The CK2 phosphorylation of vitronectin. Promotion of cell adhesion via the alpha(v)beta 3-phosphatidylinositol 3-kinase pathway

Phosphorylation of vitronectin (Vn) by casein kinase II was previously shown to occur at Thr50 and Thr57 and to augment a major physiological function of vitronectin-cell adhesion and spreading. Here we show that this phosphorylation increases cell adhesion via the alpha(v)beta3 (not via the alpha(v)beta5 integrin), suggesting that alpha(v)beta3 differs from alpha(v)beta5 in its biorecognition profile. Although both the phospho (CK2-PVn) and non-phospho (Vn) analogs of vitronectin (simulated by mutants Vn(T50E,T57E), and Vn(T50A,T57A), respectively) trigger the alpha(v)beta3 as well as the alpha(v)beta5 integrins, and equally activate the ERK pathway, these two forms are different in their activation of the focal adhesion kinase/phosphatidylinositol 3-kinase (PI3K)/protein kinase B (PKB) pathway. Specifically, we show (i) that, upon exposure of cells to Vn/CK2-PVn, their PKB activation depends on the availability of the alpha(v)beta3 integrin on their surface; (ii) that upon adhesion of the beta3-transfected cells onto the CK2-PVn, the extent of PKB activation coincides with the enhanced adhesion of these cells, and (iii) that both the PKB activation and the elevation in the adhesion of these cells is PI3K-dependent. The occurrence of a cell surface receptor that specifically distinguishes between a phosphorylated and a non-phosphorylated analog of Vn, together with the fact that it preferentially activates a distinct intra-cellular signaling pathway, suggest that extra-cellular CK2 phosphorylation may play an important role in the regulation of cell adhesion and migration.     

Urokinase-dependent human vascular smooth muscle cell adhesion requires selective vitronectin phosphorylation by ectoprotein kinase CK2.

Urokinase (uPA)- and urokinase receptor (uPAR)-dependent cell adhesion to the extracellular matrix protein vitronectin (Vn) is an important event in wound healing, tissue remodeling, immune response, and cancer. We recently demonstrated that in human vascular smooth muscle cells (VSMC) uPA/uPAR are functionally associated with the ectoprotein kinase casein kinase-2 (CK2). We now asked whether CK2 regulates uPA-dependent cell adhesion to Vn, since the latter is a natural CK2 substrate. We found that Vn is indeed selectively phosphorylated by CK2 and that this phosphorylation is uPA-regulated in VSMC. Vn induces release of ecto-CK2 from the cell surface via a process termed as "shedding." CK2-mediated Vn phosphorylation was decisive for the uPA-dependent VSMC adhesion. Specific inhibition of CK2 completely abolished the uPA-induced cell adhesion to Vn. This effect was specific for cell adhesion to Vn and required participation of both uPAR and alpha(v)beta(3) integrins as adhesion receptors. CK2 localization at the cell surface was highly dynamic; Vn induced formation of clusters where CK2 colocalized with uPAR and alpha(v)beta(3) integrins. These results indicate that the uPA-dependent VSMC adhesion is a function of selective Vn phosphorylation by the ectoprotein kinase CK2 and suggest a regulatory role for Vn phosphorylation in the uPA-directed adhesive process.     

Sequences within domain II of the urokinase receptor critical for differential ligand recognition

The receptor for urokinase-type plasminogen activator (uPAR) plays important roles in a number of physiological and pathological processes by virtue of its interactions with urokinase-type plasminogen activator (uPA), vitronectin (Vn), and several other proteins. The uPA binding site spans all three domains (D1 to D3) of uPAR. However, the nature of the Vn binding site within uPAR is still not clear. In this study, we conducted homolog-scanning mutagenesis on uPAR by switching 14 individual segments of 4-8 residues to their counterpart sequences of a uPAR homolog CD59. All 14 mutants were well expressed, reacted with a panel of monoclonal antibodies, and exhibited correct molecular weights. Of these 14 mutants, six mutants were defective in both uPA and Vn binding. Most importantly, we found two unique mutants uPAR(Asn172-Lys175) and uPAR(Glu183-Asn186) within the D2 domain, which displayed differential ligand binding activity: both had high affinity uPA binding, but completely lost Vn binding, indicating that these two sequences constitute a novel Vn binding site. Indeed, two peptides, P1 (153CPGSNGFHNNDTFHFLKC) and P2 (171CNTTKCNEGPILELENLPQ), derived from the sequences of the identified uPA and Vn binding pockets within D2, respectively, behaved like bona fide ligand binding sites: peptide P1 bound uPA but not Vn, whereas peptide P2 bound Vn and inhibited uPAR-mediated cell adhesion, but did not interact with uPA. Altogether, our data demonstrated that uPAR D2 contains two distinct ligand binding sites for uPA and Vn. Such information will help us better understand the complex roles of uPAR in cell adhesion, migration, and tumor metastasis.     

Interaction of plasminogen activator inhibitor type-1 (PAI-1) with vitronectin (Vn): mapping the binding sites on PAI-1 and Vn

The serpin plasminogen activator inhibitor type-1 (PAI-1), as the primary physiological inhibitor of both urokinase-type (uPA) and tissue-type (tPA) plasminogen activator, plays an important role in the regulation of the fibrinolytic system as well as in extracellular remodeling in both physiological and pathophysiological processes. In plasma as well as in the extracellular matrix PAI-1 binds to vitronectin (Vn), an interaction that affects the function of both proteins. As PAl-1/Vn interaction has a significant regulatory function in fibrinolysis, thrombolysis, and cell adhesion in cancer spread, there is a strong interest in defining the binding sites on PAI-1 and Vn as the basis of a rational design of novel drugs that may modulate PAI-1/Vn-mediated effects. In this minireview, we give an overview on the approaches to define the Vn binding site of PAI-1 and vice versa. Although in the case of PAI-1 the region around alpha-helix E and alpha-helix F of PAI-1 has been demonstrated to be important for its interaction with Vn, the precise location of the Vn-binding region has not completely been resolved. The major high-affinity PAI-1 binding region of Vn is localized within the N-terminal somatomedin B (SMB) domain of Vn. There are indications for at least one other low-affinity PAI-1 binding site in the C-terminal region of Vn, which seems to be involved in the formation of larger PAI-1/Vn complexes.     

Role of vitronectin-like protein in Agrobacterium attachment and transformation of Arabidopsis cells

The role of plant vitronectin-like protein (Vn) in Agrobacterium-host plant interactions and receptor-specific bacterial attachment is unclear and still open to debate. Using a well-established Agrobacterium-mediated Arabidopsis transformation system, the marker gene beta-glucuronidase (GUS) of Escherichia coli, and biochemical and cytological methods, such as ELISA tests, immunoblots, immunolocalization, and functional in vitro binding assays, we have reassessed the role of Vn in receptor-specific bacterial attachment and transformation. We provide evidence that Vn is present in the host plant cells and anti-human vitronectin antibody cross-reacts with a 65-kDa protein from Arabidopsis cells. The specificity of the immunological cross-reactivity of anti-vitronectin antibodies was further demonstrated by ELISA competition experiments. Immunogold labeling showed that Vn is localized in the plant cell wall, and its level increased considerably after phytohormone treatment of the petiole explants. However, Agrobacterium attachment was unaffected, and no inhibition of petiole cell transformation was detected in the presence of human vitronectin and anti-vitronectin antibodies in the media. Additionally, no correlation between the occurrence of Vn, attachment of bacteria to the cells, and susceptibility to Agrobacterium-mediated transformation was observed. Taken together, our data do not support a functional role of plant Vn as the receptor for site-specific Agrobacterium attachment leading to the transformation of Arabidopsis cells.     

Vitronectin is an intrinsic protein of human spermatozoa released during the acrosome reaction

Evidence has been presented that oolemmal integrins and their ligands on spermatozoa may play a role in gamete interactions leading to fertilization. We previously demonstrated that vitronectin (Vn) could be extracted from fresh human spermatozoa and detected in Western blots, and Vn was observed on the surface of living, capacitated sperm by indirect immunofluorescence. In the present experiments, messenger RNA encoding Vn was detected in human testis poly (A+) RNA using Northern analysis, and Vn was localized within the acrosomal region of ejaculated sperm by immunoperoxidase and immunofluorescence staining. During the acrosome reaction, induced in capacitated spermatoza by lonomycin, Vn was released into the medium in a calcium-dependent manner. Vn appears to be a specific product of intratesticular spermatozoa that is secreted during the acrosome reaction. These findings suggest that Vn is positioned to play a strategic role in gamete interactions leading to fertilization. © Wiley-Liss, Inc.     

Insulin-like growth factor-I signaling in smooth muscle cells is regulated by ligand binding to the 177CYDMKTTC184 sequence of the beta3-subunit of alphaVbeta3

The response of smooth muscle cells to IGF-I requires ligand occupancy of the alphaVbeta3 integrin. We have shown that vitronectin (Vn) is required for IGF-I-stimulated migration or proliferation, whereas the anti-alphaVbeta3 monoclonal antibody, LM609, which inhibits ligand binding, blocks responsiveness of these cells to IGF-I. The amino acids 177-184 ((177)CYDMKTTC(184)) within the extracellular domain of beta3 have been proposed to confer the ligand specificity of alphaVbeta3; therefore, we hypothesized that ligand binding to the 177-184 cysteine loop of beta3 may be an important regulator of the cross talk between alphaVbeta3 and IGF-I in SMCs. Here we demonstrate that blocking ligand binding to a specific amino acid sequence within the beta3 subunit of alphaVbeta3 (i.e. amino acids 177-184) blocked Vn binding to the beta3 subunit of alphaVbeta3 and correspondingly beta3 phosphorylation was decreased. In the presence of this antibody, IGF-I-stimulated Shc phosphorylation and ERK 1/2 activation were impaired, and this was associated with an inhibition in the ability of IGF-I to stimulate an increase in migration or proliferation. Furthermore, in cells expressing a mutated form of beta3 in which three critical residues within the 177-184 sequence were altered beta3 phosphorylation was decreased. This was associated with a loss of IGF-I-stimulated Shc phosphorylation and impaired smooth muscle cell proliferation in response to IGF-I. In conclusion, we have demonstrated that the 177-184 sequence of beta3 is necessary for Vn binding to alphaVbeta3 and that ligand occupancy of this site is necessary for an optimal response of smooth muscle cells to IGF-I.     

Role of alphavbeta5 integrins and vitronectin in Pseudomonas aeruginosa PAK interaction with A549 respiratory cells

Bacterial adherence to mammalian cells and their internalization are thought to participate in Pseudomonas aeruginosa pathogenicity. In this study, we explored the role of alpha5beta1 and alphavbeta5 integrins and their natural ligands, fibronectin (Fn) and vitronectin (Vn), in P. aeruginosa interaction with epithelial cells by using the PAK reference bacterial strain, A549 respiratory, and SKOV-3 human ovarian cell lines. The host cell cytoskeleton and cellular tyrosine kinases seem to be solicited during the PAK-respiratory cell interaction: cytochalasin D and genistein decreased the bacterial adherence and internalization. Blocking antibodies to alphavbeta5 integrins were the only antibodies tested to have inhibitory activity against PAK adherence to A549 cells. PAK internalization by A549 and SKOV-3 cells was markedly decreased in the presence of blocking antibodies to Vn and alphavbeta5 integrins. Addition of Vn in excess restored PAK invasion of both A549 and SKOV-3 cells in the presence of anti-Vn antibodies. Immunofluorescence experiments revealed that, in the presence of bacteria, the Vn fibrillar network disappeared, and alphavbeta5 staining was concentrated in sites where adherent bacteria were present. Taken together, these findings suggest that alphavbeta5 integrins, and their natural ligand Vn, are involved in PAK entry into human epithelial cells.     

Differential V region mutation of two transfected Ig genes and their interaction in cultured B cell lines.

We have established B cell culture systems in which transfected and stably integrated Ig constructs spontaneously undergo high rates of variable (V) region mutation. Mutation rates were determined using reversion analysis of an Ig V region nonsense codon (Vn). A construct (Vn/gamma2a) in which a Vn was associated with the gamma2a constant region and its intervening and immediate flanking sequences mutated at a high rate of 2.2 x 10(-4)/bp/generation in the NSO myeloma cell line. This same Vn, when associated with the mu constant region (Vn/mu), mutated at a 1000-fold lower rate in NSO. The Vn/gamma2a construct also mutated at high rates in the 18.81 pre-B and the S107 myeloma cell lines and at a low rate in the J558 myeloma cell line. In NSO, the presence of the gamma2a construct raised the mutation rate of the mu construct and the mu decreased the mutation rate of gamma2a. These results suggest that there is both positive and negative regulation of V region mutation and that different cell lines express different combinations and/or amounts of trans-acting factors that are involved in the mutational process.     

The vitronectin receptor and its associated CD47 molecule mediates proinflammatory cytokine synthesis in human monocytes by interaction with soluble CD23

The vitronectin receptor, alphavbeta3 integrin, plays an important role in tumor cell invasion, angiogenesis, and phagocytosis of apoptotic cells. CD47, a member of the multispan transmembrane receptor family, physically and functionally associates with vitronectin receptor (VnR). Although vitronectin (Vn) is not a ligand of CD47, anti-CD47 and beta3 mAbs suppress Vn, but not fibronectin (Fn) binding and function. Here, we show that anti-CD47, anti-beta3 mAb and Vn, but not Fn, inhibit sCD23-mediated proinflammatory function (TNF-alpha, IL-12, and IFN-gamma release). Surprisingly, anti-CD47 and beta3 mAbs do not block sCD23 binding to alphav+beta3+ T cell lines, whereas Vn and an alphav mAb (clone AMF7) do inhibit sCD23 binding, suggesting the VnR complex may be a functional receptor for sCD23. sCD23 directly binds alphav+beta3+/CD47(-) cell lines, but coexpression of CD47 increases binding. Moreover, sCD23 binds purified alphav protein and a single human alphav chain CHO transfectant. We conclude that the VnR and its associated CD47 molecule may function as a novel receptor for sCD23 to mediate its proinflammatory activity and, as such, may be involved in the inflammatory process of the immune response.     

Ligation of Cell Surface Heparan Sulfate Proteoglycans by Antibody-Coated Beads Stimulates Phagocytic Uptake into Epithelial Cells: A Model for Cellular Invasion byNeisseria gonorrhoeae

Binding of a particular opacity outer membrane protein (Opa) ofNeisseria gonorrhoeaeto cell surface heparan sulfate proteoglycans (HSPGs) of epithelial cells results in tight bacterial adherence; however, the role of this ligand–receptor interaction in triggering the subsequent bacterial internalization step is uncertain. Here we have used latex beads coated with HSPG-ligating antibodies as anin vitromodel to study the role of HSPGs in gonococcal uptake into epithelial cells. Beads and gonococci showed the same cell line-specified adherence patterns and increase in phagocytic uptake mediated by serum or purified vitronectin (Vn). Heparitinase digestion as well as antibody competition experiments indicate that a critical level of HSPG ligation is necessary and sufficient to trigger phagocytic uptake into epithelial cells. Vn was found to specifically enhance HSPG-dependent phagocytic uptake while phagocytosis resulting from the ligation of other cell surface receptors was unaffected in the presence of Vn. Pharmacologicial studies with PKC inhibitors suggest a role for PKC in phagocytic uptake of HSPG-ligating beads. The use of drugs impairing cytoskeletal functions indicates that HSPG-dependent phagocytosis requires actin polymerization by a process distinct from receptor-mediated endocytosis.     

Mesothelial vitronectin stimulates migration of ovarian cancer cells

Ovarian carcinomas, the most fatal gynaecological malignancies, are associated with poor prognosis predominantly because of a high recurrence rate. Ovarian cancer cells spread widely throughout the abdominal cavity leading to peritoneal metastasis. The influence of the mesothelial microenvironment on the biological mechanisms leading to cancer cell colonization of the mesothelium is poorly understood. This study aims to investigate whether mesothelial secretions affect the migration of ovarian cancer cells and focuses on the role of the adhesive molecule Vn (vitronectin) and its integrin receptors. An in vitro co‐culture model indicated that clusters of IGROV1 and SKOV3 cells adhere to MeT‐5A mesothelial cells preferentially at intercellular sites, invade the mesothelial monolayer and alter the integrity of the mesothelium. In addition, mesothelial CM (cell‐conditioned medium) induces migration of IGROV1 and SKOV3 cells in Boyden chambers and wound healing assays. Furthermore, blocking molecules directed against vitronectin or its αv integrin receptor decrease mesothelial‐CM‐induced migration by approximately 40% and 60–70% for IGROV1 and SKOV3 ovarian cancer cells, respectively, in Boyden chamber assays. Wound healing assays that allow cell migration to be measured over 24 h periods demonstrated that blocking molecules prevent the migration of IGROV1 and SKOV3 cells. Vitronectin is present in CM MeT‐5A (mesothelial conditioned medium) and in metastatic peritoneal tissue sections. The expression of vitronectin at the periphery of mesothelial cells and within ovarian cancer cell clusters suggests a potential role for this molecule during intraperitoneal implantation of ovarian cancer cells. Vitronectin could represent a target for the development of anti‐adhesive strategies to impede ovarian cancer dissemination.     

Urokinase receptors promote beta1 integrin function through interactions with integrin alpha3beta1

The urokinase receptor (uPAR) is linked to cellular migration through its capacity to promote pericellular proteolysis, regulate integrin function, and mediate cell signaling in response to urokinase (uPA) binding. The mechanisms for these activities remain incompletely defined, although uPAR was recently identified as a cis-acting ligand for the beta2 integrin CD11b/CD18 (Mac-1). Here we show that a major beta1 integrin partner for uPAR/uPA signaling is alpha3. In uPAR-transfected 293 cells uPAR complexed (>90%) with alpha3beta1 and antibodies to alpha3 blocked uPAR-dependent vitronectin (Vn) adhesion. Soluble uPAR bound to recombinant alpha3beta1 in a uPA-dependent manner (K(d) < 20 nM) and binding was blocked by a 17-mer alpha3beta1 integrin peptide (alpha325) homologous to the CD11b uPAR-binding site. uPAR colocalized with alpha3beta1 in MDA-MB-231 cells and uPA (1 nM) enhanced spreading and focal adhesion kinase phosphorylation on fibronectin (Fn) or collagen type I (Col) in a pertussis toxin- and alpha325-sensitive manner. A critical role of alpha3beta1 in uPA signaling was verified by studies of epithelial cells from alpha3-deficient mice. Thus, uPAR preferentially complexes with alpha3beta1, promoting direct (Vn) and indirect (Fn, Col) pathways of cell adhesion, the latter a heterotrimeric G protein-dependent mechanism of signaling between alpha3beta1 and other beta1 integrins.     

Integrin-associated protein immunoglobulin domain is necessary for efficient vitronectin bead binding

Integrin-associated protein (IAP/CD47) is physically associated with the alpha v beta 3 vitronectin (Vn) receptor and a functionally and immunologically related integrin on neutrophils (PMN) and monocytes. Anti-IAP antibodies inhibit multiple phagocyte functions, including Arg- Gly-Asp (RGD)-initiated activation of phagocytosis, chemotaxis, and respiratory burst; PMN adhesion to entactin; and PMN transendothelial and transepithelial migration at a step subsequent to tight intercellular adhesion. Anti-IAP antibodies also inhibit binding of Vn- coated particles to many cells expressing alpha v beta 3. However, prior studies with anti-IAP did not directly address IAP function because they could not distinguish between IAP blockade and antibody- induced signaling effects on cells. To better determine the function of IAP, we have characterized and used an IAP-deficient human cell line. Despite expressing alpha v integrins, these cells do not bind Vn-coated particles unless transfected with IAP expression constructs. Increasing the level of alpha v beta 3 expression or increasing Vn density on the particle does not overcome the requirement for IAP. All known splice variants of IAP restore Vn particle binding equivalently. Indeed, the membrane-anchored IAP Ig variable domain suffices to mediate Vn particle binding in this system, while the multiply membrane-spanning and cytoplasmic domains are dispensable. In all cases, adhesion to a Vn- coated surface and fibronectin particle binding through alpha 5 beta 1 fibronectin receptors are independent of IAP expression. These data demonstrate that some alpha v integrin ligand-binding functions are IAP independent, whereas others require IAP, presumably through direct physical interaction between its Ig domain and the integrin.     

Vitellogenin synthesis in the ovary of scallop,Patinopecten yessoensis: Control by estradiol-17 beta and the central nervous system

Elucidation of a profile of scallop vitellin formation associated with oogenesis and its endocrine control, and identification of a vitellogenin synthesizing site were immunologically undertaken by using anti-scallop Vn serum. Vn content increased during ovarian growth and accounted for more than 80% of the water soluble protein of the ovary at the mature stage. In vivo injection of estradiol-17 beta (E(2)) resulted in an increase in Vn content in the ovary. In vitro accumulation of Vn in the ovarian tissue was promoted with E2 and a vitellogenesis promoting factor (VPF) from cerebral plus pedal ganglion which was heat stable, less than MW 10,000 and trypsin/chymotrypsin resistant. Estrogen receptor (ER)-like immunoreactivity was found in the growing oocyte and the auxiliary cell in close contact with growing oocytes, in which Vn immunoreactivity was also found. It is suggested that the vitellogenin synthesis occurred inside the ovary, especially in the auxiliary cell, and is controlled by E2 and VPF via ER.     

Guanosine 3′,5′-monophosphate-dependent protein kinase from the silkmoth,Bombyx mori: Further evidence for the involvement of kinase in the phosphorylation of vitellin and the effect of phosphorylation on the susceptibility of vitellin to a cysteine proteinase in the egg

• 1.1. In the developing silkmoth eggs, a high level of activity of a cGMP-dependent protein kinase (G-kinase) is found. Vitellin (Vn) is an excellent substrate for the kinase, suggestin that the kinase may be involved in the phosphorylaiton of Vn in intact developing eggs.
• 2.2. To characterize this system in greater detail, the following experiments were performed: (a) changes in the levels of cyclic nucleotides and changes in cyclic nucleotide-dependent protein kinase activities were monitored in the eggs; (b) ³²P-o-phosphate was microinjected into eggs to demonstrate the phosphorylation of Vn in vivo; (c) to determine the role, if any, in vivo of the phosphorylation of Vn, the effect of phosphorylation on the susceptibility of Vn to a cysteine proteinase after the phosphorylation of Vn by G-kinase was studied.
• 3.3. The results revealed that the phosphorylation of Vn serves as the trigger for the proteolytic digestion of Vn during the developments, and may be able to provide the signal for the degradtion of Vn by the cysteine proteinase.

     

Haemophilus influenzae acquires vitronectin via the ubiquitous Protein F to subvert host innate immunity

Acquisition of the complement inhibitor vitronectin (Vn) is important for the respiratory tract pathogen nontypeable Haemophilus influenzae (NTHi) to escape complement‐mediated killing. NTHi actively recruits Vn, and we previously showed that this interaction involves Protein E (PE). Here we describe a second Vn‐binding protein, a 30 kDa Yersinia YfeA homologue designated as Protein F (PF). An isogenic NTHi 3655Δhpf mutant devoid of PF displayed a reduced binding of Vn, and was consequently more sensitive to killing by human serum compared with the wild type. Surface expression of PF on Escherichia coli conferred binding of Vn that resulted in a serum resistant phenotype. Molecular analyses revealed that the N‐terminal of PF (Lys23‐Glu48) bound to the C‐terminal of Vn (Phe352‐Ser374) without disrupting the inhibitory role of Vn on the membrane attack complex. The PF–Vn complex actively delayed C9 deposition on PF‐expressing bacteria. Comparative studies of binding affinity and multiple mutants demonstrated that both PE and PF contribute individually to NTHi serum survival. PF was highly conserved and ubiquitously expressed in a series of randomly selected NTHi clinical isolates (n = 18). In conclusion, the multifaceted binding of Vn is beneficial for NTHi survival in serum and may contribute to successful colonization and consequently infection.     

Human microvascular endothelial cells express integrin-related complexes that mediate adhesion to the extracellular matrix

Microvascular endothelial cells (MEC) must use a set of surface receptors to adhere not only to the vascular basement membrane but, during angiogenic stimulation, to the interstitium. We examined how cultured MEC isolated from human foreskin interact with their subendothelial matrix. MEC were able to attach to diverse extracellular matrix proteins, including fibronectin (Fn), vitronectin (Vn), laminin (Ln), type I and IV collagen, as well as to fibrinogen and gelatin. Adhesion to Fn, but not to laminin or collagens, was specifically blocked in the presence of Arg-Gly-Asp (RGD)-containing peptides. When surface radioiodinated MEC were solubilized and subjected to affinity chromatography on Fn-Sepharose columns, two polypeptides of 150 and 125 kD, corresponding to the integrin heterodimer alpha 5 beta 1, were identified. MEC also express a complex of 150 (alpha) and 95 kD (beta 3) that is related to the Vn receptor. Immunofluorescent staining of MEC cultures with antibodies to the integrin beta 1 subunit demonstrated receptors on the basolateral surface at focal adhesion plaques that co-localized with vinculin and with Fn-positive matrix fibers. Occasionally, antibodies to the Vn receptor stained the vinculin-positive focal adhesion plaques that frequently co-localized with the beta 1 complex. However, in cultures of MEC that were attached to substrates coated with alternating strips of Fn and Vn, the beta 1 complex was preferentially localized to the Fn substrate, while the Vn receptor was concentrated on the Vn substrate. The results indicate that MEC express at least two different heterodimer adhesion receptors that belong to the integrin super-family and appear to have distinct ligand specificities: the Fn receptor and the Vn receptor. These receptors mediate cell adhesion to the extracellular matrix and presumably have an important role in hemostasis and neovascularization.