The expression of α2β1 integrin and α smooth muscle actin in fibroblasts grown on collagen

The maturation of connective tissue involves the organization of collagen fibres by resident fibroblasts. Fibroblast attachment to collagen has been demonstrated to involve cell surface receptors, integrins of the β₁ family. Integrins are associated with cytoplasmic actin of microfilaments either directly or through focal adhesions. The major actin isoform of fibroblast microfilaments is β actin and to a lesser extent α smooth muscle (α SM) actin. Cultured human dermal fibroblasts derived from adult dermis, newborn foreskin or keloid scar were grown on either uncoated or collagen-coated surfaces. The expression and synthesis of both α₂β₁ integrin and α SM actin were followed by immunohistology and immunoprecipitation. Fibroblasts on uncoated surfaces expressed little α₂β₁ integrin on their surface, while 20 per cent of them demonstrated α SM actin within microfilaments. Fibroblasts grown on a collagen-coated surface minimally expressed α SM actin in microfilament structures and a majority of the cells were positive for α₂β₁ integrin on their membranes. Using [³⁵S]-methionine incorporation and immunoprecipitation, it was shown that fibroblasts grown in uncoated dishes synthesized more α SM actin than fibroblasts grown on collagen-coated dishes. In contrast, fibroblasts grown on collagen coated dishes synthesized more α₂β₁ integrin compared to the same cells grown on uncoated dishes. Fibroblasts maintained on a type I collagen upregulate the expression and synthesis of α₂β₁ integrin, and downregulate the expression and synthesis of α SM actin. © 1998 John Wiley & Sons, Ltd.     

Brain‐derived neurotrophic factor induces migration of endothelial cells through a TrkB–ERK–integrin αVβ3–FAK cascade

Brain‐derived neurotrophic factor (BDNF) promotes the regeneration of periodontal tissue. Since angiogenesis is important for tissue regeneration, investigating effect of BDNF on endothelial cell function may help to reveal its mechanism, whereby, BDNF promotes periodontal tissue regeneration. In this study, we examined the influence of BDNF on migration in human microvascular endothelial cells (HMVECs), focusing on the effects on extracellular signal‐regulated kinase (ERK), integrin α_Vβ₃, and focal adhesion kinase (FAK). The migration of endothelial cells was assessed with a modified Boyden chamber and a wound healing assay. The expression of integrin α_Vβ₃ and the phosphorylation of ERK and FAK were analyzed by immunoblotting and immunofluorescence microscopy. BDNF (25 ng/ml) induced cell migration. PD98059, an ERK inhibitor, K252a, a specific inhibitor for TrkB, a high affinity receptor of BDNF, and an anti‐integrin α_Vβ₃ antibody suppressed the BDNF‐induced migration. BDNF increased the levels of integrin α_Vβ₃ and phosphorylated ERK1/2 and FAK. The ERK inhibitor and TrkB inhibitor also reduced levels of integrin α_Vβ₃ and phosphorylated FAK. We propose that BDNF stimulates endothelial cell migration by a process involving TrkB/ERK/integrin α_Vβ₃/FAK, and this may help to enhance the regeneration of periodontal tissue. J. Cell. Physiol. 227: 2123–2129, 2012. © 2011 Wiley Periodicals, Inc.     

Norcantharidin,a clinical used chemotherapeutic agent,acts as a powerful inhibitor by interfering with fibrinogen–integrin αIIbβ3 binding in human platelets

During platelet activation, fibrinogen binds to its specific platelet receptor, integrin α_IIbβ₃, thus completing the final common pathway for platelet aggregation. Norcantharidin (NCTD) is a promising anticancer agent in China from medicinal insect blister beetle. In this study, we provided the evidence to demonstrate NCTD (0.1–1.0 μM) possesses very powerful antiplatelet activity in human platelets; nevertheless, it had no effects on surface P‐selectin expression and only slight inhibition on ATP‐release reaction in activated platelets. Moreover, NCTD markedly hindered integrin α_IIbβ₃ activation by interfering with the binding of FITC‐labelled PAC‐1. It also markedly reduced the number of adherent platelets and the single platelet spreading area on immobilized fibrinogen as well as clot retraction. Additionally, NCTD attenuated phosphorylation of proteins such as integrin β₃, Src and FAK in platelets spreading on immobilized fibrinogen. These results indicate that NCTD restricts integrin α_IIbβ₃‐mediated outside‐in signalling in human platelets. Besides, NCTD substantially prolonged the closure time in human whole blood and increased the occlusion time of thrombotic platelet plug formation and prolonged the bleeding time in mice. In conclusion, NCTD has dual activities, it can be a chemotherapeutic agent for cancer treatment, and the other side it possesses powerful antiplatelet activity for treating thromboembolic disorders.     

Reversing microtubule‐directed chemotherapeutic drug resistance by co‐delivering α2β1 inhibitor and paclitaxel with nanoparticles in ovarian cancer

Previous reports indicated that integrins associated signals are tightly related to tumor progression. Here, we observed elevated expression of integrin α2β1 in tumor tissues from microtubule‐directed chemotherapeutic drugs (MDCDs) resistant patients compared with the samples from chemosensitive patients. More importantly, we sorted the integrin α2β1⁺ tumor cells and found those cells revealed high MDCDs resistance, whereas MDCDs shows effective cytotoxicity to those integrin α2β1^? tumor cells in vitro and in vivo. Mechanistically, we demonstrated that integrin α2β1 could induce MDCDs resistance through the activation of the PI3K/AKT pathway. Applying MPEG‐PLA to co‐encapsulate the integrin α2β1 inhibitor E7820 and MDCDs could effectively reverse MDCDs resistance, resulting in enhanced anticancer effects while avoiding potential systemic toxicity in vitro and in vivo. In conclusion, the expression of integrin α2β1 contributes to MDCDs resistance, while applying E7820 combination treatment by MPEG‐PLA nanoparticles could reverse the resistance.     

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.     

Deoxycholic acid promotes development of gastroesophageal reflux disease and Barrett's oesophagus by modulating integrin‐αv trafficking

The fundamental mechanisms underlying erosive oesophagitis and subsequent development of Barrett's oesophagus (BO) are poorly understood. Here, we investigated the contribution of specific components of the gastric refluxate on adhesion molecules involved in epithelial barrier maintenance. Cell line models of squamous epithelium (HET‐1A) and BO (QH) were used to examine the effects of bile acids on cell adhesion to extracellular matrix proteins (Collagen, laminin, vitronectin, fibronectin) and expression of integrin ligands (α₃, α_4, α₅, α₆ and α_ν). Experimental findings were validated in human explant oesophageal biopsies, a rat model of gastroesophageal reflux disease (GORD) and in patient tissue microarrays. The bile acid deoxycholic acid (DCA) specifically reduced adhesion of HET‐1A cells to vitronectin and reduced cell‐surface expression of integrin‐α_ν via effects on endocytic recycling processes. Increased expression of integrin‐α_v was observed in ulcerated tissue in a rat model of GORD and in oesophagitis and Barrett's intestinal metaplasia patient tissue compared to normal squamous epithelium. Increased expression of integrin‐α_ν was observed in QH BO cells compared to HET‐1A cells. QH cells were resistant to DCA‐mediated loss of adhesion and reduction in cell‐surface expression of integrin‐α_ν. We demonstrated that a specific component of the gastric refluxate, DCA, affects the epithelial barrier through modulation of integrin α_ν expression, providing a novel mechanism for bile acid‐mediated erosion of oesophageal squamous epithelium and promotion of BO. Strategies aimed at preventing bile acid‐mediated erosion should be considered in the clinical management of patients with GORD.     

Integrin αvβ3 enhances the suppressive effect of interferon‐γ on hematopoietic stem cells

Hematopoietic homeostasis depends on the maintenance of hematopoietic stem cells (HSCs), which are regulated within a specialized bone marrow (BM) niche. When HSC sense external stimuli, their adhesion status may be critical for determining HSC cell fate. The cell surface molecule, integrin αvβ3, is activated through HSC adhesion to extracellular matrix and niche cells. Integrin β3 signaling maintains HSCs within the niche. Here, we showed the synergistic negative regulation of the pro‐inflammatory cytokine interferon‐γ (IFNγ) and β3 integrin signaling in murine HSC function by a novel definitive phenotyping of HSCs. Integrin αvβ3 suppressed HSC function in the presence of IFNγ and impaired integrin β3 signaling mitigated IFNγ‐dependent negative action on HSCs. During IFNγ stimulation, integrin β3 signaling enhanced STAT1‐mediated gene expression via serine phosphorylation. These findings show that integrin β3 signaling intensifies the suppressive effect of IFNγ on HSCs, which indicates that cell adhesion via integrin αvβ3 within the BM niche acts as a context‐dependent signal modulator to regulate the HSC function under both steady‐state and inflammatory conditions.     

Cyclic strain induces reorganization of integrin α5β1 and α2β1 in human umbilical vein endothelial cells

Cyclic strain has been shown to modulate endothelial cell (EC) morphology, proliferation, and function. We have recently reported that the focal adhesion proteins focal adhesion kinase (pp125^FAK) and paxillin, are tyrosine phosphorylated in EC exposed to strain and these events regulate the morphological change and migration induced by cyclic strain. Integrins are also localized on focal adhesion sites and have been reported to induce tyrosine phosphorylation of pp125^FAK under a variety of stimuli. To study the involvement of different integrins in signaling induced by cyclic strain, we first observed the redistribution of α and β integrins in EC subjected to 4 h cyclic strain. Human umbilical vein endothelial cells (HUVEC) seeded on either fibronectin or collagen surfaces were subjected to 10% average strain at a frequency 60 cycles/min. Confocal microscopy revealed that β₁ integrin reorganized in a linear pattern parallel with the long axis of the elongated cells creating a fusion of focal adhesion plaques in EC plated on either fibronectin (a ligand for α₅β₁) or collagen (a ligand for α₂β₁) coated plates after 4 h exposure to cyclic strain. β₃ integrin, which is a vitronectin receptor, did not redistribute in EC exposed to cyclic strain. Cyclic strain also led to a reorganization of α₅ and α₂ integrins in a linear pattern in HUVEC seeded on fibronectin or collagen, respectively. The expression of integrins α₅, α₂, and β₁ did not change even after 24 h exposure to strain when assessed by immunoprecipitation of these integrins. Cyclic strain-induced tyrosine phosphorylation of pp125^FAK occurred concomitant with the reorganization of β₁ integrin. We concluded that α₅β₁ and α₂β₁ integrins play an important role in transducing mechanical stimuli into intracellular signals. J. Cell. Biochem. 64:505–513. © 1997 Wiley-Liss, Inc.     

Plasma gelsolin facilitates interaction between β2 glycoprotein I and α5β1 integrin

Antiphospholipid syndrome (APS) is characterized by thrombosis and the presence of antiphospholipid antibodies (aPL) that directly recognizes plasma β₂‐glycoprotein I (β₂GPI). Tissue factor (TF), the major initiator of the extrinsic coagulation system, is induced on monocytes by aPL in vitro, explaining in part the pathophysiology in APS. We previously reported that the mitogen‐activated protein kinase (MAPK) pathway plays an important role in aPL‐induced TF expression on monocytes. In this study, we identified plasma gelsolin as a protein associated with β₂GPI by using immunoaffinity chromatography and mass spectrometric analysis. An in vivo binding assay showed that endogenous β₂GPI interacts with plasma gelsolin, which binds to integrin a₅β₁ through fibronectin. The tethering of β₂GPI to monoclonal anti‐β₂GPI autoantibody on the cell surface was enhanced in the presence of plasma gelsolin. Immunoblot analysis demonstrated that p38 MAPK protein was phosphorylated by monoclonal anti‐β₂GPI antibody treatment, and its phosphorylation was attenuated in the presence of anti‐integrin a₅β₁ antibody. Furthermore, focal adhesion kinase, a downstream molecule of the fibronectin‐integrin signalling pathway, was phosphorylated by anti‐β₂GPI antibody treatment. These results indicate that molecules including gelsolin and integrin are involved in the anti‐β₂GPI antibody‐induced MAPK pathway on monocytes and that integrin is a possible therapeutic target to modify a prothrombotic state in patients with APS.     

Expression of estrogen receptor β increases integrin α1 and integrin β1 levels and enhances adhesion of breast cancer cells

Estrogen effects on mammary gland development and differentiation are mediated by two receptors (ERα and ERβ). Estrogen‐bound ERα induces proliferation of mammary epithelial and cancer cells, while ERβ is important for maintenance of the differentiated epithelium and inhibits proliferation in different cell systems. In addition, the normal breast contains higher ERβ levels compared to the early stage breast cancers, suggesting that loss of ERβ could be important in cancer development. Analysis of ERβ?/? mice has consistently revealed reduced expression of cell adhesion proteins. As such, ERβ is a candidate modulator of epithelial homeostasis and metastasis. Consequently, the aim of this study was to analyze estrogenic effects on adhesion of breast cancer cells expressing ERα and ERβ. As ERβ is widely found in breast cancer but not in cell lines, we used ERα positive T47‐D and MCF‐7 human breast cancer cells to generate cells with inducible ERβ expression. Furthermore, the colon cancer cell lines SW480 and HT‐29 were also used. Integrin α1 mRNA and protein levels increased following ERβ expression. Integrin β1—the unique partner for integrin α1—increased only at the protein level. ERβ expression enhanced the formation of vinculin containing focal complexes and actin filaments, indicating a more adhesive potential. This was confirmed by adhesion assays where ERβ increased adhesion to different extracellular matrix proteins, mostly laminin. In addition, ERβ expression was associated to less cell migration. These results indicate that ERβ affects integrin expression and clustering and consequently modulates adhesion and migration of breast cancer cells. J. Cell. Physiol. 222:156–167, 2010. © 2009 Wiley‐Liss, Inc.     

Designed synthetic analogs of the α‐helical peptide temporin‐La with improved antitumor efficacies via charge modification and incorporation of the integrin αvβ3 homing domain

How to target cancer cells with high specificity and kill cancer cells with high efficiency remains an urgent demand for anticancer drugs. Temporin‐La, which belongs to the family of temporins, presents antitumor activity against many cancer cell lines. We first used a whole bioinformatic analysis method as a platform to identify new anticancer antimicrobial peptides (AMPs). On the basis of these results, we designed a temporin‐La analog (temporin‐Las) and related constructs containing the Arg‐Gly‐Asp (RGD) tripeptide, the integrin αvβ3 homing domain (RGD‐La and RGD‐Las). We detected a link between the net charges and integrin αvβ3 expression of cancer cell lines and the antitumor activities of these peptides. Temporin‐La and its synthetic analogs inhibited cancer cell proliferation in a dose‐dependent manner. Evidence was provided that the affinity between RGD‐Las and tumor cell membranes was stronger than other tested peptides using a pull‐down assay. Morphological changes on the cell membrane induced by temporin‐La and RDG‐Las, respectively, were examined by scanning electron microscopy. Additionally, time‐dependent morphological changes were detected by confocal microscopy, where the binding process of RGD‐Las to the cell membrane could be monitored. The results indicate that the electrostatic interaction between these cationic peptides and the anionic cell membrane is a major determinant of selective cell killing. Thus, the RGD tripeptide is a valuable ligand motif for tumor targeting, which leads to an increased anticancer efficiency by RGD‐Las. These AMP‐derived peptides have clinical potential as specifically targeting agents for the treatment of αvβ3 positive tumors. Copyright © 2012 European Peptide Society and John Wiley & Sons, Ltd.     

Activation mechanisms of αVβ3 integrin by binding to fibronectin: A computational study

Integrin αVβ3 plays an important role in regulating cellular activities and in human diseases. Although the structure of αVβ3 has been studied by crystallography and electron microscopy, the detailed activation mechanism of integrin αVβ3 induced by fibronectin remains unclear. In this study, we investigated the conformational and dynamical motion changes of Mn²⁺‐bound integrin αVβ3 by binding to fibronectin with molecular dynamics simulations. Results showed that fibronectin binding to integrin αVβ3 caused the changes of the conformational flexibility of αVβ3 domains, the essential mode of motion for the domains of αV subunit and β3 subunit and the degrees of correlated motion of residues between the domains of αV subunit and β3 subunit of integrin αVβ3. The angle of Propeller domain with respect to the Calf‐2 domain of αV subunit and the angle of Hybrid domain with respect to βA domain of β3 subunit significantly increased when integrin αVβ3 was bound to fibronectin. These changes could result in the conformational change tendency of αVβ3 from a bend conformation to an extended conformation and lead to the open swing of Hybrid domain relative to βA domain of β3 subunit, which have demonstrated their importance for αVβ3 activation. Fibronectin binding to integrin αVβ3 significantly decreased the relative position of α1 helix to βA domain and that to metal ion‐dependent adhesion site, stabilized Mn²⁺ ions binding in integrin αVβ3 and changed fibronectin conformation, which are important for αVβ3 activation. Results from this study provide important molecular insight into the “outside‐in” activation mechanism of integrin αVβ3 by binding to fibronectin.     

Impaired integrin α5/β1‐mediated hepatocyte growth factor release by stellate cells of the aged liver

Hepatic blood flow and sinusoidal endothelial fenestration decrease during aging. Consequently, fluid mechanical forces are reduced in the space of Disse where hepatic stellate cells (HSC) have their niche. We provide evidence that integrin α₅/β₁ is an important mechanosensor in HSC involved in shear stress‐induced release of hepatocyte growth factor (HGF), an essential inductor of liver regeneration which is impaired during aging. The expression of the integrin subunits α₅ and β₁ decreases in liver and HSC from aged rats. CRISPR/Cas9‐mediated integrin α₅ and β₁ knockouts in isolated HSC lead to lowered HGF release and impaired cellular adhesion. Fluid mechanical forces increase integrin α₅ and laminin gene expression whereas integrin β₁ remains unaffected. In the aged liver, laminin β2 and γ1 protein chains as components of laminin‐521 are lowered. The integrin α₅ knockout in HSC reduces laminin expression via mechanosensory mechanisms. Culture of HSC on nanostructured surfaces functionalized with laminin‐521 enhances Hgf expression in HSC, demonstrating that these ECM proteins are critically involved in HSC function. During aging, HSC acquire a senescence‐associated secretory phenotype and lower their growth factor expression essential for tissue repair. Our findings suggest that impaired mechanosensing via integrin α₅/β₁ in HSC contributes to age‐related reduction of ECM and HGF release that could affect liver regeneration.     

TNF‐α increases αvβ3 integrin expression and migration in human chondrosarcoma cells

Chondrosarcoma is a type of highly malignant tumour with a potent capacity to invade locally and cause distant metastasis. Chondrosarcoma shows a predilection for metastasis to the lungs. Tumour necrosis factor (TNF)‐α is a key cytokine involved in inflammation, immunity, cellular homeostasis and tumour progression. Integrins are the major adhesive molecules in mammalian cells and have been associated with metastasis of cancer cells. However, the effects of TNF‐α in migration and integrin expression in chondrosarcoma cells are largely unknown. In this study, we found that TNF‐α increased the migration and the expression of αvβ3 integrin in human chondrosarcoma cells. Activations of MAPK kinase (MEK), extracellular signal‐regulating kinase (ERK) and nuclear factor‐κB (NF‐κB) pathways after TNF‐α treatment were demonstrated, and TNF‐α‐induced expression of integrin and migration activity was inhibited by the specific inhibitor and mutant of MEK, ERK and NF‐κB cascades. Taken together, our results indicated that TNF‐α enhances the migration of chondrosarcoma cells by increasing αvβ3 integrin expression through the MEK/ERK/NF‐κB signal transduction pathway. J. Cell. Physiol. 226: 792–799, 2011. © 2010 Wiley‐Liss, Inc.     

Expression and regulation of α1β1 integrin in Schwann cells

The interaction of cells with the extracellular matrix plays a critical role in morphogenesis and cell differentiation. To define how Schwann cells might interact with the extracellular matrix, we chose to study the expression of the laminin/collagen receptor α1β1 integrin during nerve development in the rat from embryonic day 14 to maturity. We found that this integrin is expressed predominantly on mature non-myelin-forming cells and only at very low levels on myelin-forming cells. Significant levels of this integrin were not detected on Schwann cell precursors or embryonic Schwann cells in vivo. Experiments using transected and crushed sciatic nerve showed that α1β1 integrin expression is regulated at least in part by axonal contact. Furthermore, Schwann cell culture experiments showed that α1β1 integrin levels are strongly upregulated by transforming growth factor-βs and phorbol esters. © 1997 John Wiley & Sons, Inc. J Neurobiol 33: 914–928, 1997     

Platelet-derived growth factor and inflammatory cytokines have differential effects on the expression of integrins α1β1 and α5β1 by human dermal fibroblasts in vitro

Dermal fibroblasts are essential for the repair of cutaneous wounds. Fibroblasts presumably use cell surface receptors of the integrin family during migration into a wound from the adjacent uninjured tissue and for the subsequent matrix repairs. We have investigated the possible roles of platelet-derived growth factor and inflammatory cytokines in the regulation of integrin expression on wound fibroblasts using a porcine cutaneous wound model and cultured human cells. Tissue specimens collected from 4-day pig wounds were stained with antibodies specific for the α1 and α5 integrin subunits. Staining for α1 was markedly decreased on fibroblasts adjacent to the wound and in the granulation tissue, while staining for α5 was clearly enhanced in both locations. Normal adult human dermal fibroblasts in culture express the integrins α1β1, a collagen receptor, and α5β1, a fibronectin receptor. Quantitative flow cytometry was used to measure cell surface integrin expression after treatment with platelet-derived growth factor (PDGF)-AA, PDGF-AB, or PDGF-BB. Each isoform of PDGF produced a significant decrease in the level of α1 present on the cell surface and an increase in the level of α5. Furthermore, PDGF-BB produced a corresponding decrease in α1 mRNA and an increase in α5 mRNA. In contrast, treatment with three inflammatory cytokines, IL-1β, TNF-α, and IFN-γ, produced clear increases in the levels of α1 and α5 present on the cell surface. Our observations suggest that the differential effects of PDGF and inflammatory cytokines may be part of the mechanism regulating the expression of α1 and α5 integrins by dermal fibroblasts during wound repair. © 1996 Wiley-Liss, Inc.     

Structure of an integrin with an αI domain,complement receptor type 4

We report the structure of an integrin with an αI domain, α_Xβ₂, the complement receptor type 4. It was earlier expected that a fixed orientation between the αI domain and the β‐propeller domain in which it is inserted would be required for allosteric signal transmission. However, the αI domain is highly flexible, enabling two βI domain conformational states to couple to three αI domain states, and greater accessibility for ligand recognition. Although α_Xβ₂ is bent similarly to integrins that lack αI domains, the terminal domains of the α‐ and β‐legs, calf‐2 and β‐tail, are oriented differently than in αI‐less integrins. Linkers extending to the transmembrane domains are unstructured. Previous mutations in the β₂‐tail domain support the importance of extension, rather than a deadbolt, in integrin activation. The locations of further activating mutations and antibody epitopes show the critical role of extension, and conversion from the closed to the open headpiece conformation, in integrin activation. Differences among 10 molecules in crystal lattices provide unprecedented information on interdomain flexibility important for modelling integrin extension and activation.