Identification of neurite outgrowth active sites on the laminin alpha4 chain G domain

The laminin alpha4 chain is widely distributed in various mesodermal tissues, including the perineurium of peripheral nerves, dorsal root ganglion (DRG), skeletal muscle, and capillaries, and plays important roles in synaptic specialization at the neuromuscular junction and in microvascular formation. The C-terminal globular domain (G domain) of the laminin alpha4 chain was previously found to be critical for heparin binding and cell attachment activity. Here, we focused on neurite outgrowth activity of the laminin alpha4 chain G domain. We found that the recombinant alpha4 chain G domain protein (rec-alpha4G) promoted neurite outgrowth of rat pheochromocytoma PC12 cells. When 114 overlapping synthetic peptides that covered the entire G domain were tested for neurite outgrowth activity, nine peptides were active, but the 105 remaining peptides did not exhibit activity. Three of the nine active peptides, A4G6 (LAIKNDNLVYVY), A4G20 (DVISLYNFKHIY), and A4G107 (VIRDSNVVQLDV), strongly promoted neurite outgrowth of PC12 cells. A4G107 was found to form amyloid-like fibrils in Congo red, X-ray, and electron microscopy analyses. We also synthesized cyclic peptides to evaluate their conformational requirements. Cyclic peptide A4G82X (cyc-A4G82X;TLFLAHGRLVFX, where X is norleucine) significantly enhanced neurite outgrowth activity, but the rest of the cyclic peptides eliminated the activity. The A4G82 sequence is located on the loop region, suggesting that the activity of A4G82 is required for a loop conformation. These peptides also exhibited neurite outgrowth activity with dorsal root ganglion (DRG) explants and with DRG cells from E14.5 mouse embryos, indicating that they are active in both neuronal cell lines and native neuronal cells. Taken together, the data suggest that the peptides from the laminin alpha4 chain G domain promote neurite outgrowth activity via a specific conformation.     

Identification of neurite outgrowth promoting sites on the laminin alpha 3 chain G domain

Laminins are expressed in specific tissues and are involved in various biological activities including promoting cell adhesion, growth, migration, neurite outgrowth, and differentiation. The laminin alpha3 chain is mainly located in the skin and is also expressed in the floor plate of the developing neural tube. Previously, we showed that the human laminin alpha3 chain LG4 module binds to syndecan-2/4, a membrane-associated proteoglycan, and promotes human fibroblast adhesion. Here, we have evaluated the neurite outgrowth activity of the laminin alpha3 chain LG4 and LG5 modules. Three overlapping recombinant proteins, which contained LG4 and/or LG5 modules of the human laminin alpha3 chain, were prepared using a mammalian cell expression system. Two proteins, rec-alpha3LG4-5 and rec-alpha3LG4, promoted cell attachment and neurite outgrowth of rat pheochromocytoma PC12 cells, but rec-alpha3LG5 was inactive. Twenty-two peptides covering the entire LG4 module were synthesized and tested for cell attachment and neurite outgrowth activity to identify active sites of the LG4 module. A3G75 (KNSFMALYLSKG, alpha3 chain 1411-1422) and A3G83 (GNSTISIRAPVY, alpha3 chain 1476-1487) promoted PC12 cell attachment and neurite outgrowth. Additionally, A3G75 and A3G83 inhibited PC12 cell attachment to rec-alpha3LG4. These results suggest that the A3G75 and A3G83 sites are important for PC12 cell attachment and neurite outgrowth in the laminin alpha3 chain LG4 module. We also conjugated the A3G75 and A3G83 peptides on chitosan membranes to test their potential as bio-materials. These peptide-conjugated chitosan membranes were more active for neurite outgrowth than the peptide-coated plates. These results suggest that the A3G75- and A3G83-conjugated chitosan membranes are applicable as bio-medical materials for neural tissue repair and engineering.     

Active sites in the carboxyl-terminal region of the laminin alpha chain in Drosophila neuronal cell spreading

An established Drosophila neuronal cell line (BG2-c6) proved to be useful to analyze laminin-mediated cell spreading and signal transduction [Takagi et al. (2000) Biochem Biophys Res Commun 270:482-487]. Here, we report, in addition to the whole molecule, the truncated alpha chain of Drosophila laminin (containing the entire carboxyl-terminal globular domain) and two dodecapeptides corresponding to the cell-binding sites identified in the alpha1 chain of mouse laminin were also active to stimulate BG2-c6 cell spreading. Our previous study [Takagi et al. (1996) J Biol Chem 271:18074-18081] revealed that these recombinant protein and synthetic peptides promoted neurite outgrowth in the primary cell culture system prepared from Drosophila embryo. Therefore, the similar effects by these proteins and peptides suggest the presence of a common mechanism of laminin and neuronal cell interaction working in both primary and established cells. One of the two active peptides contains the sequence SIKVGV. Its murine counterpart carries the sequence SIKVAV by which the interaction of laminin and cells is mediated. Furthermore, laminin-dependent BG2-c6 cell spreading was inhibited by heparin. This observation suggests that cell surface glycoproteins participate in the interaction of laminin and BG2-c6 cells.     

Synthetic peptides from the carboxy-terminal globular domain of the A chain of laminin: their ability to promote cell adhesion and neurite outgrowth, and interact with heparin and the beta 1 integrin subunit

The large carboxy-terminal globular domain (G domain; residues 2,110-3,060) of the A chain of murine-derived laminin has been shown to promote heparin binding, cell adhesion, and neurite outgrowth. This study was conducted to define the potential sequence(s) originating from the G domain of laminin with any of these functional activities. A series of peptides were synthesized from the G domain, termed GD peptides, each approximately 20 amino acids long and containing multiple positively charged amino acids. In direct 3H-heparin binding assays, peptides GD-1 and GD-2 bound high levels of 3H-heparin, while peptides GD-3 and GD-4 bound lower levels of 3H-heparin, and GD-5 bound essentially no 3H-heparin. The binding of 3H-heparin to peptides GD-1 and GD-2 appeared to be of high affinity, since significant binding of 3H-heparin to these two peptides was still observed even when the NaCl concentration was raised to 1.0 M. Four of the peptides, GD-1, GD-2, GD-3, and GD-4, directly promoted the adhesion and spreading of HT-1080 human fibrosarcoma cells as well as the outgrowth of neurites from chick spinal cord and dorsal root ganglia neurons. In addition, solutions of these peptides or antibodies generated against these peptides inhibited laminin-mediated HT-1080 cell adhesion. Antibodies against the beta 1 integrin subunit inhibited HT-1080 cell adhesion and neurite outgrowth on surfaces adsorbed with peptides GD-3 and GD-4. Therefore, laminin appears to have multiple, independent sequences in the G domain that serve a similar cell adhesion promoting function for different cell types. Furthermore, these results suggest that the sequences comprising peptides GD-3 and GD-4 use an integrin as a receptor, of which the beta 1 integrin subunit is a component for these various cell types.     

The RGD containing site of the mouse laminin A chain is active for cell attachment, spreading, migration and neurite outgrowth

The laminin A chain has been sequenced by cDNA cloning and was found to contain an RGD sequence. Synthetic peptides containing the RGD sequence and flanking amino acids were active in mediating cell adhesion, spreading, migration, and neurite outgrowth. Furthermore, endothelial cell attachment to a laminin substrate was inhibited by an RGD-containing synthetic peptide. Antisera against the integrin (fibronectin) receptor, and monoclonal antibody to the integrin, VLA-6, inhibited cell interaction with laminin, as well as with peptides containing an RGD sequence. These results suggest that the RGD containing site of laminin is active and interacts with the integrin family of receptors in certain cells.     

Cell adhesive peptide screening of the mouse laminin α1 chain G domain

Cell adhesive peptides have been widely applied for therapeutic drugs, drug delivery systems, and biomaterials. Previously, we identified various cell adhesive sequences in the G domains of four laminin α chains (α2-α5) by the systematic soluble peptide screening. We also identified five cell-binding sequences in the laminin α1 chain G domain using synthetic peptide-polystyrene beads. Here, we re-screened cell adhesive peptides in the laminin α1 chain G domain by the systematic soluble peptides screening. The 110 soluble peptides were evaluated for their cell adhesive activities using human fibrosarcoma HT1080 cells and human dermal fibroblasts. Fourteen peptides were newly identified as a cell adhesive. Additionally, four peptides (AG22: SSFHFDGSGYAM, AG42: TFDLLRNSYGVRK, AG76: HQNQMDYATLQLQ, AG86: LGGLPSHYRARNI) promoted integrin-mediated cell adhesion. Further, neurite outgrowth activity with rat pheochromocytoma PC12 cells was evaluated and two peptides (AG20: SIGLWNYIEREGK, AG26: SPNGLLFYLASNG) were newly identified for neurite outgrowth activity. These results suggested that the systematic soluble peptides screening approach is an accurate and powerful strategy for finding biologically active sequences. The active sequences newly identified here could be involved in the biological functions of this domain. The active peptides are useful for evaluating molecular mechanisms of laminin-receptor interactions and for developing cell adhesive biomaterials.     

Integrin-dependent cell behavior on ECM peptide-conjugated chitosan membranes

Extracellular matrix (ECM) plays an important role in tissue regeneration by promoting cell adhesion, migration, proliferation, and differentiation. ECM mimetics are of importance for tissue engineering because of their functions as scaffolds for cells. Previously, we developed bioactive laminin-derived peptide-conjugated chitosan membranes and demonstrated their cell- and peptide-type specific functions. Here, we conjugated twelve integrin-binding peptides derived from ECM proteins onto chitosan membranes and examined biological activity. Seven peptide-chitosan membranes promoted human foreskin fibroblast attachment. Additionally, FIB1 (YAVTGRGDSPAS; from fibronectin), A99 (AGTFALRGDNPQG; from laminin alpha1 chain), EF1zz (ATLQLQEGRLHFXFDLGKGR, X = Nle; from laminin alpha1 chain), and 531 (GEFYFDLRLKGDKY; from collagen alpha1 (IV) chain) conjugated chitosan membranes promoted integrin-dependent cell adhesion. Various integrins, including alphav, beta1, and beta3, were involved in the cell adhesion to the peptide-chitosan membranes. Further, only the FIB1- and A99-chitosan membranes promoted neurite outgrowth with PC12 rat pheochromocytoma cells. These data demonstrate that peptide-chitosan membranes can regulate specific integrin-mediated cell responses and are useful constructs as ECM mimetics.     

Cyclic peptide analysis of the biologically active loop region in the laminin alpha3 chain LG4 module demonstrates the importance of peptide conformation on biological activity

The laminin alpha3 chain LG4 module (alpha3LG4 module) has cell adhesion, heparin binding, migration, and neurite outgrowth activities. The LG4 module consists of a 14-stranded beta-sheet (A-N) sandwich structure. Previously, we identified the A3G756 sequence (KNSFMALYLSKGRLVFALG in the human laminin alpha3 chain 1411-1429) as a biologically active site in the alpha3LG4 module. The A3G756 sequence is located on the E and F strands based on a crystal structure-based sequence alignment. The Lys1421 and Arg1423 residues, critical amino acids for the biological activity of A3G756, are located on the E-F connecting loop region as a KGR sequence. In this study, we focused on the KGR sequence and investigated the structural requirements of the E-F connecting loop region in the alpha3LG4 module. We synthesized three linear peptides containing the KGR sequence at the middle and the N and C termini and also prepared three cyclic analogues corresponding to the linear peptides. cyclo-hEF3A (CLYLSKGRLVFAC), which is a cyclic peptide containing the KGR sequence at the middle, showed the strongest inhibitory effect on both the heparin binding and the cell attachment to the recombinant alpha3LG4 module protein. The cyclo-hEF3A peptide was more active for syndecan-4 binding and neurite outgrowth than the linear form. Furthermore, we found that the structure of cyclo-hEF3A is similar to that of the connecting E-F loop region in human laminin alpha3LG4 module by structural analysis using molecular dynamics simulations. These results suggest that the loop structure of the E-F connecting region of the alpha3LG4 module is important for its biological activities. The cyclo-hEF3A peptide may be useful for the development of therapeutic reagents especially for wound healing and nerve regeneration.     

A synthetic peptide containing the IKVAV sequence from the A chain of laminin mediates cell attachment, migration, and neurite outgrowth

Laminin is a basement membrane glycoprotein which consists of A, B1, and B2 chains. Laminin has diverse biological activities including promoting cell adhesion, migration, differentiation, growth, and neurite extension. Synthetic peptides from the active region of the A chain were prepared and tested for their biological activity. A 19-mer peptide (designated PA22-2), from just above the carboxyl globule on the long arm of the A chain, was found to promote cell adhesion, spreading, migration, and neurite outgrowth. By testing smaller sequences within the 19-mer peptide, a constituent pentapeptide, IKVAV (Ile-Lys-Val-Ala-Val), was identified as the active site for cell adhesion and neurite outgrowth. These data suggest that this sequence is one of the principle sites in laminin which regulate cellular behavior.     

Identification of cell adhesive sequences in the N-terminal region of the laminin α2 chain

The laminin α2 chain is specifically expressed in the basement membrane surrounding muscle and nerve. We screened biologically active sequences in the mouse laminin N-terminal region of α2 chain using 216 soluble peptides and three recombinant proteins (rec-a2LN, rec-a2LN+, and rec-a2N) by both the peptide- or protein-coated plate and the peptide-conjugated Sepharose bead assays. Ten peptides showed cell attachment activity in the plate assay, and 8 peptides were active in the bead assay. Seven peptides were active in the both assays. Five peptides promoted neurite outgrowth with PC12 cells. To clarify the cellular receptors, we examined the effects of heparin and EDTA on cell attachment to 11 active peptides. Heparin inhibited cell attachment to 10 peptides, and EDTA significantly affected only A2-8 peptide (YHYVTITLDLQQ, mouse laminin α2 chain, 117-128)-mediated cell attachment. Cell attachment to A2-8 was also specifically inhibited by anti-integrin β1 and anti-integrin α2β1 antibodies. These results suggest that A2-8 promotes an integrin α2β1-mediated cell attachment. The rec-a2LN protein, containing the A2-8 sequence, bound to integrin α2β1 and cell attachment to rec-a2LN was inhibited by A2-8 peptide. Further, alanine substitution analysis of both the A2-8 peptide and the rec-a2LN+ protein revealed that the amino acids Ile-122, Leu-124, and Asp-125 were involved in integrin α2β1-mediated cell attachment, suggesting that the A2-8 site plays a functional role as an integrin α2β1 binding site in the LN module. These active peptides may provide new insights on the molecular mechanism of laminin-receptor interactions.     

Cell adhesion, spreading and neurite stimulation by laminin fragment E8 depends on maintenance of secondary and tertiary structure in its rod and globular domain

The cell adhesion, spreading and neurite-promoting properties of mouse tumor laminin fragment E8, which contains major site(s) responsible for laminin-cell interactions, were probed by proteolytic degradation, denaturation, synthetic peptides and antibody inhibition. Removal of more than half of the N-terminal portion contributing to the rod-like domain did not effect cell attachment or spreading although neurite-promoting activity was reduced. More extensive degradation of the rod or of the globular domains of E8, or separation of the globule from the rod, also resulted in loss of cell spreading activity although weak attachment was found to an A chain subfragment comprising the globular domain and a short piece of the rod. Exposure of E8 to increasing concentrations of dissociating agents produce an apparently reversible denaturation but an irreversible loss of both attachment and neurite-promoting activities, as did reduction and alkylation of disulfide bonds in the globular domain. Although cell adhesion and spreading were blocked by antibodies to an alpha 6 integrin subunit, neurite outgrowth was unaffected, indicating two distinct receptors for these two activities. Furthermore, a synthetic peptide, the sequence of which is found in the vicinity of adhesion and neurite-promoting sites and previously implicated in neurite growth and cell attachment activities, was found to be inactive. These results indicate that the major cell attachment and neurite-promoting sites of laminin are distinct although both require the native conformation of parts of the rod and the terminal globular domain of the long arm of laminin.     

Nitric oxide mediates laminin-induced neurite outgrowth in PC12 cells

Laminin is a potent stimulator of neurite outgrowth in a variety of primary neurons and neuronal cell lines. Here, we investigate the role of nitric oxide in the signaling mechanism of laminin-mediated neurite outgrowth in the PC12 cell line. Within 8 s of exposure to laminin, PC12 cells produce nitric oxide. Peak laminin-induced nitric oxide levels reach 8 nM within 12 s of exposure to laminin and constitutive nitric oxide production is sustained for 1 min. A neurite outgrowth promoting synthetic peptide (AG73), derived from the laminin-1-alpha globular domain, also stimulated nitric oxide release. The nitric oxide synthase inhibitor, 1-NAME, prevents the formation of nitric oxide and here, 1-NAME inhibited both laminin-mediated and AG73-mediated neurite outgrowth by 88 and 95%, respectively. In contrast, C16, a synthetic peptide derived from the laminin-1-gamma chain, is shown here to promote PC12 cell attachment, but not neurite outgrowth. Interestingly, the C16 peptide did not activate nitric oxide release, suggesting that laminin-induced nitric oxide release in PC12 cells is associated only with neurite outgrowth promoting laminin domains and signals. In addition, the data here show that the nitric oxide released by PC12 cells in response to laminin is required as a part of the mechanism of laminin-mediated neurite outgrowth.     

Expression of chicken integrin beta 1 subunit in rat PC12 cells

We transfected rat pheochromocytoma (PC12) cells with a cDNA encoding chicken integrin beta 1 subunit. The chicken integrin beta 1 subunit produced in stable transfectants associated with two major alpha subunits of rat integrins to form interspecific chimeric receptors. These receptors mediated cell spreading and initial neurite outgrowth on laminin as did corresponding endogenous integrins, although they were slightly less effective in inducing cell adhesion to laminin. These results indicate that chicken integrin beta 1 may functionally substitute for beta 1 subunit of rat integrins in PC12 cells. Apparently, the structure of the integrin beta 1 subunit is highly conserved in the evolution of these species.     

Triple effect of mimetic peptides interfering with neural cell adhesion molecule homophilic cis interactions

The neural cell adhesion molecule (NCAM) is pivotal in neural development, regeneration, and learning. Here we characterize two peptides, termed P1-B and P2, derived from the homophilic binding sites in the first two N-terminal immunoglobulin (Ig) modules of NCAM, with regard to their effects on neurite extension and adhesion. To evaluate how interference of these mimetic peptides with NCAM homophilic interactions in cis influences NCAM binding in trans, we employed a coculture system in which PC12-E2 cells were grown on monolayers of fibroblasts with or without NCAM expression and the rate of neurite outgrowth subsequently was analyzed. P2, but not P1-B, induced neurite outgrowth in the absence of NCAM binding in trans. When PC12-E2 cells were grown on monolayers of NCAM-expressing fibroblasts, the effect of both P1-B and P2 on neurite outgrowth was dependent on peptide concentrations. P1-B and P2 acted as conventional antagonists, agonists, and reverse agonists of NCAM at low, intermediate, and high peptide concentrations, respectively. The demonstrated in vitro triple pharmacological effect of mimetic peptides interfering with the NCAM homophilic cis binding will be valuable for the understanding of the actions of these mimetics in vivo.     

Identification of active sequences in the L4a domain of laminin α5 promoting neurite elongation

Laminin α5 is an extracellular matrix protein containing multiple domains implicated in various biological processes, such as embryogenesis and renal function. In this study, we used recombinant proteins and synthetic peptides to identify amino acid residues within the short arm region of α5 that were critical for neurite outgrowth activity. The short arm of α5 contains three globular domains (LN, L4a, and L4b) and three rodlike elements (LEa, LEb, and LEc). Recombinant proteins comprised of the α5 short arm fused with a Fc tag produced in 293 cells were assayed for PC12 (pheochromocytoma) cell adhesion and neurite outgrowth activities. Although it did not have cell attachment activity, neurite outgrowth was promoted by the recombinant protein. To narrow the region involved in neurite outgrowth activity, two truncated recombinant proteins were produced in 293 cells. A recombinant protein lacking L4a and LEb lost activity. Furthermore, we synthesized 78 partially overlapping peptides representing most of the amino acid sequences of L4a and LEb. Of the peptides, A5-76 [mouse laminin α5 928-939 (TSPDLFRLVFRY) in L4a] exhibited neurite outgrowth activity. Mutagenesis studies showed that Phe(933) and Arg(934) were involved in neurite outgrowth activity. Moreover, inhibition assays using anti-integrin monoclonal antibodies showed that neurite outgrowth on the α5 short arm was partially mediated by integrin α1β1. However, the antibodies to integrin α1 and β1 did not inhibit neurite elongation on the A5-76 peptide. These results suggest that in addition to cellular interactions with the active site in the L4a domain, the binding of integrin α1β1 seems to modulate neurite elongation on the short arm of α5.     

Cyclic peptides from the loop region of the laminin alpha 4 chain LG4 module show enhanced biological activity over linear peptides

Laminins, heterotrimeric glycoproteins in the basement membrane, are involved in diverse biological activities. So far, five alpha, three beta, and three gamma chains have been identified, and at least 15 laminin isoforms exist composed of various combinations of the different three chains. The major cell-surface receptors for laminins are integrins and proteoglycans, such as dystroglycans and syndecans. Previously, we reported that synthetic peptide A4G82 (TLFLAHGRLVFM, mouse laminin alpha4 chain residues 1514-1525) showed strong cell attachment and syndecan binding activities. On the basis of the crystal structure of the LG module and sequence alignment, A4G82 is located in the connecting loop region between beta-strands E and F in the laminin alpha4 chain LG4 module. Here, we have focused on the structural importance of this E-F loop region for the biological activity of the alpha4 chain LG4 module. To determine the importance of the loop structure, we synthesized peptide A4G82X (cyclo-A4G82X, Cys-TLFLAHGRLVFX-Cys, X= norleucine), which was cyclized via disulfide bridges at both the N- and C-termini. The cyclic peptides derived from A4G82X inhibited the heparin binding activity of the alpha4 chain G domain and promoted HT-1080 cell attachment better than the corresponding linear peptides. We determined FLAHGRLVFX as a minimal sequence of cyclo-A4G82X important for cell adhesion and heparin binding using a series of truncated peptides. Moreover, HT-1080 cell attachment to the cyclic peptides was more efficiently blocked by heparin than cell attachment to the linear peptides. Furthermore, the cyclic peptides showed significantly enhanced syndecan-2-mediated cell attachment activity. These results indicate that the activity of A4G82 is highly conformation-dependent, suggesting that the E-F loop structure is crucial for its biological activity.     

Nerve growth factor induces increased expression of a laminin-binding integrin in rat pheochromocytoma PC12 cells

Rat pheochromocytoma PC12 cells exposed to nerve growth factor differentiate as sympathetic neurons and extend neurites on laminin and to a much lesser extent on fibronectin. Analysis of laminin fragments indicated that neurite outgrowth occurs mainly on fragment P1, corresponding to the center of the cross, and only poorly on fragment E8, a long arm structure that is active with other neuronal cells. Integrin antibodies prevented adhesion and neurite sprouting of these cells on laminin, fragment P1, and fibronectin. By affinity chromatography we isolated an integrin-type receptor for laminin consisting of two subunits with molecular massess of 180 and 135 kDa. The latter is recognized by an antiserum to integrin beta 1 subunit. The bound laminin receptor could be displaced by EDTA, but not by Arg-Gly-Asp or Tyr-Ile-Gly-Ser-Arg peptides. Affinity chromatography on laminin fragments showed that the 180/135 kDa receptor binds to P1. The expression of the 180-kDa alpha subunit of the laminin receptor at the cell surface was increased 10-fold after NGF treatment. The effect of NGF is specific since the amount of a 150-kDa fibronectin-binding integrin alpha subunit remained unchanged. Moreover, the increased expression of the 180/135 kDa receptor at the cell surface corresponded to a selective increase in cell adhesion to laminin and to fragment P1. The 180/135-kDa complex is thus an integrin-type receptor for laminin whose expression and binding specificity correlates with the capacity of NGF-induced PC12 cells to extend neurites on laminin.     

Cell interactions with laminin and its proteolytic fragments during outgrowth of mouse primary trophoblast cells.

Mouse blastocysts in serum-free culture for 24-48 h become attachment-competent, adhere to fibronectin- or laminin-coated surfaces, and subsequently form trophoblast outgrowths. The blastocyst laminin receptor was characterized in outgrowth studies using modified laminin. Trophoblast cells interacted with the peptide portion of laminin, but not the oligosaccharide moiety since its adhesive activity was reduced by boiling or trypsin treatment, but not by treatments that removed or modified its carbohydrate. Laminin outgrowth-promoting activity was further localized within its structural domains by use of the well-characterized proteolytic fragments of laminin, E1-4, and E8, and a synthetic peptide, CDPGYIGSR. The E1-4 fragment of laminin did not promote embryo outgrowth. However, the E8 fragment, which contains a heparin-binding domain as well as sites recognized during cell adhesion and neurite outgrowth, vigorously promoted outgrowth in both the presence and absence of heparin, heparan sulfate, or heparinase. Consistent with these results, outgrowth on intact laminin was not inhibited by CDPGYIGSR, a sequence within the E1-4 fragment that is known to mediate the adhesion of some cell types. It is concluded from these results that early trophoblast cells adhere to peptide in the E8 domain of laminin using a mechanism that is independent of the one used for adhesion to fibronectin.     

Identification of biologically active sequences in the laminin alpha 4 chain G domain

Laminins are a family of trimeric extracellular matrix proteins consisting of alpha, beta, and gamma chains. So far five different laminin alpha chains have been identified. The laminin alpha 4 chain, which is present in laminin-8/9, is expressed in cells of mesenchymal origin, such as endothelial cells and adipocytes. Previously, we identified heparin-binding sites in the C-terminal globular domain (G domain) of the laminin alpha 4 chain. Here we have focused on the biological functions of the laminin alpha 4 chain G domain and screened active sites using a recombinant protein and synthetic peptides. The rec-alpha 4G protein, comprising the entire G domain, promoted cell attachment activity. The cell attachment activity of rec-alpha 4G was completely blocked by heparin and partially inhibited by EDTA. We synthesized 116 overlapping peptides covering the entire G domain and tested their cell attachment activity. Twenty peptides showed cell attachment activity, and 16 bound to heparin. We further tested the effect of the 20 active peptides in competition assays for cell attachment and heparin binding to rec-alpha 4G protein. A4G6 (LAIKNDNLVYVY), A4G20 (DVISLYNFKHIY), A4G82 (TLFLAHGRLVFM), and A4G83 (LVFMFNVGHKKL), which promoted cell attachment and heparin binding, significantly inhibited both cell attachment and heparin binding to rec-alpha 4G. These results suggest that the four active sites are involved in the biological functions of the laminin alpha 4 chain G domain. Furthermore, rec-alpha 4G, A4G6, and A4G20 were found to interact with syndecan-4. These active peptides may be useful for defining of the molecular mechanism laminin-receptor interactions and laminin-mediated cellular signaling pathways.     

A biological role of the carbohydrate moieties of laminin

The ways in which the carbohydrate moieties of laminin affect its cellular interactions have been examined by two different experimental approaches. In one approach, we used lectins in order to block specific carbohydrates on laminin which previously had been dried onto a plastic surface. We found that wheat germ agglutinin and Griffonia simplicifolia agglutinin I blocked the binding of the neuron-like rat pheochromocytoma cell line PC12. However, when concanavalin A was used cell binding was unaffected but neurite outgrowth was prevented, compared to controls, over a 24-h period. In the second approach we used unglycosylated laminin as a substratum on the plastic surface. We have developed a method for the purification of unglycosylated laminin from tunicamycin treated cultures of a mouse embryonal carcinoma derived cell line, M1536 B3, and have partially characterized the purified material. A mixture of unglycosylated and glycosylated laminin was selectively purified from the M1536 B3 cell lysate by an anti-EHS laminin monoclonal antibody immunoaffinity column. The unglycosylated laminin was separated from glycosylated laminin using G. simplicifolia lectin affinity chromatography. The lectins, wheat germ agglutinin, G. simplicifolia agglutinin I, and concanavalin A, did not bind to any of the subunits of unglycosylated laminin in Western blots. The unglycosylated laminin migrated as a single band in agarose-gel electrophoresis under nonreducing conditions indicating that it is a fully assembled and disulfide bonded molecule. Circular dichroism studies showed no differences between glycosylated and unglycosylated laminin, indicating similar molecular conformations. Western blots using antibodies specific for the A, B1, and B2 chains of laminin showed that unglycosylated laminin contained each of these subunits. We then performed cell binding and spreading or neurite outgrowth assays using unglycosylated laminin. A mouse melanoma cell line, B16 F1, bound to this laminin in the same numbers as to the control glycosylated laminin, but cell spreading was minimal. When this unglycosylated laminin was used as a substrate for PC12 cells neurite outgrowth was impaired; no effect was noted on the number of cells bound, compared to glycosylated laminin. We conclude from these results that once cells become bound to laminin the carbohydrate residues of that glycoprotein must be available to enable the cells to spread or to extend neurite processes.