic effects were observed with non-coated surfaces. A concentration of >or=10nM ET-1 induced an apparent increase in stress fibers underneath the cell membrane, but no effects were found on tubulin. ET-1 has various effects on the adhesion and chemotaxis of AMMCs on various ECMP, which could be partly due to a modulation and reorganization of the actin cytoskeleton.     

Extracellular matrix components influence the survival of adult cardiac myocytes in vitro

Calcium-tolerant myocytes were isolated from adult rat hearts by collagenase perfusion and plated on various substrates in serum-free medium and their adhesion to various extracellular matrix (ECM) components was determined. The myocytes attached readily to dishes coated with collagen type IV (C-IV), laminin (LN), and to fetal bovine serum (FBS) in a manner dependent on the concentration of the components. Substantially fewer myocytes adhered to dishes coated with fibronectin (FN) or to uncoated plastic dishes. Cells adhered equally well to dishes coated with C-IV, LN and FBS within 1-4 h. However, when examined after 2 weeks in culture it was found that only C-IV and LN could support survival of the attached myocytes, and when cultured on C-IV or LN the myocytes were spread and had formed a dense monolayer. The actin filaments had at this time reorganized linearly along the long axis of the cell and the myocytes contracted spontaneously. Rabbit antibodies were raised against myocyte membranes and their ability to inhibit attachment to ECM components was studied. Purified IgG inhibited attachment to C-IV, while having only a minor effect on attachment to LN. These data are compatible with the presence of a specific cell surface component(s) that interacts with ECM substrates and influences cell shape and possibly thereby influences cellular functions.