The alpha1 subunit of laminin-1 promotes the development of neurons by interacting with LBP110 expressed by neural crest-derived cells immunoselected from the fetal mouse gut.

A plasmalemmal protein, LBP110, which binds to the alpha1 chain of laminin-1, is acquired by the neural crest-derived precursors of enteric neurons after they colonize the gut. We tested the hypothesis that laminin-1 interacts with LBP110 to promote enteric neuronal development. The effects of laminin-1 on neuronal development were studied in cultures of cells immunoselected from fetal mouse gut (E14-15) with antibodies to LBP110 or p75NTR, a marker for enteric crest-derived cells. No matter which antibody was used, the development of cells expressing neuronal markers was increased three- to fourfold by culturing the cells on a laminin-1-containing substrate. To determine whether this effect of laminin-1 is due to the selective adherence of a neurocompetent subset of precursors, immunoselected cells were permitted to preadhere to poly-D-lysine. Addition of soluble laminin-1 24 h later promoted neuronal but not glial development. The laminin-1-induced increment in neuronal development was abolished both by a peptide containing the sequence of the LBP110-binding domain, IKVAV, and by antibodies to laminin alpha1 that recognize the IKVAV domain. Neither reagent affected the total number of cells. In contrast, the response to laminin-1 was not affected by control peptides, preimmune sera, or antibodies to laminin beta1. Laminin-1 transiently induced the expression of nuclear Fos immunoreactivity; this action was blocked specifically by the IKVAV peptide. These data are consistent with the hypothesis that LBP110 interacts with the IKVAV domain of laminin alpha1 to promote the differentiation of neurons from enteric crest-derived precursors.

Role of laminin-1 and TGF-beta 3 in acinar differentiation of a human submandibular gland cell line (HSG).

Previous studies show that culturing an immortalized human submandibular gland cell line (HSG) on Matrigel, a basement membrane extract, induces cytodifferentiation. We have further defined this model system and identified factors involved in HSG cell acinar development and cyto-differentiation. Acinar development is marked by cell migration into multi-cellular spherical structures, cell proliferation and apoptosis of the centrally localized cells. In addition, functional differentiation was determined by indirect immunofluorescence and immunoblot analysis for cystatin, a salivary gland acinar cell-specific protein found to be produced by differentiated HSG cells. Matrigel contains multiple extracellular matrix proteins, however, laminin-1 was identified as the major matrix component that induced HSG cell acinar development and cytodifferentiation. Antibodies against specific components of Matrigel and against cell surface adhesion molecules were added to cells in culture to identify components important for HSG cell acinar differentiation. Immunostaining of HSG cell acini identified TGF-beta 2 and beta 3 as the predominant isoforms within the cells. Neutralizing antibodies directed against TGF-beta 3 significantly decreased (P < or = 0.0002) the size of acini formed. These results indicate that multiple components, including laminin-1 and TGF-beta 3, contribute to HSG cell acinar development. This model system will be useful to study acinar differentiation and salivary gland-specific protein expression in vitro.

Matrigel induces thymosin beta 4 gene in differentiating endothelial cells.

We performed differential cDNA hybridization using RNA from endothelial cells cultured for 4 hours on either plastic or basement membrane matrix (Matrigel), and identified early genes induced during the morphological differentiation into capillary-like tubes. The mRNA for one clone, thymosin beta 4, was increased 5-fold. Immunostaining localized thymosin beta 4 in vivo in both growing and mature vessels as well as in other tissues. Endothelial cells transfected with thymosin beta 4 showed an increased rate of attachment and spreading on matrix components, and an accelerated rate of tube formation on Matrigel. An antisense oligo to thymosin beta 4 inhibited tube formation on Matrigel. The results suggest that thymosin beta 4 is induced and likely involved in differentiating endothelial cells. Thymosin beta 4 may play a role in vessel formation in vivo.

A 110-kD nuclear shuttling protein, nucleolin, binds to the neurite-promoting IKVAV site of laminin-1.

The basement membrane protein laminin and the IKVAV-containing sequence from the laminin alpha 1 chain have been found to promote the differentiation of primary neurons and a variety of neural cell lines. We previously reported that a 110-kd IKVAV-binding protein (LBP110) isolated from brain appears to be a member of the beta-amyloid precursor protein (APP) family by immunologic and functional studies, which showed that LBP110/APP is also important in neurite outgrowth (Kibbey et al.: Proc Natl Acad Sci USA 90:10150-10153, 1993). In the preparation of this binding protein, a contaminating IKVAV-binding protein of identical molecular weight, nucleolin, was also identified. Here we have studied the relationship between these binding proteins. We find that nucleolin binds specifically to the IKVAV sequence independently of LBP110/ApP. We have also demonstrated significant levels of nucleolin in mature brain and in differentiating neural cells, suggesting that nucleolin functions not only in cell proliferation and in ribosome biogenesis as was previously reported, but also in the differentiation and maintenance of neural tissue. Our identification of cytoplasmic and cell-surface nucleolin, an IKVAV-binding protein, suggests that this protein may function in signalling by extra-cellular matrix.

Laminin SIKVAV peptide induction of monocyte/macrophage prostaglandin E2 and matrix metalloproteinases.

The laminin-derived synthetic peptide containing the SIKVAV (Ser-Ile-Lys-Val-Ala-Val) amino acid sequence has been previously shown to regulate tumor invasion, metastasis, and angiogenesis. Here, we demonstrate that this peptide also modulates human monocyte responses. Moreover, the monocytic responses elicited by this peptide are influenced by the culture conditions. When elutriated monocytes were cultured on SIKVAV substrate or in suspension with this peptide, the synthesis of prostaglandin E2, interstitial collagenase, and gelatinase B was induced and was further enhanced in the presence of concanavalin A (ConA). However, when monocytes were adhered before adding soluble SIKVAV, the peptide alone failed to induce the production of prostaglandin E2 or matrix metalloproteinases. If adherent monocytes were exposed to SIKVAV in the presence of ConA, this peptide enhanced the ConA induced production of these mediators. In contrast to SIKVAV, the intact laminin molecule failed to influence these monocyte responses. This is the first demonstration that a laminin derived peptide is capable of inducing or enhancing monocyte inflammatory responses that may influence a number of biological activities such as wound healing or excessive connective tissue destruction associated with chronic inflammation.

Angiogenesis as a component of epithelial-mesenchymal interactions.

Here we review the role of angiogenesis as it pertains to the interactions between the epithelium and the mesenchyme, especially during tumor growth and metastasis. We illustrate and discuss several models of angiogenesis including endothelial tube formation on Matrigel. Finally, we examine angiogenic factors using the Matrigel model and investigate several other matrix molecules for their importance in angiogenesis and epithelial/stromal interactions.

The role of basement membrane in angiogenesis and tumor growth.

Expansion of the tumor-cell mass is dependent on both the degree of tumor vascularization and the rate of angiogenesis. Blood vessel growth is controlled, in part, by the matrix surrounding it, in particular, the basement membrane underlying the endothelium. Here we illustrate that laminin, a major component of basement membrane, has several biologically active sites that can bind to endothelial and tumor cells, and have the ability to regulate angiogenesis and tumor growth. We show that synthetic peptides at two sites in the laminin B1 chain (the RGD and YIGSR sequences) inhibit angiogenesis, whereas a third site in the A chain, designated SIK-VAV, stimulates vessel and tumor cell growth. By developing strategies that promote or inhibit the activities of these sites in laminin, we may obtain methods to inhibit angiogenesis and subsequent tumor growth.

Laminin SIKVAV peptide-induced angiogenesis in vivo is potentiated by neutrophils.

Angiogenesis has been investigated in vivo using subcutaneously injected reconstituted basement membrane (Matrigel) supplemented with angiogenic factors. Previously we found that the laminin-derived synthetic peptide containing SIKVAV (ser-ile-lys-val-ala-val) promoted angiogenesis in vivo. In parallel studies, it was observed that new vessel formation in response to this peptide occurred several days after basic fibroblast growth factor-induced angiogenesis. Since this delay suggested that SIKVAV-induced angiogenesis may be secondary to other events, we investigated here earlier time points to determine if both indirect and direct mechanisms of angiogenesis are involved. We found that neutrophils are continuously recruited to the SIKVAV-containing plugs between 4 hours to 3 days following the initial injection. By day 7, columns of endothelial cells begin to migrate into the plug and form small blood vessels. In contrast, neutropenic mice had a 62% reduction in SIKVAV-induced angiogenesis when compared to control mice. Freshly isolated neutrophils also degraded laminin, the major component of the basement membrane Matrigel. These cells also produced factors in response to SIKVAV peptide which induced proliferation of human umbilical vein endothelial cells relative to a control peptide. In vitro experiments utilizing human neutrophils demonstrated that these cells migrate to the SIKVAV peptide and possess a specific cell surface SIKVAV binding protein of approximately 56 kD. These data suggest that neutrophils are induced to migrate to the Matrigel plugs, at least in part, by SIKVAV peptide, where they may release their own angiogenic factors and degrade the matrix, thus physically facilitating cell migration and liberating additional angiogenic matrix fragments and/or cytokines.

LZIP-1 and LZIP-2: two novel members of the bZIP family.

A large family of bZIP proteins, containing a basic DNA-binding domain and a leucine zipper, have been described that recognize the CRE and AP-1 elements. Here, we have identified two new members, designated LZIP-1 and LZIP-2. The murine cDNA for LZIP-1 coded for a 379-amino-acid (aa) residue protein containing several distinct domains, including a Ser-rich region, a basic DNA-binding region, and an unusually long leucine zipper. A second form, LZIP-2, contained an additional 25 aa in the N-terminal region. Western immunoblotting revealed that antibody raised against part of recombinant LZIP-1 detected both forms in a variety of tissues. Gel mobility shift assays demonstrated that the recombinant protein possessed specific DNA-binding activity for both the CRE AP-1 sites. The present identification of two more ubiquitous members of the bZIP family emphasizes the complex nature of transcription factor interactions at the CRE and AP-1 sites.

Expression of beta 1 integrin in laminin-adhesion-selected human colon cancer cell lines of varying tumorigenicity.

Laminin has been shown to promote the malignant phenotype and the expression of certain laminin receptors has been correlated with the malignant character of the tumors. Here new cell lines were isolated from a human colon cancer cell line (LCC-C1) based on their adhesiveness to laminin. The laminin-adherent subclone formed large tumors in nude mice, whereas the laminin-nonadherent subclone failed to form sizable tumors. Only the laminin-adherent subclone adhered to laminin and invaded through Matrigel-coated filters. The adhesive and invasive ability of the cells was almost completely blocked by low concentrations (1.0 microgram/ml) of anti-beta 1 integrin antibody. The amounts of total cellular beta 1 integrin protein were similar in the two subclones when compared by Western blot, and the mRNA levels also did not differ. The localization of beta 1 integrin laminin receptor varied in the two subclones; the laminin-adherent subclone showed a linear distribution along the cell-cell junctions, while the laminin-nonadherent subclone did not stain between the cells. Using laminin-Sepharose affinity chromatography, more beta 1 integrin was obtained from the laminin-adherent subclone. These findings suggest that alterations in the affinity of beta 1 integrin for laminin and in its membrane distribution might be involved in the increased tumorigenicity observed in colon cancer cells.

beta-Amyloid precursor protein binds to the neurite-promoting IKVAV site of laminin.

We previously characterized a 110-kDa membrane-associated laminin-binding protein (LBP110) from brain which binds the laminin A chain -Ile-Lys-Val-Ala-Val-(IKVAV) site and increases in injury. Here we demonstrate that antisera directed against different epitopes of beta-amyloid precursor protein (APP) recognize LBP110 and that APP is recognized by LBP110 antiserum. APP specifically binds IKVAV and not another biologically active laminin-derived peptide containing the amino acid sequence -Tyr-Ile-Gly-Ser-Arg-. PC-12 cells transfected with antisense APP RNA produce less APP and LBP110, and they form fewer processes when cultured on either laminin or the IKVAV peptide. Thus, LBP110 is a member of the APP family and a function for APP in neurite outgrowth is now defined.

Localization of a laminin-binding protein in brain.

A 110,000 mol.wt laminin-binding protein from newborn mouse brain recognizes a neurite promoting laminin A chain site and is related to the beta-amyloid precursor protein. In the present study, we examined the expression of 110,000 mol.wt laminin-binding protein in brains of adult mice, rats, and non-human primates. Essentially identical immunoreactivities were observed across species with distinct staining of cortical pyramidal neurons with apical dendrites, cerebellar basket cell axons, hippocampal mossy fibers, and fine labeling of processes throughout the brain. Colocalization of immunoreactivities to 110,000 mol.wt laminin-binding protein and to laminin in neurons of the adult rat brain was observed. Electron microscopy demonstrated that 110,000 mol.wt laminin-binding protein-like immunoreactivity is intracellular and is possibly associated with the neuronal cytoskeleton. Western blot analysis revealed that anti-110,000 mol.wt laminin-binding protein also recognizes a 140,000 mol.wt protein in the pellet, in addition to the 110,000 mol.wt protein in the Triton soluble extract. Antibody fractions specific to the two reactive protein species (110,000 mol.wt and 140,000 mol.wt) exhibited cross-reactivity on immunoblots and revealed similar immunohistochemical staining in adult brain. Results suggest a significant interaction between laminin-like molecules and 110,000 mol.wt laminin-binding protein-like molecules in normal brain function, in response to CNS injury and possibly in the pathogenesis of Alzheimer's disease.

Effect of Matrigel and laminin peptide YIGSR on tumor growth and metastasis.

Basement membrane has a variety of effects on tumor cells and promotes malignant behavior. Tumor cell growth is enhanced both in vitro and in vivo in mice in the presence of basement membrane. This has led to the ability to grow various tumors including human biopsy specimens in nude mice. Furthermore, low cell numbers can be used when coinjected with Matrigel, a basement membrane extract. The basement membrane glycoprotein laminin is important in promoting invasive behavior and the level of a 32/67 kDa laminin receptor has been shown to correlate with malignancy. A sequence of five amino acids, tyrosine-isoleucine-glycine-serine-arginine (YIGSR) has been shown to recognize this receptor and to reduce experimental metastases (tail vein injection resulting in colonization of the lung) and subcutaneous tumor growth. This peptide is active in both models either when coinjected or when daily intraperitoneal injections are given after tumor growth has initiated. YIGSR does not effect cell arrest but does inhibit angiogenesis which is necessary for tumor growth. YIGSR also appears to have an additional antitumor effect via its interaction with a specific receptor. YIGSR-adherent cells established after 30 successive selections on YIGSR-coated dishes in vitro formed more lung colonies after intravenous injection and larger tumors after subcutaneous injection than the parent B16F10 melanoma cells. The YIGSR-non-adherent cells formed fewer lung colonies and smaller subcutaneous tumors. These data demonstrate the importance of laminin-tumor cell interactions in malignancies and suggest that a short sequence from laminin has multiple effects in reducing tumor growth and spread.(ABSTRACT TRUNCATED AT 250 WORDS)

110/140 laminin-binding protein immunoreactivity in spinal dorsal root ganglia: a capsaicin-insensitive reduction induced by constriction injury of the sciatic nerve in rats.

The distribution of 110/140 laminin-binding protein (110/140 LBP) in the spinal dorsal root ganglia (DRG) and its regulation by partial constriction of the sciatic nerve was studied in adult rats. The cross-sectional area of neurons with 110/140 LBP-immunoreactivity (-I) showed an approximately normal frequency distribution. The 110/140 LBP-I was observed in neuronal cell bodies exclusive of the nucleus. Following sciatic nerve constriction, the 110/140 LBP-I was downregulated in the ipsilateral L4-5 DRG. DRG neurons with a cross-sectional area > or = 1600 microns 2 were preferentially affected. Neonatal capsaicin-treatment, a procedure that selectively destroys a subpopulation of DRG neurons with fine unmyelinated axons, had no effect on the reduction of 110/140 LBP in the DRG induced by sciatic nerve constriction. Western immunoblot analysis confirmed a reduction of 110/140 LBP on the side ipsilateral to the constriction. These results demonstrate a LBP within primary sensory neurons and its suppression by peripheral nerve injury. The data support a role for LBP in the adult nervous system.

Human neoplastic submandibular intercalated duct cells express an acinar phenotype when cultured on a basement membrane matrix.

Culture of the human neoplastic submandibular gland intercalated duct cell line, HSG, on the basement membrane extract Matrigel induces dramatic morphologic changes and cytodifferentiation. Transmission electron microscopy demonstrated an acinar cell phenotype with polarized cells containing a well-developed Golgi apparatus, multiple microvilli-like projections from the apical surfaces into a lumenal-like area, and numerous granule-like organelles. Amylase, an acinar cell marker, was detected by both immunocytochemical and Northern blot analyses. A 50% reduction in [3H]thymidine incorporation by cells cultured on Matrigel, as compared to cells cultured on tissue culture plates, confirmed the differentiated phenotype of the cells. Multiple components of Matrigel appear to contribute to the morphologic differentiation of the HSG cells since antibodies to both laminin and collagen IV, as well as the laminin-derived bioactive peptide containing SIKVAV, have potent inhibitory effects on HSG cell organization on Matrigel. Collectively, these data indicate that culture of HSG cells on Matrigel is a useful model to study salivary gland acinar development.

The laminins: a family of basement membrane glycoproteins important in cell differentiation and tumor metastases.

Laminins are a family of basement membrane-derived glycoproteins that are very biologically active with a number of diverse cell types. The response of the cells is dependent on the cell type and various cell-specific intracellular events are activated. Multiple active sites on laminin and cellular receptors have been described. Both laminin and the synthetic peptides that define the active sites may have important clinical uses. For example, the neurite-promoting peptides may be useful in vivo in regeneration studies because of their potent activity with neural cells and their lack of antigenicity. Also, peptides, such as YIGSR, that inhibit angiogenesis are potentially useful for treating the vascularization of the eye that occurs in conditions such as diabetes mellitus. Likewise, the angiogenic peptide SIKVAV, because of its role in endothelial cell block vessel formation, may be useful for treating ischemia. The recent progress that has been made in characterizing basic mechanisms of action of laminin has laid the groundwork for more direct studies of its clinical relevance.

Melanoma cells selected for adhesion to laminin peptides have different malignant properties.

Laminin is an important promoter of cell-matrix interactions. A number of active laminin domains have been defined by use of synthetic peptides. The Tyr-Ile-Gly-Ser-Arg (YIGSR) sequence on the B1 chain in laminin can decrease tumor growth and metastasis, whereas another sequence containing Ser-Ile-Lys-Val-Ala-Val (SIKVAV) on the A chain can increase tumor growth and metastasis. Here, we selected B16-F10 melanoma cells by adherence or nonadherence to either YIGSR- or SIKVAV-coated dishes and established 3 B16-F10 variants: YIGSR-adherent cells (Y+), YIGSR-nonadherent cells (Y-), and SIKVAV-nonadherent cells (S-). SIKVAV-adherent cells were not selected because most of F10 cells attached to the SIKVAV-coated dish. These cell lines proliferated at the same rate as the parent F10 cells and attached equally to laminin, collagen IV, and fibronectin. Y+ cells produced rapidly growing tumors after s.c. injection and twice as many lung colonies as the parental F10 cells after i.v. injection. In contrast, Y- cells produced more slowly growing tumors after s.c. injection and produced one-third of the lung colonies relative to the parent cells after i.v. injection. S- cells produced slowly growing tumors after s.c. injection and yielded similar numbers but smaller colonies in the lung than the parental B16-F10 cells after i.v. injection. These data suggest that interactions of melanoma cells with the YIGSR site on laminin are probably important for both colony formation in a target organ (lung) and subsequent tumor growth, while the SIKVAV-containing site on laminin may be more important for tumor growth.