Substratum contacts and cytoskeletal reorganization of BALB/c 3T3 cells on a cell-binding fragment and heparin-binding fragments of plasma fibronectin

BALB/c 3T3 cells make both close contacts and tight-focal contacts (with associated microfilament stress fibers) on plasma fibronectin (pFN)-coated substrata. To resolve the importance of the heparan sulfate-binding or cell-binding activities of the pFN molecule in these adhesive responses, a cell-binding fragment (120K) (CBF) free of any heparan sulfate-binding activity was prepared from human pFN by chymotrypic digestion and isolated as described by Pierschbacher et al. (Cell 26 (1981) 259). These adhesive responses to CBF were also compared to those of the model heparan sulfate-binding protein, platelet factor-4 (PF4), or heparin-binding fragments (HBF) of pFN. On intact pFN, greater than 70% of the cells formed tight-focal contacts and associated stress fibers by 4 h, the latter staining with NBD-phallacidin. In contrast, cells spread differently on CBF and failed to form tight-focal contacts; staining with NBD-phallacidin was localized to spiky projections at the cell margin with no detectable stress fiber formation. On PF4 or HBF, cells failed to form tight-focal contacts but did spread well and formed long microfilament bundles in peripheral lamellae. Spreading on CBF, HBF, or PF4 was paralleled by formation of close contacts. Spreading and to some extent attachment of cells on CBF was inhibited with a small peptide containing the Arg-Gly-Asp-Ser sequence; responses on HBF were unaffected by this peptide. When mixtures of CBF and PF4 were tested, cells still failed to form tight-focal contacts and stress fibers. These results demonstrate that the binding of CBF to its probable receptor under conditions routinely used to assay spreading activity results in an incomplete adhesive response compared with intact pFN. While this partial response may result from quantitative differences in the density of active cell-binding domains on the substratum, the pattern of microfilament reorganization produced by the binding of PF4 to cell surface heparan sulfate proteoglycans suggests that the ability of pFN to promote formation of tight-focal contacts and stress fibers may reside in the coordinate interaction of two or more binding activities in the intact molecule.     

Modulation of matrix adhesive responses of human neuroblastoma cells by neighboring sequences in the fibronectins

Attachment and neurite extension have been measured when Platt or La-N1 human neuroblastoma cells respond to tissue culture substrata coated with a panel of complementary fragments from the individual chains of human plasma (pFN) or cellular fibronectins (cFN) purified from thermolysin digests. A 110-kD fragment (f110), which contains the Arg-Gly-Asp-Ser sequence (RGDS)-dependent cell-binding domain but no heparin-binding domains and whose sequences are shared in common by both the alpha- and beta-subunits of pFN, facilitated attachment of cells that approached the level observed with either intact pFN or the heparan sulfate-binding platelet factor-4 (PF4). This attachment on f110 was resistant to RGDS-containing peptide in the medium. Neurite outgrowth was also maximal on f110, and half of these neurites were also resistant to soluble RGDS peptide. Treatment of cells with glycosaminoglycan lyases failed to alter these responses on f110. Therefore, there is a second "cell-binding" domain in the sequences represented by f110 that is not RGDS- or heparan sulfate-dependent and that facilitates stable attachment and some neurite outgrowth; this domain appears to be conformation-dependent. Comparisons were also made between two larger fragments generated from the two subunits of pFN-f145 from the alpha-subunit and f155 from the beta-subunit--both of which contain the RGDS-dependent cell-binding domain and the COOH-terminal heparin-binding domain but which differ in the former's containing some IIICS sequence at its COOH terminus and the latter's having an additional type III homology unit. Heparin-binding fragments (with no RGDS activity) of f29 and f38, derived from f145 or f155 of pFN, respectively, and having the same differences in sequence, were also compared with f44 + 47 having the "extra domain" characteristic of cFN. Attachment on f145 was slightly sensitive to soluble RGDS peptide; attachment on f155 was much more sensitive. There were also differences in the percentage of cells with neurites on f145 vs. f155 but neurites on either fragment were completely sensitive to RGDS peptide. Mixing of f29, f38, or PF4 with f110 could not reconstitute the activities demonstrated in f145 or f155, demonstrating that covalently linked sequences are critical in modulating these responses. However, mixing of f44 + 47 from cFN with f110 from pFN increased the sensitivity to RGDS peptide.(ABSTRACT TRUNCATED AT 400 WORDS)     

Identification of a novel recognition sequence for the integrin alpha 4 beta 1 in the COOH-terminal heparin-binding domain of fibronectin.

The type III connecting segment of fibronectin contains two cell binding sites, represented by the peptides CS1 and CS5, that are recognized by the integrin receptor alpha 4 beta 1. Using assays measuring the spreading of A375-SM human melanoma cells, we now report that the adhesion promoting activity of a 29 kDa protease fragment of fibronectin containing the COOH-terminal heparin-binding domain (HepII), but lacking CS1 and CS5, is completely sensitive to anti-alpha 4 and anti-beta 1 antibodies, suggesting that HepII contains a third alpha 4 beta 1-binding sequence. Examination of the primary structure of HepII revealed a sequence with homology to CS1. A 19mer peptide spanning this region (designated H1) was found to support cell spreading to the same level as the 29 kDa fragment. H1-dependent adhesion was completely sensitive to anti-alpha 4 and anti-beta 1 antibodies. When soluble peptides were tested for their ability to block cell spreading on the 29 kDa fragment, a 13mer peptide comprising the central core of H1 was found to be completely inhibitory. The active region of H1 was localized to the pentapeptide IDAPS, which is homologous to LDVPS from the active site of CS1. Taken together, these results identify a novel peptide sequence in the HepII region of fibronectin that supports alpha 4 beta 1-dependent cell adhesion.     

Domain-specific distribution of carbohydrates in human fibronectins and the transformation-dependent translocation of branched type 2 chain defined by monoclonal antibody C6

Fibronectins purified from human plasma (termed pFN), spent culture media of human fibroblasts WI38 (termed cFN), and SV40 virus-transformed WI38/VA13 cells (termed tFN) and their cleavage fragments were compared with respect to their binding activities to lectins and anti-carbohydrate antibodies reacting with chemically well-defined structures. The following findings were of particular interest. About 25-35% of cFN and tFN carried a binary sialosyl type 2 chain (NeuAc alpha 2----3/or 6Gal beta 1----4GlcNAc) linked beta 1----3/beta 1----6 to the galactose residue and defined by monoclonal antibody C6. This structure was not detected in pFN. In cFN, the C6-defined structure was localized within the gelatin-binding domain, whereas in tFN the same structure was absent from this domain but was located at the NH2-terminal region of the central domain. Other carbohydrate determinants, defined by Ricinus communis lectin and concanavalin A before and after sialidase treatment, showed essentially identical domain distribution patterns among cFN, tFN, and pFN and were all located at the gelatin-binding domain (44 kDa), its precursor (60 kDa), and the Cell/Hep-2 domain (155/145 kDa). Although both cFN and tFN were reactive with lentil lectin, pFN was not. Fibronectin from transformed cells (tFN) showed much greater reactivity than cFN and pFN with wheat germ lectin before sialidase treatment and showed enhanced reactivity with R. communis lectin and peanut lectin after sialidase treatment, indicating that tFN is more highly sialylated than cFN and pFN. All fibronectins examined were strongly reactive with monoclonal antibody AH8-28, which binds to Gal beta 1----3GalNAc residues, and this reactivity was localized to both the NH2-terminal half and COOH-terminal half of the S-cyanylation-cleaved fibronectin molecule.     

Modulation of fibronectin adhesive functions for fibroblasts and neural cells by chemically derivatized substrata

Adhesion responses of fibroblasts (Balb/c 3T3 cells) and human neuron-derived (Platt neuroblastoma) cells have been examined with plasma fibronectin (pFN) adsorbed to glass surfaces derivatized with an alkyl chain and six chemical end groups interfacing with the bound pFN to test regulation of pFN function. Using new derivatization protocols, the following surfaces have been tested in order of increasing polarity: [CH3], [C = C], [Br], [CN], [Diol], [COOH], and underivatized glass [( SiOH]). For all substrata, pFN bound equivalently using either a supersaturating amount of pFN or a subsaturating amount in competition with bovine albumin. Attachment of both cell types was also equivalent on all substrata. However, spreading/differentiation responses varied considerably. F-actin reorganization was tested in 3T3 cells with rhodamine-phalloidin staining. While stress fibers formed effectively on pFN-coated [SiOH] and [Br] substrata, only small linear bundles of F-actin and a few thin stress fibers were observed on the [COOH], [Diol], and [CN] substrata; the hydrophobic substrata [( CH3] and [C = C]) gave an intermediate response. When a synthetic peptide containing the Arg-Gly-Asp-Ser sequence required for integrin binding to FNs was included in the medium as an inhibitor, additional differences were noted: Stress fiber formation was completely inhibited on [SiOH] but not on [Br] and stress fiber formation was very sensitive to inhibition on the hydrophobic substrata while the F-actin patterns on the [CN] and [COOH] substrata were unaffected. Evaluation of neurite outgrowth by neuroblastoma cells on these substrata revealed both qualitative and quantitative differences as follows: [Diol] = [COOH] greater than [SiOH] much greater than [CN] = [Br] greater than [CH3] = [C = C]. While there was poor cytoplasmic spreading and virtually no neurites formed on the hydrophobic surfaces when pFN alone was adsorbed, neurite formation could be "rescued" if a mixture of pFN with an excess of bovine albumin was adsorbed, demonstrating complex conformational interactions between substratum-bound pFN and adhesion-inert neighboring molecules. In summary, these studies demonstrate that different chemical end groups on the substratum modulate pFN functions for cell adhesion, principally by affecting the conformation of these molecules rather than the amounts bound. Furthermore, these studies confirm multiple-receptor interactions with the FN molecules in cell type-specific adhesion patterns.(ABSTRACT TRUNCATED AT 400 WORDS)     

Aging-related changes and topology of adhesion responses sensitive to cycloheximide on collagen substrata by human dermal fibroblasts

Human dermal fibroblasts (both papillary and reticular) were tested during in vivo or in vitro aging for their responses on collagen and/or fibronectin (FN) substrata, as well as on topologically mixed substrata. Cycloheximide treatments were used to evaluate whether receptors to these matrix molecules, mediating F-actin reorganization into stress fibers, are altered during aging processes. Late-passage (but not mid-passage) papillary and reticular cells from both an elderly male and a newborn infant spread effectively on collagen +/- FN but failed to generate stress fibers after lengthy pretreatment of cells with cycloheximide. In contrast, treatment with cycloheximide only when cells were reattaching was not inhibitory. None of the treatments had any effect on stress fiber formation of cells on FN-only substrata, demonstrating that drug sensitivity was specific for collagen responses. The inhibition could be reversed by rinsing cycloheximide out of cultures and could be prevented by prior growth of cells in ascorbate-supplemented medium to stimulate production/maturation of collagen and possibly collagen-specific receptors. Adjacent regions of coverslips were adsorbed with collagen and a proteolytic fragment of plasma FN lacking the collagen-binding domain but retaining other binding domains; cells bridging the interface were of special interest. When fragment F155 containing both the RGDS cell-binding and the heparin II-binding domains was tested in this paradigm, cells generated stress fibers continuous from the collagen-facing side into the F155-facing side of the same cell, consistent with the compatability of both collagen and FN receptors in generating the same stress fiber. However, F110 lacking the heparin II domain was incapable of facilitating stress fiber formation; fibers formed effectively on the collagen side and terminated abruptly at the collagen:F110 interface. These experiments demonstrate stringent regulation of where stress fibers begin, span, and terminate in the cytoplasm by matrix receptors at the cell's undersurface and establish that there are alterations of collagen-specific receptors as a consequence of in vitro aging, but not of in vivo aging, in both papillary and reticular human dermal fibroblasts.     

Identification of a novel heparin-binding site in the alternatively spliced IIICS region of fibronectin: roles of integrins and proteoglycans in cell adhesion to fibronectin splice variants.

The extracellular matrix molecule fibronectin (FN) is a glycoprotein whose major functional property is to support cell adhesion. FN contains at least two distinct cell-binding domains: the central cell-binding domain and the HepII/IIICS region. The HepII region comprises type III repeats 12-14 and contains proteoglycan-binding sites, while the alternatively spliced IIICS segment possesses the major alpha4beta1 integrin-binding sites. Both cell surface proteoglycans and integrins are important for mediating the adhesion of cells to this region of FN. By comparing heparin binding to different recombinant splice variants of the HepII/IIICS region, evidence was obtained for the existence of a novel heparin-binding site in the centre of the IIICS. Site-directed mutagenesis of basic amino acid sequences in this region reduced heparin binding to recombinant HepII/IIICS proteins and, in conjunction with mutations in the HepII region, caused a synergistic loss of activity. Using the H/120 variant of FN, which contains type III repeats 12-15 and the full-length IIICS region, and the H/95 variant of FN, which contains type III repeats 12-15 but lacks the high affinity integrin-binding LDV sequence, the relative roles played by cell-surface proteoglycans and integrins in mediating cell adhesion have been investigated. This was achieved by studying the effects of anti-integrin antibodies and exogenous heparin on A375 melanoma cell attachment to the wild-type and three different mutants of H/120 and H/95 in which the potential proteoglycan-binding sites were partially or completely removed. A375 cell adhesion to H/120 and its mutants was found to involve the co-operative action of both integrin and cell-surface proteoglycan binding, although integrin made a dominant contribution. Anti-integrin antibodies and exogenous heparin were capable of inhibiting melanoma cell adhesion to H/95 and in this case adhesion was due primarily to cell-surface proteoglycan and not integrin binding.     

Binding specificity of a baby hamster kidney lectin for H type I and II chains, polylactosamine glycans, and appropriately glycosylated forms of laminin and fibronectin.

The carbohydrate binding specificity of Mr = 30,000 lectin (CBP30) from baby hamster kidney (BHK) cells has been studied by inhibition of binding of the radiolabeled lectin to asialofetuin-Sepharose using model oligosaccharides and glycopeptides. CBP30 binds type I or II Gal beta(1----3(4))GlcNAc chains but not Gal(beta 1----3)GalNAc. The inhibitory potency of straight chain polylactosamine structures or complex-type branched glycans is increased in proportion to the number of Gal(beta 1----3(4)) units present. Fucosylation or sialylation of terminal galactose residues or further substitution by (alpha 1----3)-linked galactose or N-acetylgalactosamine does not affect binding whereas substitution of the penultimate N-acetylglucosamine residue drastically reduces binding. Thus, blood group A, H type I or H type II structures, shows high affinity whereas Lex, Lea, and Leb structures bind poorly. CBP30 binds to murine Engelbreth-Holm-Swarm (EHS) tumor laminin and human amniotic fluid fibronectin but not human plasma fibronectin. Binding involves polylactosamine glycans as well as tri- and tetraantennary complex-type glycans present in EHS laminin and amniotic fluid fibronectin but absent in plasma fibronectin. Proteolytic fragments of EHS laminin (E1X/Nd, P1, E8, and E3) bind CBP30, but only fragment E8 supports attachment and spreading of BHK cells. BHK cell adhesion to EHS laminin or fragment E8 was not disturbed by CBP30-specific antibodies, but at relatively high concentrations (45 micrograms/ml) CBP30 inhibited spreading and partially attachment of cells on laminin.     

Syndecan-4 binding to the high affinity heparin-binding domain of fibronectin drives focal adhesion formation in fibroblasts

Cell adhesion to extracellular matrix involves signaling mechanisms which control attachment, spreading and the formation of focal adhesions and stress fibers. Fibronectin can provide sufficient signals for all three processes, even when protein synthesis is prevented by cycloheximide. Primary fibroblasts attach and spread following integrin ligation, but do not form focal adhesions unless treated with a heparin-binding fragment of fibronectin (HepII), a peptide from this domain, or phorbol esters to activate protein kinase C. Syndecan-4 heparan sulfate proteoglycan is a transmembrane component present together with integrins in focal adhesions. Syndecan-4 binds and activates protein kinase Calpha, whose activity is needed for focal adhesion formation. We now report that the glycosaminoglycan chains of syndecan-4 bind recombinant HepII and it is incorporated into forming focal adhesions.     

Alpha4beta1 integrin/ligand interaction inhibits alpha5beta1-induced stress fibers and focal adhesions via down-regulation of RhoA and induces melanoma cell migration

We have studied the function of the Hep III fibronectin domain in the cytoskeletal response initiated by alpha5beta1 integrin-mediated adhesion. Melanoma cells formed stress fibers and focal adhesions on the RGD-containing FNIII7-10 fragment. Coimmobilization of FNIII4-5, a fragment spanning Hep III and containing the alpha4beta1 ligand H2 with FNIII7-10, or addition of soluble FNIII4-5 to cells preattached to FNIII7-10, inhibited stress fibers and induced cytoplasmic protrusions. This effect involved alpha4beta1 since: 1) mutations in H2 reverted the inhibition; 2) other alpha4beta1 ligands (CS-1, VCAM-1), an anti-alpha4 mAb, or alpha4 expression in HeLa cells inhibited stress fibers. This activity was apparently cryptic in fibronectin or large fibronectin fragments, but exposed upon proteolytic degradation. Indeed purified peptic fragments containing H2, inhibited stress fibers when mixed with FNIII7-10 or fibronectin. RhoA activation with LPA or transfection with V14RhoA reverted the inhibitory effect and induced stress fibers on FNIII7-10+FNIII4-5. Furthermore, addition of alpha4beta1 ligands to FNIII7-10, down-regulated RhoA and activated p190RhoGAP, which localized to cytoplasmic protrusions. alpha4beta1/ligand interaction induced cell migration, monitored by video microscopy and wound healing assays. These data indicate that alpha4beta1 provides an antagonistic signal to alpha5beta1 by interfering with the RhoA activation pathway and this leads to melanoma cell migration.     

Multiple and alternative adhesive responses on defined substrata of an immortalized dorsal root neuron hybrid cell line

Attachment and neurite extension processes have been evaluated for an immortalized derivative cell of a rat dorsal root neuron after fusion with a mouse neuroblastoma cell (the clonal F11 hybrid cell line) and these processes compared with previous studies of neuroblastoma cells, since both cell types may be derived from the neural crest of the developing embryo. Biochemically defined substrata were provided by human plasma fibronectin (pFN), the heparan sulfate-binding protein platelet factor-4 (PF4), and the ganglioside GM1-binding protein cholera toxin B subunit (CTB). While some attachment of unsupplemented cells was noted on CTB substrata, GM1 supplementation permitted F11 cells to attach as well on CTB as on pFN or PF4. On PF4, very few neurite processes were observed while on pFN two morphologically distinct types of neurites could be identified: short, linear processes in a low percentage of cells resembling those of neuroblastoma cells and long, irregular and narrow processes in a higher percentage of cells resembling those of dorsal root neurons. On CTB, neurites of the latter class were even more prominent; however, cell bodies on CTB failed to spread by cytoplasmic extension as commonly observed in F11 cells on pFN and, to some extent, on PF4. The formation of both neurite classes on either pFN or CTB was completely inhibited by low concentrations of an RGDS (Arg-Gly-Asp-Ser) peptide in the medium of cultures, indicating the significance of pFN's binding to cell surface integrin or ganglioside GM1's possible interaction with integrin for mediating the differentiative process. In contrast, neurite formation of neuroblastoma cells is refractile to the soluble peptide as reported previously. Neurite extensions of F11 cells on either pFN or CTB were comparably sensitive to low concentrations of cytochalasin D, revealing the mediation of microfilament reorganization in these processes. Treatment of F11 cells with cycloheximide failed to inhibit neurite extension on pFN but did partially inhibit extension on CTB; this contrasts with the very high sensitivity of neurite formation by neuroblastoma cells on CTB substrata reported previously.(ABSTRACT TRUNCATED AT 400 WORDS)     

Distinct biological consequences of integrin alpha v beta 3-mediated melanoma cell adhesion to fibrinogen and its plasmic fragments.

Fibrinogen/fibrin and its proteolytic fragments serve as potential adhesive substrates during thrombosis, wound healing, and cancer. In this report we examined the biological response of human melanoma cells exposed to fibrinogen and its naturally occurring plasmic breakdown products that are known constituents of the tumor stroma. Plasmin treatment of fibrinogen first results in fragment X, which is characterized by removal of the COOH-terminal portion of the alpha chain including an RGD sequence (A alpha 572-575). Further digestion leads to fragment D comprising primarily an intact COOH-terminal stretch of the gamma chain containing the platelet adhesion sequence HHLGGAKQAGDV. In a sensitive adhesion assay M21 human melanoma cells utilized integrin alpha v beta 3 to attach to all three of these ligands. However, only intact fibrinogen promoted significant cell spreading, while fragment X produced minimal spreading and fragment D promoted only adhesion. These results indicate that fibrinogen contains at least two alpha v beta 3-dependent adhesive sites and these promote distinct biological responses of human melanoma cells. The differential functional properties of these ligands directly correlate to their relative binding affinity for purified alpha v beta 3 as measured in a solid-phase receptor binding assay. These results provide evidence that a single integrin can promote distinct biological signals depending on the molecular nature of the ligand binding event.     

Deficiency in integrin-mediated transmembrane signaling and microfilament stress fiber formation by aging dermal fibroblasts from normal and down''s syndrome patients

Previous evidence has shown a deficiency in microfilament stress fiber formation upon short-term cycloheximide treatment of cultured human dermal fibroblasts while cytoplasmic spreading appeared completely normal and other cytoskeletal networks organized normally. This deficiency applied to collagen substrata (not fibronectin substrata) and was specific for in vitro-aged normal fibroblasts and for fibroblasts from three different Down's syndrome patients at any passage level. To identify the mechanism(s) for matrix receptor deficiency in aging cells, cells were evaluated for amounts and distributions of several integrin subunits using specific monoclonal antibodies and two complementary experimental approaches. Flow cytometric analyses have shown that all these cells at all passage levels have large amounts of alpha 3 and beta 1 integrin subunits and smaller amounts of the alpha 5 subunit, directed to fibronectin, which are minimally affected in their cell surface availability by cycloheximide treatment. In contrast, cycloheximide treatment leads to the loss from surface availability of most of the alpha 2 subunit, directed to collagen, in late-passage papillary and reticular normal fibroblasts and in all three Down's patient cells at all passages. Prior growth of cells in ascorbate-supplemented medium, which overcomes the deficiency in stress fiber formation, conserves the large amounts of cell surface-available alpha 2 subunit detectable by flow cytometry. When amounts of integrin subunits were evaluated by immunoprecipitation of [35S]methionine-radiolabeled cells, there was no diminution of the alpha 2 subunit or any other subunit for any cells upon cycloheximide treatment; however, there was much less alpha 2 subunit complexed with beta 1 in aging normal and Down's cells. Therefore, cycloheximide treatment does not lead to loss in the amounts of the alpha 2 subunit but rather to its masking at the cell surface and inability to transmit signals across the plasma membrane to effect stress fiber formation. This aging-related deficiency in integrin-mediated signaling can now be studied mechanistically with a variety of approaches to determine the nature of cell-surface molecules interacting with integrins (cis- and/or trans-acting molecules) that discriminate functional from nonfunctional receptors.     

Disruption of the actin cytoskeleton after microinjection of proteolytic fragments of alpha-actinin

Alpha-actinin can be proteolytically cleaved into major fragments of 27 and 53 kD using the enzyme thermolysin. The 27-kD fragment contains an actin-binding site and we have recently shown that the 53-kD fragment binds to the cytoplasmic domain of beta 1 integrin in vitro (Otey, C. A., F. M. Pavalko, and K. Burridge. 1990. J. Cell Biol. 111:721-729). We have explored the behavior of the isolated 27- and 53-kD fragments of alpha-actinin after their microinjection into living cells. Consistent with its containing a binding site for actin, the 27-kD fragment was detected along stress fibers within 10-20 min after injection into rat embryo fibroblasts (REF-52). The 53-kD fragment of alpha-actinin, however, concentrated in focal adhesions of REF-52 cells 10-20 min after injection. The association of this fragment with focal adhesions in vivo is consistent with its interaction in vitro with the cytoplasmic domain of the beta 1 subunit of integrin, which was also localized at these sites. When cells were injected with greater than 5 microM final concentration of either alpha-actinin fragment and cultured for 30-60 min, most stress fibers were disassembled. At this time, however, many of the focal adhesions, particularly those around the cell periphery, remained after most stress fibers had gone. By 2 h after injection only a few small focal adhesions persisted, yet the cells remained spread. Identical results were obtained with other cell types including primary chick fibroblasts, BSC-1, MDCK, and gerbil fibroma cells. Stress fibers and focal adhesions reformed if cells were allowed to recover for 18 h after injection. These data suggest that introduction of the monomeric 27-kD fragment of alpha-actinin into cells may disrupt the actin cytoskeleton by interfering with the function of endogenous, intact alpha-actinin molecules along stress fibers. The 53-kD fragment may interfere with endogenous alpha-actinin function at focal adhesions or by displacing some other component that binds to the rod domain of alpha-actinin and that is needed to maintain stress fiber organization.     

Differences in laminin fragment interactions of normal and transformed endothelial cells

Bovine aortic and microvascular endothelial cells showed good adhesion with spreading on fibronectin or collagen IV and to a lower extent on laminin. Recognition of native laminin was due to its long arm fragment E8 and was mediated by alpha 6 integrins as demonstrated by antibody inhibition. A considerably stronger, RGD-dependent interaction was observed with the isolated laminin short arm fragment P1 previously shown to represent a cryptic cell-binding site. No adhesion was observed with the heparin-binding fragment E3. In contrast, murine microvascular endothelial cells transformed by the polyoma middle T oncogene showed preferential adherence and spreading on laminin via its E8 cell-binding site and also showed adhesion to fragment E3. Attachment to laminin fragment P1 and to collagen IV was low or negative and was never followed by spreading. These data show that the transformation of microvascular endothelial cells, which give them the property to form hemangiomas, also leads to changes in cell adhesion to extracellular matrix proteins, particularly to laminin fragments.     

Complementary adhesive responses of human skin fibroblasts to the cell-binding domain of fibronectin and the heparan sulfate-binding protein, platelet factor-4

Plasma fibronectin (pFN) contains binding domains for an unidentified receptor on the surface of fibroblasts and for heparan sulfate chains of proteoglycans on these same cells. A series of experiments were designed to assess the relative importance of these activities in mediating substratum adhesion of human skin fibroblasts (strain 4449) grown in the absence of ascorbate (asc-) or in its presence (asc+) to minimize or maximize collagen production-maturation, respectively. The cell-binding fragment (CBF) of pFN was purified from chymotryptic digests free of any heparan sulfate-binding activity. The responses of cells to CBF were then compared with those mediated by the heparan sulfate-binding protein, platelet factor-4 (PF4). At early time points when cells had spread effectively on pFN, both asc- or asc+ cells extended spiky projections on PF4 and long projections on CBF with actively ruffling membranes at their tips. By 4 h, asc+ cells had spread much more effectively on CBF than asc+ cells on PF4 or asc- cells on either binding activity. Mixtures (w/w) of CBF:PF4 between 1:1 and 9:1 generated a more physiologically normal response than to either of the binding proteins alone, particularly for asc+ cells. Examination of cytoskeletal reorganization by fluorescence analysis with an antibody to 7S tubulin (for microtubules) and NBD-phallacidin (for F-actin) revealed condensations of microfilaments at the ruffling edges of asc- cells on CBF or on PF4 and for asc+ cells on PF4; in contrast, asc+ cells on CBF generated long bundles of microfilaments in their spreading lamellae within 4 h. Microtubule networks reorganized very well on CBF but only partially on PF4 with either cell type. Microfilament reorganization was comparable to that on intact pFN with CBF:PF4 mixtures of 1:1 and 9:1 for asc+ cells, whereas asc- cells generated condensations of microfilaments but little bundling. These studies reveal that the adhesive responses to mixtures of these two binding activities are significantly greater than to the individual activities and that the responses of asc+ cells approach the properties of cells on intact pFN, whereas asc- cells remain incapable of forming stress fiber-like bundles of microfilaments under all conditions.     

Spreading of B16 F1 cells on laminin and its proteolytic fragments P1 and E8: involvement of laminin carbohydrate chains

The properties of EHS laminin and its proteolytic fragments E8 and P1 to promote spreading of B16 F1 murine melanoma cells were studied in short-term adhesion assays. The cells exhibited similar attachment rates but distinct spread morphologies on laminin, P1, and E8 fragments. The extent of spreading and the shape of the cells were quantitatively defined by two geometrical parameters: the surface and the form factor. These parameters were computed with an automatic image analyzer. Wheat germ agglutinin (WGA), applied to laminin-coated substrates, totally blocked cell spreading, but did not modify attachment percentages. Under similar conditions, WGA partially inhibited cell spreading on the E8 fragment and had no effect on the P1 fragment. In Western blot analysis, P1 fragment, contrary to laminin and E8, did not bind WGA. Laminin galactosylation and cell treatment with alpha-lactalbumin, which should prevent cell galactosyltransferase (GalTase) from binding to N-acetylglucosamine (GlcNAc) residues of the substrate, had no effect on the spreading ability of B16 F1 cells. The role of laminin N-linked carbohydrate chains in the induction of B16 F1 cell spreading was studied further after endoglycosidase F (Endo F) treatment of the substrates. The loss of carbohydrate chains was estimated by the reduction of iodinated lectin binding and by SDS-PAGE. Endo F treatment of laminin (85% of WGA binding inhibition) and E8 (40-50%) had no effect on cell spreading. In contrast, Endo F treatment of P1 fragment (85% of Con A binding inhibition) reduced both cell surface and form factor of B16 F1 cells. These results suggest that: (i) other spreading systems may act in concert with or in place of GalTase/GlcNAc interactions, (ii) the N-linked sugar chains of P1, which are not recognized by WGA, are involved in the spreading process of B16 F1 cells on this fragment, (iii) the epitopes of E8 fragment and E8 domain in laminin which are responsible for spreading are differently masked by WGA, (iv) the binding of WGA to laminin may impair cell spreading by steric hindrance.     

Effects of plant lectins on the adhesive properties of baby hamster kidney cells

We studied the effects of different lectins on the adhesive properties of baby hamster kidney (BHK) cells. The purpose of these studies was to learn more about the cell surface receptors involved in cell adhesion. Three adhesive phenomena were analyzed: 1) the adhesion of BHK cells to lectin-coated substrata; 2) the effects of lectins on the adhesion of cells to substrata coated by plasma fibronectin (pFN); and 3) the effects of lectins on the binding of pFN-coated beads to cells. Initial experiments with fluorescein-conjugated lectins indicated that concanavalin A (Con A), ricinus communis agglutinin I (RCA I), and wheat germ agglutinin (WGA) bound to BHK cells but peanut agglutinin (PNA), soybean agglutinin (SBA), and ulex europaeus agglutinin I (UEA I) dod not bind. All three of the lectins which bound to the cells promoted cell spreading on lectin substrata, and the morphology of the spread cells was similar to that observed with cells spread on pFN substrata. Protease treatment of the cells, however, was found to inhibit cell spreading on pFN substrata or WGA substrata more than on Con A substrata or RCA I substrata. In the experiment of cells with Con A or WGA inhibited cell spreading on pFN substrata, but RCA I treatment had no effect. Finally, treatment of cells with WGA inhibited binding to cells of pFN beads, but neither Con A nor RCA I affected this interaction. These results indicate that the lectins modify cellular adhesion in different ways, probably by interacting with different surface receptors. The possibility that the pFN receptor is a WGA receptor is discussed.     

Differences in domain structure between human fibronectins isolated from plasma and from culture supernatants of normal and transformed fibroblasts. Studies with domain-specific antibodies

The domain structure of human fibronectins isolated from plasma and from the conditioned medium of normal and transformed fibroblasts was analyzed by limited proteolysis and S-cyanylation followed by immunostaining of released fragments with five kinds of antibodies, each specific for one functional domain. The results indicate that all three human fibronectins are composed of the same set of functional domains aligned in the same topological order. However, the following clear differences were found in specific fragments released from plasma fibronectin (pFN) and those released from fibronectin of normal (N-cFN) and transformed fibroblasts (T-cFN). Two fragments (Mr = 70,000 and 60,000) were released from the COOH-terminal region of pFN by cathepsin D. These fragments represent the COOH-terminal heparin-binding (Hep-2) and fibrin-binding (Fib-2) domains. The corresponding fragments released from both N-cFN and T-cFN by cathepsin D had much larger molecular weights (Mr = 100,000 and 83,000-74,000) than those from pFN. The fragments from the Fib-2 domain alone, however, did not show any difference among all three FNs. The internal region, from the gelatin-binding (Gel) domain through the Hep-2 domain, of N-cFN and T-cFN was released as a Mr = 210,000 fragment upon mild trypsin digestion. The corresponding fragment from pFN was released as a Mr = 185,000 fragment. The COOH-terminal half, including the Hep-2 domain, of both N-cFN and T-cFN was released by S-cyanylation as Mr = 160,000-145,000 fragments, which are 25,000-20,000 larger than the corresponding fragments of pFN. These results clearly indicate that the Hep-2 domain of N-cFN and T-cFN is 30,000-20,000 daltons larger than the same domain of pFN. Although various fragments released from N-cFN and T-cFN showed a similar pattern, there were minor differences. Thermolysin fragments derived from the Hep-2 domain of N-cFN were clearly distinguishable from those from T-cFN. Three groups of fragments with Mr = 40,000, 35,000-32,000, and 30,000 were released from N-cFN, while only the 35,000-32,000 fragment was released from T-cFN. The Mr = 44,000/60,000 thermolysin fragments representing the Gel domain and the Mr = 210,000/165,000 tryptic fragments representing the internal domains of T-cFN were slightly, but consistently, larger than those of N-cFN.(ABSTRACT TRUNCATED AT 400 WORDS)