Distinct mechanisms of alpha 5beta 1 integrin activation by Ha-Ras and R-Ras

To investigate the possible roles of the Ras/Rho family members in the inside-out signals to activate integrins, we examined the ability of Ras/Rho small GTPases to stimulate avidity of alpha(5)beta(1) (VLA-5) to fibronectin in bone marrow-derived mast cells. We found that both Ha-Ras(Val-12) and R-Ras(Val-38) had strong stimulatory effects on adhesion and ligand binding activity of VLA-5 to fibronectin. However, only Ha-Ras(Val-12)-, but not R-Ras(Val-38)-induced adhesion was inhibited by wortmannin, which suggests that Ha-Ras(Val-12) is dependent on phosphatidylinositol (PI) 3-kinase on adhesion whereas R-Ras(Val-38) has another PI 3-kinase independent pathway to induce adhesion. The effector loop mutant Ha-Ras(Val-12)E37G, but not Y40C retained the ability to stimulate adhesion of mast cells to fibronectin. Consistently, PI 3-kinase p110delta, predominantly expressed in mast cells, interacted with Ha-Ras(Val-12) E37G, but not Y40C, which was also correlated with the levels of Akt phosphorylation in mast cells. Furthermore, marked adhesion was induced by a membrane-targeted version of p110delta. These results indicate that Ha-Ras(Val-12) activated VLA-5 through PI 3-kinase p110delta. The mutational effects of the R-Ras effector loop region on adhesion were not correlated with PI 3-kinase activities, consistent with our contention that R-Ras has a distinct pathway to modulate avidity of VLA-5.     

Structure of integrin alpha5beta1 in complex with fibronectin

The membrane-distal headpiece of integrins has evolved to specifically bind large extracellular protein ligands, but the molecular architecture of the resulting complexes has not been determined. We used molecular electron microscopy to determine the three-dimensional structure of the ligand-binding headpiece of integrin alpha5beta1 complexed with fragments of its physiological ligand fibronectin. The density map for the unliganded alpha5beta1 headpiece shows a 'closed' conformation similar to that seen in the alphaVbeta3 crystal structure. By contrast, binding to fibronectin induces an 'open' conformation with a dramatic, approximately 80 degrees change in the angle of the hybrid domain of the beta subunit relative to its I-like domain. The fibronectin fragment binds to the interface between the beta-propeller and I-like domains in the integrin headpiece through the RGD-containing module 10, but direct contact of the synergy-region-containing module 9 to integrin is not evident. This finding is corroborated by kinetic analysis of real-time binding data, which shows that the synergy site greatly enhances k(on) but has little effect on the stability or k(off) of the complex.     

A point mutation of integrin beta 1 subunit blocks binding of alpha 5 beta 1 to fibronectin and invasin but not recruitment to adhesion plaques

A point mutation in a highly conserved region of the beta 1 subunit, Asp130 to Ala (D130A) substitution, abrogates the Arg-Gly-Asp (RGD)-dependent binding of alpha 5 beta 1 to fibronectin (FN) without disrupting gross structure or heterodimer assembly. The D130A mutation also interferes with binding to invasin, a ligand that lacks RGD sequence. In spite of the lack of detectable FN binding by alpha 5 beta 1(D130A), it was recruited to adhesion plaques formed on FN by endogenous hamster receptors. Thus, intact ligand binding function is not required for recruitment of alpha 5 beta 1 to adhesion plaques. Overexpression of beta 1(D130A) partially interfered with endogenous alpha 5 beta 1 function, thus defining a dominant negative beta 1 integrin mutation.     

Inhibition of binding of fibronectin to matrix assembly sites by anti- integrin (alpha 5 beta 1) antibodies

Fibroblasts have cell surface sites that mediate assembly of plasma and cellular fibronectin into the extracellular matrix. Cell adhesion to fibronectin can be mediated by the interaction of an integrin (alpha 5 beta 1) with the Arg-Gly-Asp-Ser (RGDS)-containing cell adhesion region of fibronectin. We have attempted to elucidate the role of the alpha 5 beta 1 fibronectin receptor in assembly of fibronectin in matrices. Rat monoclonal antibody mAb 13, which recognizes the integrin beta 1 subunit, completely blocked binding and matrix assembly of 125I-fibronectin as well as binding of the 125I-70-kD amino-terminal fragment of fibronectin (70 kD) to fibroblast cell layers. Fab fragments of the anti-beta 1 antibody were also inhibitory. Antibody mAb 16, which recognizes the integrin alpha 5 subunit, partially blocked binding of 125I-fibronectin and 125I-70-kD. When cell layers were coincubated with fluoresceinated fibronectin and either anti-beta 1 or anti-alpha 5, anti-beta 1 was a more effective inhibitor than anti-alpha 5 of binding of labeled fibronectin to the cell layer. Inhibition of 125I-fibronectin binding by anti-beta 1 IgG occurred within 20 min. Inhibition of 125I-fibronectin binding by anti-beta 1 Fab fragments or IgG could not be overcome with increasing concentrations of fibronectin, suggesting that anti-beta 1 and exogenous fibronectin may not compete for the same binding site. No beta 1-containing integrin bound to immobilized 70 kD. These data indicate that the beta 1 subunit plays an important role in binding and assembly of exogenous fibronectin, perhaps by participation in the organization, regeneration, or cycling of the assembly site rather than by a direct interaction with fibronectin.     

C-terminal opening mimics 'inside-out' activation of integrin alpha5beta1

Integrins are adhesion molecules that convey signals both to and from the cytoplasm across the plasma membrane. In resting cells, integrins in a low affinity state can be activated by 'inside-out signaling', in which signals affecting integrin heterodimer cytoplasmic domains cause a conformational change in the integrin ligand-binding headpiece connected to the membrane by two long, approximately 16 nm stalks. Here we demonstrate a mechanism for conveying a conformational change over the long distance from the plasma membrane to the headpiece. We prepared soluble, alpha5beta1 integrin heterodimer extracellular fragments in which interactions between alpha- and beta-subunit cytoplasmic domains were replaced with an artificial clasp. Release of this C-terminal clasp by specific protease cleavage resulted in an approximately 14 nm separation of the stalks coupled to increased binding to fibronectin. This activation did not require any associated molecules or clustering and was observed with physiological concentrations of divalent cations. These findings suggest that the overall mechanism for integrin inside-out activation involves the spatial separation of the cytoplasmic and/or transmembrane domains.     

Accessibility to the fibronectin synergy site in a 3D matrix regulates engagement of alpha5beta1 versus alphavbeta3 integrin receptors

Cell adhesion and migration on fibronectin (FN) extracellular matrix are mediated by integrin receptors. Integrins alpha5beta1 and alphavbeta3 require the RGD cell-binding sequence in FN, but alpha5beta1 also requires the nearby synergy site for maximal binding. In this study, we investigated how differences in the numbers of RGD or synergy sites within a three-dimensional (3D) FN-rich matrix influence cell adhesion and migration. CHO cell adhesion, spreading, and migration were reduced on 3D chimeric matrix containing FN lacking RGD (FN(RGD-)). Incorporation of FN with mutation of the synergy site (FN(syn-)), however, resulted in selective usage of integrins. CHO cells expressing alpha5beta1 showed decreased interactions with FN(syn-) chimeric matrix. In contrast, the presence of FN(syn-) had no effect on CHOalphavbeta3 cell migration. Interestingly, CHOalpha5/alphavbeta3 cells expressing both integrins selectively used alpha5beta1 for migration on wild type FN matrix but preferred alphavbeta3 for migration on FN(syn-) chimeric matrix. Thus sequestration or exposure of the FN synergy site within a 3D matrix may represent a novel mechanism for regulating cell functions through differential usage of integrin receptors. [Supplementary materials are available for this article. Go to the publisher's online edition of Cell Communication and Adhesion for the following free supplemental resource: a video recording shows migration of HT1080 cells on 3D matrix. HT1080 cells were allowed to attach to the matrix in serum-free DMEM for 2 h. FBS was then added to the medium to a final concentration of 10% and video recording was started. Images were taken every 5 min for 2 h. The video plays at 6 frames/s.].     

Down-regulation of the chicken alpha 5 beta 1 integrin fibronectin receptor during development.

We have characterized the diversity of the chicken beta 1 integrin family and studied the expression of individual receptors during development. The diversity of the beta 1 integrin family was investigated by affinity purifying the beta 1 integrins from a variety of adult and embryonic tissues. These purifications reveal the relative levels of expression and also the differential expression of the alpha subunits in those tissues. Monoclonal antibodies were generated against the prominent 'band 1' of the embryonic chicken integrins and used to characterize the expression of this alpha subunit in embryonic and adult tissues. This alpha subunit is shown to be the chicken homologue of human alpha 5 fibronectin receptor. The chicken alpha 5 beta 1 integrin is the most prominent beta 1 integrin in the embryo and is expressed on the majority of cell types through the day 17 stage. The distribution of this receptor in the embryo closely parallels the distribution of its ligand, fibronectin. In adult tissues, expression of this receptor is greatly diminished relative to the expression of other alpha subunits. The cell type distribution is highly restricted: limited primarily to the vasculature and to connective tissue regions. These studies reveal a prominent role for the alpha 5 beta 1 integrin in embryonic cell types and a down-regulation of this receptor on many cell types during development.     

Fibronectin-binding protein acts as Staphylococcus aureus invasin via fibronectin bridging to integrin alpha5beta1

The ability of Staphylococcus aureus to invade mammalian cells may explain its capacity to colonize mucosa and to persist in tissues after bacteraemia. To date, the underlying molecular mechanisms of cellular invasion by S. aureus are unknown, despite its high prevalence and difficulties in treatment. Here, we show cellular invasion as a novel function for an S. aureus adhesin, previously implicated solely in attachment. S. aureus , but not S. epidermidis , invaded epithelial 293 cells in a temperature- and F-actin-dependent manner. Formaldehyde-fixed and live bacteria were equally invasive, suggesting that no active bacterial process was involved. All clinical S. aureus isolates analysed, but only a subset of laboratory strains, were invasive. Fibronectin-binding proteins (FnBPs) acted as S. aureus invasins, because: (i) FnBP deletion mutants of invasive laboratory strains lost invasiveness; (ii) expression of FnBPs in non-invasive strains conferred invasiveness; and (iii) the soluble isolated fibronectin-binding domain of FnBP (D1–D4) completely blocked invasion. Integrin α₅β₁ served as host cell receptor, which interacted with staphylococcal FnBPs through cellular or soluble fibronectin. FnBP-deficient mutants lost invasiveness for epithelial cells, endothelial cells and fibroblasts. Thus, fibronectin-dependent bridging between S. aureus FnBPs and host cell integrin α₅β₁ is a conserved mechanism for S. aureus invasion of human cells. This may prove useful in developing new therapeutic and vaccine strategies for S. aureus infections.     

Probing for integrin alpha v beta3 binding of RGD peptides using fluorescence polarization

Integrin alpha(v)beta(3) is an adhesion molecule involved in tumor invasion, angiogenesis, and metastasis. There is substantial interest in developing novel agents that bind to integrin alpha(v)beta(3). Here we report the synthesis and characterization of a fluorescent integrin alpha(v)beta(3) probe and its use in a nonradioactive, simple, sensitive fluorescence polarization (FP) assay to quantify binding to integrin alpha(v)beta(3). For assay validation, the FP assay was compared to a cell adhesion assay. In the two assays, probe binding to integrin alpha(v)beta(3) showed a similar dependence on probe concentration. The FP assay was successfully applied to measure the binding affinity to integrin alpha(v)beta(3) of several cyclic peptides containing the Arg-Gly-Asp (RGD) motif. The FP assay we describe here may be appropriate for high-throughput screening for integrin alpha(v)beta(3)-binding ligands used for anti-integrin therapy or noninvasive imaging of integrin expression.     

Distinct ligand binding sites in integrin alpha3beta1 regulate matrix adhesion and cell-cell contact

The integrin alpha3beta1 mediates cellular adhesion to the matrix ligand laminin-5. A second integrin ligand, the urokinase receptor (uPAR), associates with alpha3beta1 via a surface loop within the alpha3 beta-propeller (residues 242-246) but outside the laminin binding region, suggesting that uPAR-integrin interactions could signal differently from matrix engagement. To explore this, alpha3-/- epithelial cells were reconstituted with wild-type (wt) alpha3 or alpha3 with Ala mutations within the uPAR-interacting loop (H245A or R244A). Wt or mutant-bearing cells showed comparable expression and adhesion to laminin-5. Cells expressing wt alpha3 and uPAR dissociated in culture, with increased Src activity, up-regulation of SLUG, and down-regulation of E-cadherin and gamma-catenin. Src kinase inhibition or expression of Src 1-251 restored the epithelial phenotype. The H245A and R244A mutants were unaffected by coexpression of uPAR. We conclude that alpha3beta1 regulates both cell-cell contact and matrix adhesion, but through distinct protein interaction sites within its beta-propeller. These studies reveal an integrin- and Src-dependent pathway for SLUG expression and mesenchymal transition.     

Regulation of alpha5beta1 integrin conformation and function by urokinase receptor binding

Urokinase-type plasminogen activator receptors (uPARs), up-regulated during tumor progression, associate with beta1 integrins, localizing urokinase to sites of cell attachment. Binding of uPAR to the beta-propeller of alpha3beta1 empowers vitronectin adhesion by this integrin. How uPAR modifies other beta1 integrins remains unknown. Using recombinant proteins, we found uPAR directly binds alpha5beta1 and rather than blocking, renders fibronectin (Fn) binding by alpha5beta1 Arg-Gly-Asp (RGD) resistant. This resulted from RGD-independent binding of alpha5beta1-uPAR to Fn type III repeats 12-15 in addition to type III repeats 9-11 bound by alpha5beta1. Suppression of endogenous uPAR by small interfering RNA in tumor cells promoted weaker, RGD-sensitive Fn adhesion and altered overall alpha5beta1 conformation. A beta1 peptide (res 224NLDSPEGGF232) that models near the known alpha-chain uPAR-binding region, or a beta1-chain Ser227Ala point mutation, abrogated effects of uPAR on alpha5beta1. Direct binding and regulation of alpha5beta1 by uPAR implies a modified "bent" integrin conformation can function in an alternative activation state with this and possibly other cis-acting membrane ligands.     

Specific binding of integrin alpha v beta 3 to the fibrinogen gamma and alpha E chain C-terminal domains

Integrin alpha v beta 3, a widely distributed fibrinogen receptor, recognizes the RGD572-574 motif in the alpha chain of human fibrinogen. However, this motif is not conserved in other species, nor is it required for alpha v beta 3-mediated fibrin clot retraction, suggesting that fibrinogen may have other alpha v beta 3 binding sites. Fibrinogen has conserved C-terminal domains in its alpha (E variant), beta, and gamma chains (designated alpha EC, beta C, and gamma C, respectively), but their function in cell adhesion is not known, except that alpha IIb beta 3, a platelet fibrinogen receptor, binds to the gamma C HHLGGAKQAGDV400-411 sequence. Here we used mammalian cells expressing recombinant alpha v beta 3 to show that recombinant alpha EC and gamma C domains expressed in bacteria specifically bind to alpha v beta 3. Interaction between alpha v beta 3 and gamma C or alpha EC is blocked by LM609, a function-blocking anti-alpha v beta 3 mAb, and by RGD peptides. alpha v beta 3 does not require the HHLGGAKQAGDV400-411 sequence of gamma C for binding, and alpha EC does not have such a sequence, indicating that the alpha v beta 3 binding sites are distinct from those of alpha IIb beta 3. A small fragment of gamma C (residues 148-226) supports alpha v beta 3 adhesion, suggesting that an alpha v beta 3 binding site is located within the gamma chain 148-226 region. We have reported that the CYDMKTTC sequence of beta 3 is responsible for the ligand specificity of alpha v beta 3. gamma C and alpha EC do not bind to wild-type alpha v beta 1, but do bind to the alpha v beta 1 mutant (alpha v beta 1-3-1), in which the CYDMKTTC sequence of beta 3 is substituted for the corresponding beta 1 sequence CTSEQNC. This suggests that gamma C and alpha EC contain determinants for fibrinogen's specificity to alpha v beta 3. These results suggest that fibrinogen has potentially significant novel alpha v beta 3 binding sites in gamma C and alpha EC.     

Carbohydrate-carbohydrate binding of ganglioside to integrin alpha(5) modulates alpha(5)beta(1) function

Gangliosides GT1b and GD3, components of keratinocyte membranes, inhibit keratinocyte adhesion to fibronectin. Although ganglioside sialylation is known to be important, the mechanism of inhibition is unknown. Using purified insect recombinant alpha(5) and beta(1) proteins and alpha(5)beta(1) integrin from lysed keratinocyte-derived SCC12 cells, we have shown that GT1b and GD3 inhibit the binding of alpha(5)beta(1) to fibronectin. Co-immunoprecipitation of GT1b and alpha(5)beta(1) from SCC12 cells and direct binding of GT1b and GD3 to affinity-purified alpha(5)beta(1) from SCC12 cells and insect recombinant alpha(5)beta(1), particularly the alpha(5) subunit, further suggest interaction between ganglioside and alpha(5)beta(1). The carbohydrate moieties of integrin appear to be critical since gangliosides are unable to bind deglycosylated forms of alpha(5)beta(1) from SCC12 and insect cells or poorly glycosylated recombinant alpha(5)beta(1) from Escherichia coli cells. The GT1b-alpha(5)beta(1) interaction is inhibited by concanavalin A, suggesting that GT1b binds to mannose structures in alpha(5)beta(1). The preferential binding of GT1b to high mannose rather than reduced mannose ovalbumin further implicates the binding of GT1b to mannose structures. These data provide evidence that highly sialylated gangliosides regulate alpha(5)beta(1)-mediated adhesion of epithelial cells to fibronectin through carbohydrate-carbohydrate interactions between GT1b and the alpha(5) subunit of alpha(5)beta(1) integrin.     

The eighth FIII domain of human fibronectin promotes integrin alpha5beta1 binding via stabilization of the ninth FIII domain

Binding of the extracellular matrix molecule fibronectin to the integrin receptor alpha(5)beta(1) elicits downstream signaling pathways that modulate cell function. Fibronectin-alpha(5)beta(1) interaction occurs via the conserved RGD sequence in the tenth FIII (FIII10) domain of fibronectin. A synergistic site containing the sequence PHSRN in the adjacent FIII9 domain has also been identified. Here we investigate the function of the eighth FIII domain in integrin-mediated cell adhesion using a wide range of methods, including biochemical, biological, and biophysical assays of integrin binding, cell adhesion, and protein denaturation. Mutation of the FIII9 synergistic site (PHSRN to PHAAA) in FIII9-10 reduced the binding activity for integrin alpha(5)beta(1) to levels observed for FIII10 alone, but the corresponding mutant in FIII8-9-10 showed no loss of binding activity. Cell adhesion assays also demonstrated enhanced functional activity of constructs containing FIII8. Equilibrium chemical denaturation studies indicated that FIII8 confers conformational stability upon FIII9, but only if the exposed loops, PHSRN and VKNEED on FIII9 and FIII8, respectively, are intact. These results demonstrate that the loss of integrin binding activity, observed upon alteration of the PHSRN synergistic site of FIII9-10, results partly from a loss of conformational stability of FIII9. Our data suggest a mechanism for integrin alpha(5)beta(1)-fibronectin interaction, which in addition to the primary RGD binding event, involves a conformation-sensitive scanning by the integrin for accessible sites on the ligand, whereupon full activation of downstream signaling occurs.     

Fibrinogen binds to integrin alpha(5)beta(1) via the carboxyl-terminal RGD site of the Aalpha-chain

Fibrinogen interactions with vascular endothelial cells are implicated in various physiological and pathophysiological events, including angiogenesis and wound healing. We have shown previously that integrin alpha(5)beta(1) is a fibrinogen receptor on endothelial cells [Suehiro, K., Gailit, J., and Plow, E.F. (1997) J. Biol. Chem. 272, 5360-5366]. In the present study, we have characterized fibrinogen interactions with purified alpha(5)beta(1) and have identified the recognition sequence in fibrinogen for alpha(5)beta(1). The binding of fibrinogen to immobilized alpha(5)beta(1) was selectively supported by Mn(2+). Fibrinogen bound to purified alpha(5)beta(1) in a time-dependent, specific, and saturable manner in the presence of Mn(2+), and the binding was blocked completely by Arg-Gly-Asp (RGD)-containing peptides and by anti-alpha(5) and anti-alpha(5)beta(1) monoclonal antibodies. A monoclonal antibody directed to the C-terminal RGD sequence at Aalpha572-574 significantly inhibited the binding of fibrinogen to alpha(5)beta(1), whereas monoclonal antibodies directed to either the N-terminal RGD sequence at Aalpha95-97 or the C-terminus of the gamma-chain did not. Furthermore, substituting RGE for RGD at position Aalpha95-97 in recombinant fibrinogen had a minimal effect on binding, whereas substituting RGE for RGD at position Aalpha572-574 decreased binding by 90%. These results demonstrate that the C-terminal RGD sequence at Aalpha572-574 is required for the interaction of fibrinogen with alpha(5)beta(1).     

Affinity modulation of integrin alpha 5 beta 1: regulation of the functional response by soluble fibronectin

We report that a beta 1 integrin (alpha 5 beta 1) can exist in different affinity states for its soluble ligand, fibronectin. The alpha 5 beta 1 expressed by the erythroleukemic cell line K562 binds soluble fibronectin with low affinity (Kd > 1 microM), but is induced to bind it with 20-fold higher affinity (Kd-54 nM) in the presence of the anti-beta 1 mAb 8A2. This activation seems to be due to direct antibody-induced change in the receptor that does not require intracellular signaling, and is a plausible basis for the 8A2-induced enhancement of beta 1-dependent adhesion to fibronectin and other immobilized ligands (Kovach, N. L., T. M. Carlos, E. Yee, and J. M. Harlan. 1992. J. Cell Biol. 116: 499-509). Fab fragments of 8A2 bind with higher affinity to alpha 5 beta 1 receptor that is occupied by the GRG-DSP peptide ligand suggesting that the antibody functions by stabilizing a high affinity (occupied) conformer of the receptor. A functional consequence of the affinity modulation is that soluble fibronectin (at physiological concentrations) occupies the high affinity receptors, and so becomes an effective inhibitor of adhesion to immobilized fibronectin. In contrast, the majority of low affinity receptors remain unoccupied and are still to mediate cellular adhesion.     

RGD-independent binding of integrin alpha9beta1 to the ADAM-12 and -15 disintegrin domains mediates cell-cell interaction

ADAMs (a disintegrin and metalloproteases) mediate several important processes (e.g. tumor necrosis factor-alpha release, fertilization, and myoblast fusion). The ADAM disintegrin domains generally lack RGD motifs, and their receptors are virtually unknown. Here we show that integrin alpha(9)beta(1) specifically interacts with the recombinant ADAMs-12 and -15 disintegrin domains in an RGD-independent manner. We also show that interaction between ADAM-12 or -15 and alpha(9)beta(1) supports cell-cell interaction. Interestingly, the cation requirement and integrin activation status required for alpha(9)beta(1)/ADAM-mediated cell adhesion and cell-cell interaction is similar to those required for known integrin-extracellular matrix interaction. These results are quite different from recent reports that ADAM-2/alpha(6)beta(1) interaction during sperm/egg fusion requires an integrin activation status distinct from that for extracellular matrix interaction. These results suggest that alpha(9)beta(1) may be a major receptor for ADAMs that lack RGD motifs, and that, considering a wide distribution of ADAMs and alpha(9)beta(1), this interaction may be of potential biological and pathological significance.     

Recombinant human laminin-5 domains. Effects of heterotrimerization, proteolytic processing, and N-glycosylation on alpha3beta1 integrin binding

Human laminin-5 fragments, comprising the heterotrimeric C-terminal part of the coiled-coil (CC) domain and the globular (G) domain with defined numbers of LG subdomains, were produced recombinantly. The alpha3' chain with all five LG subdomains was processed proteolytically in a manner similar to the wild-type alpha3 chain. Conditions were established under which the proteolytic cleavage was either inhibited in cell culture or was brought to completion in vitro. The shorter chains of the laminin-5CCG molecule, beta3'and gamma2', produced in a bacterial expression system associated into heterodimers, which then combined spontaneously with the alpha3' chains in vitro to form heterotrimeric laminin-5CCG molecules. Only heterotrimeric laminin-5CCG with at least subdomains LG1-3, but not the single chains, supported binding of soluble alpha3beta1 integrin, proving the coiled-coil domain of laminin-5 to be essential for its interaction with alpha3beta1 integrin. The N-glycosylation sites in wild-type alpha3 chain were mapped by mass spectrometry. Their location in a structural model of the LG domain suggested that large regions on both faces of the LG1 and LG2 domains are inaccessible by other proteins. However, neither heterotrimerization nor alpha3beta1 integrin binding was affected by the loss of N-linked glycoconjugates. After the proteolytic cleavage between the subdomains LG3 and LG4, the LG4-5 tandem domain dissociated from the rest of the G domain. Further, the laminin-5CCG molecule with the alpha3'LG1-3 chain showed an increased binding affinity for alpha3beta1 integrin, indicating that proteolytic processing of laminin-5 influences its interaction with alpha3beta1 integrin.     

The RGD motif and the C-terminal segment of proprotein convertase 1 are critical for its cellular trafficking but not for its intracellular binding to integrin alpha5beta1

Cellular trafficking of subtilisin/kexin-like precursor convertases (PCs) may be regulated by a number of motifs, some of which are present within the P-domain and in the C-terminal sequence. Six of the seven known PCs contain a conserved RGD sequence within the P domain. In order to investigate the functional importance of this motif, we generated mutants of PC1 that contain a Myc tag epitope inserted between the prosegment and the catalytic subunit. Cellular expression of vaccinia virus recombinants revealed that this tag did not seem to influence the autocatalytic conversion of proPC1 into PC1 or its bioactivity. The two PC1 variants produced possess either the wild type RGD sequence or its RGE mutant. Stable transfectants of these variants in AtT20 cells revealed that similar to the wild type enzyme, PC1-RGD-Myc is sorted to secretory granules. In contrast, PC1-RGE-Myc exits the cell via the constitutive secretory pathway. In vitro, a 14-mer peptide spanning the RGD sequence of PC1, but not its RGE mutant, binds to cell surface vitronectin-binding integrins of Chinese hamster ovary cells. However, within the endoplasmic reticulum and in an RGD-independent fashion, integrin alpha5beta1 associates primarily with the zymogens proPC1, proPC1-DeltaC (missing the C-terminal 137 residues), as well as proPC2. Thus, the observed discrimination between the secretion routes of PC1-RGD and PC1-RGE does not implicate integrins such as alpha5beta1.