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.     

Integrin α8β1 regulates adhesion,migration and proliferation of human intestinal crypt cells via a predominant RhoA/ROCK‐dependent mechanism

Background. Integrins are transmembrane αβ heterodimer receptors that function as structural and functional bridges between the cytoskeleton and ECM (extracellular matrix) molecules. The RGD (arginine‐glycine‐aspartate tripeptide motif)‐dependent integrin α8β1 has been shown to be involved in various cell functions in neuronal and mesenchymal‐derived cell types. Its role in epithelial cells remains unknown. Results. Integrin α8β1 was found to be expressed in the crypt cell population of the human intestine but was absent from differentiating and mature epithelial cells of the villus. The function of α8β1 in epithelial crypt cells was investigated at the cellular level using normal HIECs (human intestinal epithelial cells). Specific knockdown of α8 subunit expression using an shRNA (small‐hairpin RNA) approach showed that α8β1 plays important roles in RGD‐dependent cell adhesion, migration and proliferation via a RhoA/ROCK (Rho‐associated kinase)‐dependent mechanism as demonstrated by active RhoA quantification and pharmacological inhibition of ROCK. Moreover, loss of α8β1, through RhoA/ROCK, impairs FA (focal adhesion) complex integrity as demonstrated by faulty vinculin recruitment. Conclusions. Integrin α8β1 is expressed in epithelial cells. In intestinal crypt cells, α8β1 is closely involved in the regulation of adhesion, migration and cell proliferation via a predominant RhoA/ROCK‐dependent mechanism. These results suggest an important role for this integrin in intestinal crypt cell homoeostasis.     

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.     

Signalling mechanisms of the leukocyte integrin αMβ2: Current and future perspectives

Integrins are a family of heterodimeric cell adhesion receptors expressed on most cells and are involved in many cellular functions including phagocytosis, a process by which professional phagocytes recognise, bind and internalise foreign materials larger than 0.5 µm in diameter. An example of a phagocytic integrin receptor is αMβ2, and this review seeks to provide fresh insights into the current knowledge of this subject. Key areas that this review will emphasise include, the classical understanding of bi‐directional signalling to and from αMβ2 (aka inside‐out and outside‐in signalling, respectively). For inside‐out signalling, we will review the involvement of the small GTPase, Rap1, FERM‐containing proteins such as talin and kindlin‐3, some of the kinases, and the GEF, cytohesin‐1 and vasodilator‐stimulated phosphoprotein (VASP). We also summarise studies into outside‐in signalling, focussing on the roles of RhoA and RhoG, and activation of Rac1 through the complex comprising TIAM, 14‐3‐3 and β2. We will also consider non‐classical signalling processes, which include integrin clustering and membrane ruffling. Through this review, we hope to highlight the importance of αMβ2 signalling mechanisms and their relevance to other integrin‐mediated events.     

Regulation of interleukin‐1β by interferon‐γ is species specific,limited by suppressor of cytokine signalling 1 and influences interleukin‐17 production

Reports describing the effect of interferon‐γ (IFNγ) on interleukin‐1β (IL‐1β) production are conflicting. We resolve this controversy by showing that IFNγ potentiates IL‐1β release from human cells, but transiently inhibits the production of IL‐1β from mouse cells. Release from this inhibition is dependent on suppressor of cytokine signalling 1. IL‐1β and Th17 cells are pathogenic in mouse models for autoimmune disease, which use Mycobacterium tuberculosis (MTB), in which IFNγ and IFNβ are anti‐inflammatory. We observed that these cytokines suppress IL‐1β production in response to MTB, resulting in a reduced number of IL‐17‐producing cells. In human cells, IFNγ increased IL‐1β production, and this might explain why IFNγ is detrimental for multiple sclerosis. In mice, IFNγ decreased IL‐1β and subsequently IL‐17, indicating that the adaptive immune response can provide a systemic, but transient, signal to limit inflammation.     

Divalent cations regulate the organization of integrins αvβ3 and αvβ5 on the cell surface

Extracellular divalent cations are important regulators of integrin ligand binding activity. In this study we evaluated how divalent cations affect the organization of integrins into focal adhesion sites. Integrins αvβ3 and αvβ5 were compared because they share a high degree of structural homology and because both integrins mediate cell adhesion to vitronectin. On MG-63 osteosarcoma cells, we found that both the extent and pattern of integrin organization was regulated by the type of extracellular divalent ion. Integrin αvβ3 organized in focal contacts when Mn²⁺ or Mg²⁺ was present, but not in Ca²⁺. In contrast, αvβ5 organized in focal contacts only when Ca²⁺ or Mg²⁺ was present. Integrin αvβ5 clustered in a centrally located punctate field on the ventral surface of the cell in the presence of Mn²⁺. These observations reveal a previously unappreciated role for divalent ions in regulating the organization of integrins into focal adhesion sites. © 1996 Wiley-Liss, Inc.     

Amyloid β‐induced astrogliosis is mediated by β1‐integrin via NADPH oxidase 2 in Alzheimer's disease

Astrogliosis is a hallmark of Alzheimer′s disease (AD) and may constitute a primary pathogenic component of that disorder. Elucidation of signaling cascades inducing astrogliosis should help characterizing the function of astrocytes and identifying novel molecular targets to modulate AD progression. Here, we describe a novel mechanism by which soluble amyloid‐β modulates β1‐integrin activity and triggers NADPH oxidase (NOX)‐dependent astrogliosis in vitro and in vivo. Amyloid‐β oligomers activate a PI3K/classical PKC/Rac1/NOX pathway which is initiated by β1‐integrin in cultured astrocytes. This mechanism promotes β1‐integrin maturation, upregulation of NOX2 and of the glial fibrillary acidic protein (GFAP) in astrocytes in vitro and in hippocampal astrocytes in vivo. Notably, immunochemical analysis of the hippocampi of a triple‐transgenic AD mouse model shows increased levels of GFAP, NOX2, and β1‐integrin in reactive astrocytes which correlates with the amyloid β‐oligomer load. Finally, analysis of these proteins in postmortem frontal cortex from different stages of AD (II to V/VI) and matched controls confirmed elevated expression of NOX2 and β1‐integrin in that cortical region and specifically in reactive astrocytes, which was most prominent at advanced AD stages. Importantly, protein levels of NOX2 and β1‐integrin were significantly associated with increased amyloid‐β load in human samples. These data strongly suggest that astrogliosis in AD is caused by direct interaction of amyloid β oligomers with β1‐integrin which in turn leads to enhancing β1‐integrin and NOX2 activity via NOX‐dependent mechanisms. These observations may be relevant to AD pathophysiology.     

Upmodulation of αvβ1 integrin expression on human tumor cells by human interleukin for DA cells/leukemia inhibitory factor and oncostatin M: Correlation with increased cell adhesion on fibronectin

Integrins belong to a large family of heterodimeric membrane glycoproteins which mediate cell-cell or cell-extracellular matrix interactions. These interactions could play a major role during the migration of tumor cells across the extracellular matrix and vascular endothelium and would thus appear to be requisite for the metastatic process. Pretreatment of the Foss human melanoma cell line with HILDA/LIF or OSM, two cytokines involved in acute-phase response, increased the expression of membrane αvβ1 1.5–2-fold. The same phenomenon was observed on the SK-N-SH human neuroblastoma cell line. αvβ1 upmodulation was concomitant with improved tumor cells attachment to the fibronectin matrix. This greater adhesion of tumor cells to fibronectin was inhibited by specific monoclonal antibodies against αv or β1 integrin subunits. Similar results were obtained after TNF-α treatment. Our findings demonstrate the ability of HILDA/LIF and OSM to modulate tumor cell capacity to adhere to the matrix component, suggesting a potential role for these cytokines in modulation of tumoral progression.     

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.     

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.     

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.     

The Integrin‐Mediated ILK‐Parvin‐αPix Signaling Axis Controls Differentiation in Mammary Epithelial Cells

Epithelial cell adhesion to the surrounding extracellular matrix is necessary for their proper behavior and function. During pregnancy and lactation, mammary epithelial cells (MECs) receive signals from their interaction with laminin via β1‐integrin (β1‐itg) to establish apico‐basal polarity and to differentiate in response to prolactin. Downstream of β1‐itg, the scaffold protein Integrin Linked Kinase (ILK) has been identified as the key signal transducer that is required for both lactational differentiation and the establishment of apico‐basal polarity. ILK is an adaptor protein that forms the IPP complex with PINCH and Parvins, which are central to its adaptor functions. However, it is not known how ILK and its interacting partners control tissue‐specific gene expression. Expression of ILK mutants, which weaken the interaction between ILK and Parvin, revealed that Parvins have a role in mammary epithelial differentiation. This conclusion was supported by shRNA‐mediated knockdown of the Parvins. In addition, shRNA knockdown of the Parvin‐binding guanine nucleotide exchange factor αPix prevented prolactin‐induced differentiation. αPix depletion did not disrupt focal adhesions, MEC proliferation, or polarity. This suggests that αPix represents a differentiation‐specific bifurcation point in β1‐itg‐ILK adhesive signaling. In summary, this study has identified a new role for Parvin and αPix downstream of the integrin‐ILK signaling axis for MEC differentiation. J. Cell. Physiol. 231: 2408–2417, 2016. © 2016 The Authors. Journal of Cellular Physiology Published by Wiley Periodicals, Inc.     

脉络膜黑色素瘤中整合素αvβ3表达的研究

目的：整合素αvβ3整合素家族成员之一,是一类跨膜粘附分子,其在多种肿瘤细胞及新生内皮血管细胞中高表达而在成熟血管内皮、上皮细胞及正常细胞中表达较低或无表达。基于这些特征,整合素αvβ3年来成为分子影像研究的热点之一。鉴于整合素αvβ3人眼脉络膜黑色素瘤中是否存在表达尚不可知,本课题拟研究整合素αvβ3人脉络膜黑色素瘤中表达情况,为以整合素αvβ3基础的分子显像提供理论基础。方法：培养人源脉络膜黑色素瘤细胞株OCM-1,使用蛋白免疫印迹方法检测整合素αvβ3OCM-1中表达水平,并使用免疫组化方法检测人脉络膜黑色素瘤病理切片中整合素αvβ3达分布。结果：蛋白免疫印迹实验表明在OCM-1细胞株中存在整合素αvβ3达,其表达水平介于已知高表达整合素αvβ3头颈鳞癌细胞株HEP-2和较低表达整合素αvβ3头颈鳞癌细胞株CNE-1之间,免疫组化方法检测人脉络膜黑色素瘤病理切片中也存在整合素αvβ3达。结论：人脉络膜黑色素瘤中具有整合素αvβ3达,可以为后期研究基于整合素αvβ3分子显像技术提供依据。     

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.     

Protein Kinase D1 Regulates VEGF‐A‐Induced αvβ3 Integrin Trafficking and Endothelial Cell Migration

The bidirectional communication between integrin αvβ3 and vascular endothelial growth factor (VEGF) receptors acts to integrate and coordinate endothelial cell (EC) activity during angiogenesis. However, the molecular mechanisms involved in this signaling crosstalk are only partially revealed. We have found that protein kinase D1 (PKD1) was activated by VEGF‐A, but not by other angiogenic factors, and associated with αvβ3 integrin. Moreover, knockdown of PKD1 increased endocytosis of αvβ3 and reduced its return from endosomes to the plasma membrane leading to accumulation of the integrin in Rab5‐ and Rab4‐positive endosomes. Consistent with this, PKD1 knockdown caused defects in focal complex formation and reduced EC migration in response to VEGF‐A. Moreover, knockdown of PKD1 reduced EC motility on vitronectin, whereas migration on collagen I was not PKD1 dependent. These results suggest that PKD1‐regulated αvβ3 trafficking contributes to the angiogenesis process by integrating VEGF‐A signaling with extracellular matrix interactions.     

Irisin reverses intestinal epithelial barrier dysfunction during intestinal injury via binding to the integrin αVβ5 receptor

Disruption of the gut barrier results in severe clinical outcomes with no specific treatment. Metabolic disorders and destruction of enterocytes play key roles in gut barrier dysfunction. Irisin is a newly identified exercise hormone that regulates energy metabolism. However, the effect of irisin on gut barrier function remains unknown. The therapeutic effect of irisin on gut barrier dysfunction was evaluated in gut ischemia reperfusion (IR). The direct effect of irisin on gut barrier function was studied in Caco‐2 cells. Here, we discovered that serum and gut irisin levels were decreased during gut IR and that treatment with exogenous irisin restored gut barrier function after gut IR in mice. Meanwhile, irisin decreased oxidative stress, calcium influx and endoplasmic reticulum (ER) stress after gut IR. Moreover, irisin protected mitochondrial function and reduced enterocyte apoptosis. The neutralizing antibody against irisin significantly aggravated gut injury, oxidative stress and enterocyte apoptosis after gut IR. Further studies revealed that irisin activated the AMPK‐UCP 2 pathway via binding to the integrin αVβ5 receptor. Inhibition of integrin αVβ5, AMPK or UCP 2 abolished the protective role of irisin in gut barrier function. In conclusion, exogenous irisin restores gut barrier function after gut IR via the integrin αVβ5‐AMPK‐UCP 2 pathway.     

αv integrin processing interferes with the cross-talk between αvβ5/β6 and α2β1 integrins

Background information. Previous studies have reported that cross‐talk between integrins may be an important regulator of integrin—ligand binding and subsequent signalling events that control a variety of cell functions in many tissues. We previously demonstrated that αvβ5/β6 integrin represses α2β1‐dependent cell migration. The αv subunits undergo an endoproteolytic cleavage by protein convertases, whose role in tumoral invasion has remained controversial. Results. Inhibition of convertases by the convertase inhibitor α1‐PDX (α1‐antitrypsin Portland variant), leading to the cell‐surface expression of an uncleaved form of the αv integrin, stimulated cell migration toward type I collagen. Under convertase inhibition, α2β1 engagement led to enhanced phosphorylation of both FAK (focal adhesion kinase) and MAPK (mitogen‐activated protein kinase). This outside‐in signalling stimulation was associated with increased levels of activated β1 integrin located in larger than usual focal‐adhesion structures and a cell migration that was independent of the PI3K (phosphoinositide 3‐kinase)/Akt (also called protein kinase B) pathway. Conclusions. The increase in cell migration observed upon convertases inhibition appears to be due to the up‐regulation of β1 integrins and to their location in larger focal‐adhesion structures. The endoproteolytic cleavage of αv subunits is necessary for αvβ5/β6 integrin to control α2β1 function and could thus play an essential role in colon cancer cell migration.     

The matrix protein CCN1/CYR61 is required for αVβ5‐mediated cancer cell migration

CYR61 is one of the six proteins of the CCN family of proteins known to play diverse roles in angiogenesis, cellular proliferation, survival, migration and wound healing. However, the specific function of CYR61 in cancer is unclear, and the literature remains controversial. We used quantitative real‐time PCR to establish the expression profile of CYR61 and integrin α_Vβ₅ in three non–small cell lung cancer, five colorectal cancer, one breast cancer and one oesophageal squamous carcinoma cell lines. We showed that the levels of CYR61 were significantly increased in oesophageal squamous carcinoma cell line along with the enhanced levels of α_Vβ₅ integrin. Further, we investigated whether tumour cell–secreted CYR61 can facilitate cell migration by interacting with the α_Vβ₅ integrin. Using tumour cell lines with low, intermediate and high CYR61 expression and their isogenic variants as a cellular model, we determined that integrin α_Vβ₅ expressed on these tumour cells is required for cell migration. Moreover, we showed that the modulation of expression levels of CYR61 in these cancer cells affected their capacity for migration. These results represent an advance to the understanding of the role of CYR61 and α_vβ₅ integrin as proteins that cooperate to mediate cancer cell migration. Copyright © 2012 John Wiley & Sons, Ltd.