Insights into binding modes of tumstatin peptide T7 with the active site of αvβ3 integrin

Through interaction with the active site of α_vβ₃ integrin, tumstatin T7 peptide inhibits both the angiogenesis and the proliferation of tumour cells. In this work, docking in conjunction with molecular dynamics simulation was used to explore the binding mode of T7 peptide and α_vβ₃ integrin. The binding mode analysis revealed that the residues Ser⁹⁰, Arg⁹¹, Asp⁹³ and Tyr⁹⁴ in T7 peptide, and (α)-Asp¹⁵⁰, (β)-Arg²¹⁴, (α)-Asp¹⁴⁸ (α)-Gln²¹⁴ and (α)-Glu¹²³ in the active site of α_vβ₃ integrin were most likely the key interaction sites. The hydroxyl of Tyr⁹⁴ coordinates α_vβ₃ via a Mn²⁺ ion, revealing that Mn²⁺ is also an important factor for the interaction. The insight into these key interaction sites not only suggests that the active site of α_vβ₃ integrin can bind to molecules through multiple binding mechanisms, but also provides some useful information for structure-based drug design.     

Exploring new near-infrared fluorescent disulfide-based cyclic RGD peptide analogs for potential integrin-targeted optical imaging

We synthesized disulfide-based cyclic RGD pentapeptides bearing a near-infrared fluorescent dye (cypate), represented by cypate-c(CRGDC) (1) for integrin-targeted optical imaging. These compounds were compared with the traditional lactam-based cyclic RGD counterpart, cypate-c(RGDfK) (2). Molecular modeling suggests that the binding affinity of 2 to integrin α_vβ₃ is an order of magnitude higher than that of 1. This was confirmed experimentally, which further showed that substitution of Gly with Pro, Val and Tyr in 1 remarkably hampered the α_vβ₃ binding. Interestingly, cell microscopy with A549 cells showed that 1 exhibited higher cellular staining than 2. These results indicate that factors other than receptor binding affinity to α_vβ₃ dimeric proteins mediate cellular uptake. Consequently, 1 and its analogs may serve as valuable molecular probes for investigating the selectivity and specificity of integrin targeting by optical imaging.     

Blockade of osteoclast-mediated bone resorption through occupancy of the integrin receptor: A potential approach to the therapy of osteoporosis

Bone resorption requires the tight attachment of the bone-resorbing cells, the osteoclasts, to the bone mineralized matric. Integrins, a class of cell surface adhesion glycoproteins, play a key role in the attachment process. Most integrins bind to their ligands via the arginyl-glycyl-aspartyl (R-G-D) tripeptide present within the ligand sequence. The interaction between integrins and ligaands results in bidirectional transfer of signals across the plasma Membrane. Tyrosine phosphorylaation occurs within cells as a result of integrin binding to ligaands and probably plays a role in the formation of the osteoclast clear zone, a specialized region of the osteoclast membraane maintained by cytoskeletal structure and involved in bone resorption. Human osteoclasts express α₂β₃ and α_vβ₃ integrins on their surface. Such signaling may also lead to “inside-out” effects, like increased expression of integrin receptors on the cell surface, or increased affinity of the integrin to its ligand. The α_vβ₃ integrin, a vitronectin receptor, plays an essential role in bone resorption. Antibodies to this integrin and short synthetic RGD-containing peptides are able to block bone resorption in vitro. Echistatin, an RGD-containing protein from a snake venom, binds to the α_vβ₃ integrin and blocks bone resssorption both in vitro and in vivo. Peptides containing the RGD motif are potential competitive “antagonists” a of the osteoclast integrins and may have utility in the blockage of bone resorption. Agonists may be identified by stimulation of intracellularsignaling. In theory, tissue spacificity can be achieved by (1) introducing specific amino acids in positions adjacent to the RGD sequence, (2) identifying non-RGD integrin binding domains, or (3) modulating the affinity of integrins for their endogenous ligands.     

Engineered cystine knot peptides that bind αvβ3, αvβ5, and α5β1 integrins with low‐nanomolar affinity

There is a critical need for compounds that target cell surface integrin receptors for applications in cancer therapy and diagnosis. We used directed evolution to engineer the Ecballium elaterium trypsin inhibitor (EETI‐II), a knottin peptide from the squash family of protease inhibitors, as a new class of integrin‐binding agents. We generated yeast‐displayed libraries of EETI‐II by substituting its 6‐amino acid trypsin binding loop with 11‐amino acid loops containing the Arg‐Gly‐Asp integrin binding motif and randomized flanking residues. These libraries were screened in a high‐throughput manner by fluorescence‐activated cell sorting to identify mutants that bound to α_vβ₃ integrin. Select peptides were synthesized and were shown to compete for natural ligand binding to integrin receptors expressed on the surface of U87MG glioblastoma cells with half‐maximal inhibitory concentration values of 10–30 nM. Receptor specificity assays demonstrated that engineered knottin peptides bind to both α_vβ₃ and α_vβ₅ integrins with high affinity. Interestingly, we also discovered a peptide that binds with high affinity to α_vβ₃, α_vβ₅, and α₅β₁ integrins. This finding has important clinical implications because all three of these receptors can be coexpressed on tumors. In addition, we showed that engineered knottin peptides inhibit tumor cell adhesion to the extracellular matrix protein vitronectin, and in some cases fibronectin, depending on their integrin binding specificity. Collectively, these data validate EETI‐II as a scaffold for protein engineering, and highlight the development of unique integrin‐binding peptides with potential for translational applications in cancer. Proteins 2009. © 2009 Wiley‐Liss, Inc.     

Vitronectin decreases microvascular endothelial cell apoptosis

Angiogenesis after tissue injury occurs in a matrix environment consisting of fibrin, fibronectin, and vitronectin as the major extracellular matrix (ECM) constituents. ECM-integrin interactions is critical for angiogenesis and failure to bind a ligand to certain integrin receptors (α_vβ₃ or α_vβ₅) inhibits angiogenesis. The ligand that binds to α_vβ₃ or α_vβ₅ integrin receptors during microvascular angiogenesis has not been identified. Our hypothesis is that provisional matrix molecules provide the environmental context cues to microvascular endothelial cells and promote angiogenesis by decreased programmed cell death. Using cultured human microvascular endothelial cells, we show that vitronectin, in comparison to growth on alternative provisional matrix molecules (fibronectin, fibrinogen plus thrombin), collagen I, and basement membrane molecules (collagen IV), significantly reduces microvascular endothelial cell death in vitro. This reduction was observed using morphologic criteria, TdT-mediated dUTP nick end labeling (TUNEL) assay, histone release into the cytoplasm, and thymidine release into the supernatant. Though our data confirm that vitronectin may bind to more than one integrin receptor to reduce MEC apoptosis, binding to the α_v component appears to be the critical integrin subcomponent for reducing apoptosis. J. Cell. Physiol. 175:149–155, 1998. © 1998 Wiley-Liss, Inc.     

Cyclic RGD peptidomimetics containing 4- and 5-amino-cyclopropane pipecolic acid (CPA) templates as dual αVβ3 and α5β1 integrin ligands

4-Amino- and 5-amino-cyclopropane pipecolic acids (CPAs) with cis relative stereochemistry between the carboxylic and amino groups were used as templates to prepare cyclic peptidomimetics containing the RGD sequence as possible integrin binders. The peptidomimetic c(RGD8) built on the 5-amino-CPA displayed an inhibition activity (IC₅₀ = 2.4 nM) toward the α_vβ₃ integrin receptor (expressed in M21 human melanoma cell line) comparable to that of the most potent antagonists reported so far and it was ten times more active than the corresponding antagonist c(RGD7) derived from the isomeric 4-amino-CPA. Both compounds were also nanomolar ligands of the α₅β₁ integrin (expressed in human erythroleukemia cell line K562). These results suggest that the CPA-derived templates are suitable for the preparation of dual α_vβ₃ and α₅β₁ ligands to suppress integrin-mediated events as well as for targeted drug delivery in cancer therapy.     

Engineered Cystine-Knot Peptides that Bind αvβ3 Integrin with Antibody-Like Affinities

The α_vβ₃ integrin receptor is an important cancer target due to its overexpression on many solid tumors and the tumor neovasculature and its role in metastasis and angiogenesis. We used a truncated form of the Agouti-related protein (AgRP), a 4-kDa cystine-knot peptide with four disulfide bonds and four solvent-exposed loops, as a scaffold for engineering peptides that bound to α_vβ₃ integrins with high affinity and specificity. A yeast-displayed cystine-knot peptide library was generated by substituting a six amino acid loop of AgRP with a nine amino acid loop containing the Arg-Gly-Asp integrin recognition motif and randomized flanking residues. Mutant cystine-knot peptides were screened in a high-throughput manner by fluorescence-activated cell sorting to identify clones with high affinity to detergent-solubilized α_vβ₃ integrin receptor. Select integrin-binding peptides were expressed recombinantly in Pichia pastoris and were tested for their ability to bind to human cancer cells expressing various integrin receptors. These studies showed that the engineered AgRP peptides bound to cells expressing α_vβ₃ integrins with affinities ranging from 15 nM to 780 pM. Furthermore, the engineered peptides were shown to bind specifically to α_vβ₃ integrins and had only minimal or no binding to α_vβ₅, α₅β₁, and α_iibβ₃ integrins. The engineered AgRP peptides were also shown to inhibit cell adhesion to the extracellular matrix protein vitronectin, which is a naturally occurring ligand for α_vβ₃ and other integrins. Next, to evaluate whether the other three loops of AgRP could modulate integrin specificity, we made second-generation libraries by individually randomizing these loops in one of the high-affinity integrin-binding variants. Screening of these loop-randomized libraries against α_vβ₃ integrins resulted in peptides that retained high affinities for α_vβ₃ and had increased specificities for α_vβ₃ over α_iibβ₃ integrins. Collectively, these data validate AgRP as a scaffold for protein engineering and demonstrate that modification of a single loop can lead to AgRP-based peptides with antibody-like affinities for their target.     

Pharmacological properties and predicted binding mode of arylmethylene quinuclidine-like derivatives at the α3β4 nicotinic acetylcholine receptor (nAChR)

We have carried out a pharmacological evaluation of arylmethylene quinuclidine derivatives interactions with human α3β4 nAChRs subtype, using cell-based receptor binding, calcium-influx, electrophysiological patch-clamp assays and molecular modeling techniques. We have found that the compounds bind competitively to the α3β4 receptor with micromolar affinities and some of the compounds behave as non-competitive antagonists (compounds 1, 2 and 3), displaying submicromolar IC₅₀ values. These evidences suggest a mixed mode of action for these compounds, having interactions at the orthosteric site and more pronounced interactions at an allosteric site to block agonist effects. One of the compounds, 1-benzyl-3-(diphenylmethylene)-1-azoniabicyclo[2.2.2]octane chloride (compound 3), exhibited poorly reversible use-dependent block of α3β4 channels. We also found that removal of a phenyl group from compound 1 confers a partial agonism to the derived analog (compound 6). Introducing a hydrogen-bond acceptor into the 3-benzylidene quinuclidine derivative (compound 7) increases agonism potency at the α3β4 receptor subtype. Docking into the orthosteric binding site of a α3β4 protein structure derived by comparative modeling accurately predicted the experimentally-observed trend in binding affinity. Results supported the notion that binding requires a hydrogen bond formation between the ligand basic nitrogen and the backbone carbonyl oxygen atom of the conserved Trp-149.     

Localization of Urokinase Type Plasminogen Activator to Focal Adhesions Requires Ligation of Vitronectin Integrin Receptors

Previous studies have shown that the adhesion protein, vitronectin, directs the localization of urokinase-type plasminogen activator (uPA) to areas of cell-substrate adhesion, where uPA is thought to regulate cell migration as well as pericellular proteolysis. In the present study, HT-1080 cell lines expressing either wild-type vitronectin or vitronectin containing a single amino-acid substitution in the integrin binding domain were used to assess whether ligation of the α_vβT₅ integrin was required for uPA localization to focal adhesions. The synthesis of wild-type vitronectin by HT-1080 cells adherent to either collagen or fibronectin resulted in the redistribution of both the α_vβT₅ integrin as well as uPA to focal adhesion structures. In contrast, cells synthesizing mutant vitronectin, containing the amino-acid substitution in the integrin binding domain, were unable to direct the redistribution of either α_vβT₅ or uPA to focal adhesions. Recombinant forms of wild-type and mutant vitronectin were prepared in a baculovirus system and compared for their ability to direct the redistribution of vitronectin integrin receptors as well as uPA on human skin fibroblasts. In the absence of vitronectin, fibroblast cells adherent to fibronectin assemble focal adhesions which contain the βT₁ integrin but do not contain uPA. Addition of recombinant wild-type, but not mutant, vitronectin to fibroblasts adherent to fibronectin resulted in the redistribution of α_vβT₃, α_vβT₅, and uPA into focal adhesions. However, when cells were plated directly onto antibodies directed against either the α_vβT₃ or α_vβT₅ integrins, uPA was not localized on the cell surface. These data indicate that ligation of vitronectin integrin receptors is necessary but not sufficient for the localization of uPA to areas of cell-matrix adhesion, and suggest that vitronectin may promote cell migration by recruiting vitronectin integrin receptors and components of the plasminogen activator system to areas of cell matrix contact.     

An acidic loop within the human soluble CD23 protein may direct the interaction between sCD23 and the αXβ2 integrin

CD23 is involved in a myriad of immune reactions. It is not only a receptor for IgE, but also functions in the regulation of IgE synthesis, isotype switching in B cells, and induction of the inflammatory response. These effector functions of CD23 arise through its interaction with another leukocyte-specific cell surface receptor – the β₂ integrin subfamily. It has been shown that CD23 is also capable of interacting with the β₃ and β₅ integrin β-subunit of integrins via a basic RKC motif in a metal cation-independent fashion. In this study the interaction was probed for whether or not the RKC motif governs the interaction between CD23 and the α_Xβ₂ integrin as well. This was done by performing bioinformatic docking predictions between CD23 and α_Xβ₂ integrin αI domain and SPR spectroscopy analysis of the interaction. This revealed that in the absence of cations, the RKC motif is involved in interaction with the integrin αI domain. However, in the presence of divalent metal cations the interaction showed the involvement of a novel acidic motif within the CD23 protein. This same pattern of interaction was seen in docking predictions between CD23 and the β₃I-like domain. This study thus presents an alternative site as a possible contributor to the CD23-integrin interaction exhibiting cation-dependence.     

Synthesis and initial evaluation of novel,non-peptidic antagonists of the αv-integrins αvβ3 and αvβ5

The discovery, synthesis and preliminary SAR of a novel class of non-peptidic antagonists of the α_v-integrins α_vβ₃ and α_vβ₅ is described. High-throughput screening of an extensive series of ECLiPS? compound libraries led to the identification of compound 1 as a dual inhibitor of the α_v-integrins α_vβ₃ and α_vβ₅. Optimization of compound 1 involving, in part, introduction of two novel constraints led to the discovery of compounds 15a and 15b with reduced PSA and much improved potency for both the α_vβ₃ and α_vβ₅ integrins. Compounds 15a and 15b were shown to have promising activity in functional cellular assays and compound 15a also exhibited a promising Caco-2 permeability profile.     

Multiple catalytic aldolase antibodies suitable for chemical programming

Chemical programming of nine murine antibodies with catalytic aldolase activity was examined using compounds, equipped with diketone or pro-vinyl ketone linkers that inhibit integrin adhesion receptor functions. The results showed that most Abs were programmed using the diketone compounds in a manner similar to previously reported catalytic antibody 38C2. On the other hand, only those antibodies, which catalyzed the retro aldol reaction of the pro-vinyl ketone linkers efficiently, were programmed. Conjugated to integrin targeting compounds, at least three new antibodies, including 84G3, 85H6, and 90G8, exhibited high specific binding to human tumor cells expressing integrin α_vβ_3.     

The matricellular protein CCN5 regulates podosome function via interaction with integrin αvβ3

CCN proteins play crucial roles in cell motility, matrix turnover, and proliferation. In particular, CCN5 plays a role in cell motility and proliferation in several cell types; however, no functional binding proteins for CCN5 have been identified. In this study we report that CCN5 binds to the cell surface receptor integrin α_vβ₃ in vascular smooth muscle cells. Furthermore, this interaction takes place in podosomes, organelles known to degrade matrix and mediate motility. We show that CCN5 regulates the ability of podosomes to degrade matrix, but does not affect podosome formation. The level of CCN5 present in a podosome negatively correlates with its ability to degrade matrix. Conversely, knockdown of CCN5 greatly enhances the matrix-degrading ability of podosomes. These findings suggest that the antimotility effects of CCN5 may be mediated through the direct interaction of CCN5 and integrin α_vβ₃ in podosomes and the concomitant suppression of matrix degradation that is required for cell migration.     

In vitro inhibition of mumps virus by retinoids

Background

Foot-and-mouth disease virus (FMDV) initiates infection via recognition of one of at least four cell-surface integrin molecules α_vβ₁, α_vβ₃, α_vβ₆, or α_vβ₈ by a highly conserved Arg-Gly-Asp (RGD) amino acid sequence motif located in the G-H loop of VP1. Within the animal host, the α_vβ₆ interaction is believed to be the most relevant. Sub-neutralizing levels of soluble secreted α_vβ₆ (ssα_vβ₆) was used as a selective pressure during passages in vitro to explore the plasticity of that interaction.

Results

Genetically stable soluble integrin resistant (SIR) FMDV mutants derived from A24 Cruzeiro were selected after just 3 passages in cell culture in the presence of sub-neutralizing levels of ssα_vβ₆. SIR mutants were characterized by: replication on selective cell lines, plaque morphology, relative sensitivity to ssα_vβ₆ neutralization, relative ability to utilize α_vβ₆ for infection, as well as sequence and structural changes. All SIR mutants maintained an affinity for α_vβ₆. Some developed the ability to attach to cells expressing heparan sulfate (HS) proteoglycan, while others appear to have developed affinity for a still unknown third receptor. Two classes of SIR mutants were selected that were highly or moderately resistant to neutralization by ssα_vβ₆. Highly resistant mutants displayed a G145D substitution (RGD to RDD), while moderately resistant viruses exhibited a L150P/R substitution at the conserved RGD + 4 position. VP1 G-H loop homology models for the A-type SIR mutants illustrated potential structural changes within the integrin-binding motif by these 2 groups of mutations. Treatment of O1 Campos with ssα_vβ₆ resulted in 3 SIR mutants with a positively charged VP3 mutation allowing for HS binding.

Conclusions

These findings illustrate how FMDV particles rapidly gain resistance to soluble receptor prophylactic measures in vitro. Two different serotypes developed distinct capsid mutations to circumvent the presence of sub-neutralizing levels of the soluble cognate receptor, all of which resulted in a modified receptor tropism that expanded the cell types susceptible to FMDV. The identification of some of these adaptive mutations in known FMDV isolates suggests these findings have implications beyond the cell culture system explored in these studies.     

Site‐specific inhibition of integrin αvβ3‐vitronectin association by a ser‐asp‐val sequence through an Arg‐Gly‐Asp‐binding site of the integrin

A functional proteomic technology using protein chip and molecular simulation was used to demonstrate a novel biomolecular interaction between P11, a peptide containing the Ser‐Asp‐Val (SDV) sequence and integrin αvβ3. P11 (HSDVHK) is a novel antagonistic peptide of integrin αvβ3 screened from hexapeptide library through protein chip system. An in silico docking study and competitive protein chip assay revealed that the SDV sequence of P11 is able to create a stable inhibitory complex onto the vitronectin‐binding site of integrin αvβ3. The Arg‐Gly‐Asp (RGD)‐binding site recognition by P11 was site specific because the P11 was inactive for the complex formation of a denatured form of integrin–vitronectin. P11 showed a strong antagonism against αvβ3‐GRGDSP interaction with an IC₅₀ value of 25.72±3.34 nM, whereas the value of GRGDSP peptide was 1968.73±444.32 nM. The binding‐free energies calculated from the docking simulations for each P11 and RGD peptide were ?3.99 and ?3.10 kcal/mol, respectively. The free energy difference between P11 and RGD corresponds to approximately a 4.5‐fold lower K_i value for the P11 than the RGD peptide. The binding orientation of the docked P11 was similar to the crystal structure of the RGD in αvβ3. The analyzed docked poses suggest that a divalent metal–ion coordination was a common driving force for the formation of both SDV/αvβ3 and RGD/αvβ3 complexes. This is the first report on the specific recognition of the RGD‐binding site of αvβ3 by a non‐RGD containing peptide using a computer‐assisted proteomic approach.     

The effects of estrogen,its antagonist ICI 182, 780, and interferon-tau on the expression of estrogen receptors and integrin alphaV beta 3 on cycle day 16 in bovine endometrium

We have shown previously that downregulation of intercaruncular stromal integrin α_vβ₃ in bovine endometrium on day 16 of the estrous cycle coincided with the antibody recognition of estrogen receptors (ER) in the luminal epithelium. In pregnancy, these changes were not observed. Our hypothesis was that on day 16 of the estrous cycle, estrogen from the dominant follicle causes a reduction in integrin α_vβ₃ and affects ERα in the luminal epithelium. The pregnancy recognition protein, interferon-τ (IFN-τ), may prevent downregulation of integrin α_vβ₃ and suppress ERα expression in the luminal epithelium. On days 14 to 16, heifers received uterine infusions of the anti-estrogen ICI 182, 780, estradiol 17β, IFN-τ or the saline control. On day 16, reproductive tracts were collected for analysis of integrin α_vβ₃ and ERα. Estrogen receptor α immunoreactivity was largely restricted to the luminal epithelium in control animals. Using anti-ERα recognizing the amino terminus, estrogen-treated animals showed reactivity in the stroma, shallow and deep glands and myometrium as is typical of estrus, whereas ICI 182, 870 treated heifers showed little or no reactivity. In contrast, carboxyl terminus-directed antibodies showed a widespread distribution of ERα with reactivity detected in the uterine epithelium, stroma and myometrium of both estrogen and ICI 182, 780 treated animals. Heifers treated with IFN-τ had low ERα reactivity overall. Control and IFN-τ treated heifers had lower intercaruncular stromal expression of integrin α_vβ₃ in comparison to estrogen and ICI 182, 780 treatments. Overall, the results suggest that on day 16 of the estrous cycle, estrogen effects on integrin α_vβ₃ are indirect and do not directly involve ERα in the luminal epithelium. During pregnancy, interferon-tau may block ERα in the luminal epithelium but likely does not rescue integrin α_vβ₃ expression.     

Morpholine-based RGD-cyclopentapeptides as αvβ3/αvβ5 integrin ligands: Role of configuration towards receptor binding affinity

Two c[RGDfX] cyclopeptides, having either l- or d-morpholine-3-COOH (Mor) as the X amino acid were developed as ligands for α_vβ₃/α_vβ₅ integrins. Biological assays showed only d-Mor-containing cyclopentapeptide capable to bind α_vβ₃ integrin with a low nanomolar affinity according to a two-site model, thus revealing a connection between the configuration of Mor and the preferred binding to α_vβ₃ integrin. Conformational analysis showed different structural preferences for the two peptides induced by the two enantiomeric cyclic amino acids, suggesting a role of the stereochemistry of Mor on the overall peptide conformation and on the presentation of the pharmacophoric Arg and Asp side chains.     

αvβ5 Integrin is Localized at Focal Contacts by HT-1080 Fibrosarcoma Cells and Human Skin Fibroblasts Attached to Vitronectin

In this study we characterized α_vβ₅ integrin on HT-1080 fibrosarcoma cells. First, α_vβ₅ integrin was immunoprecipitated by ¹²⁵I-surface labeled HT-1080 cells using a polyclonal antibody specific for β₅ subunit (cytoplasmic domain). A heterodimer consisting of a β₅-chain running at 100 kD (reduced) and 90 kD (non-reduced) associated with an α-chain 145 kD (non-reduced) and 125 kD (reduced) was obtained by SDS-PAGE and autoradiography. By double-immunofluorescence labeling, we then investigated α_vβ₅ distribution on HT-1080 cells. Upon staining with anti-β₅ subunit antibody, α_vβ₅ was detected in focal contacts on cells attached to vitronectin (vn), co-localizing with vinculin at the end of actin filaments. Comparative analysis of α_vβ₅ and α_vβ₃ showed that both receptors can occupy the same focal contact, although on the same cell mostly they are clustered in independent focal contacts. Focal distribution of α_vβ₅ was also found on normal human fibroblasts attached to vn, suggesting that this is not a specific feature of HT-1080 cells. Finally, we investigated the role of α_vβ₅ and α_vβ₃ integrins in mediating HT-1080 cell adhesion to vn. Inhibition studies using antibodies with function-blocking activity to α_vβ₅ and α_vβ₃ suggest a primary role of α_vβ₅ to support cell adhesion, with a weak contribute of α_vβ₃. Their activity can be modulated by divalent cations. Our results provide the first evidence of focal distribution of α_vβ₅ integrin on cells attached to vn.     

The effect of differentiation inducers on the integrin expression of K562 erythroleukemia cells.

We studied the effects of differentiation-inducers on the integrin profile and adhesive properties of K562 leukemia cells. The fibronectin (Fn) receptor integrin, α₅β₁, was the only integrin expressed in suspension cultured K562 cells. When the cells were exposed to 12-O-tetradecanoylphorbol-13-acetate (TPA) immunoreactivity for the β₁ integrin subunit was slightly enhanced. TPA exposure also induced the appearance of the α₂, α₃, α_v and β₃ integrin subunits, but the platelet integrin subunit α_IIb was not detected. On the other hand, hemin chloride-induced erythroid differentiation of K562 cells diminished the expression of the α₅β₁ integrin on the surface of the cells. Adhesion experiments with TPA-exposed K562 cells indicated that although the adherence to the extracellular matrix (ECM) proteins as a rule was low a few cells spread on these proteins. The present results specify the effects of differentiation inducers on the integrin profile of K562 cells and excludes the comprehension that TPA would induce expression of the platelet integrin α_IIb on their surface. Our results also show, that an increased expression of a certain integrin does not necessarily lead to a comparable adhesion ability on its ligand in vitro.     

Characterisation of α3β1 and αvβ3 integrin N-oligosaccharides in metastatic melanoma WM9 and WM239 cell lines

It is well documented that glycan synthesis is altered in some pathological processes, including cancer. The most frequently observed alterations during tumourigenesis are extensive expression of β1,6-branched complex type N-glycans, the presence of poly-N-acetyllactosamine structures, and high sialylation of cell surface glycoproteins. This study investigated two integrins, α₃β₁ and α_vβ₃, whose expression is closely related to cancer progression. Their oligosaccharide structures in two metastatic melanoma cell lines (WM9, WM239) were analysed with the use of matrix-assisted laser desorption ionisation mass spectrometry. Both examined integrins possessed heavily sialylated and fucosylated glycans, with β1,6-branches and short polylactosamine chains. In WM9 cells, α₃β₁ integrin was more variously glycosylated than α_vβ₃; in WM239 cells the situation was the reverse. Functional studies (wound healing and ELISA integrin binding assays) revealed that the N-oligosaccharide component of the tested integrins influenced melanoma cell migration on vitronectin and α₃β₁ integrin binding to laminin-5. Additionally, more variously glycosylated integrins exerted a stronger influence on these parameters. To the best of our knowledge, this is the first report concerning structural characterisation of α_vβ₃ integrin glycans in melanoma or in any cancer cells.