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.     

Rap1 controls activation of the αMβ2 integrin in a talin‐dependent manner

The small GTPase Rap1 and the cytoskeletal protein talin regulate binding of C3bi‐opsonised red blood cells (RBC) to integrin α_Mβ₂ in phagocytic cells, although the mechanism has not been investigated. Using COS‐7 cells transfected with α_Mβ₂, we show that Rap1 acts on the β₂ and not the α_M chain, and that residues 732–761 of the β₂ subunit are essential for Rap1‐induced RBC binding. Activation of α_Mβ₂ by Rap1 was dependent on W747 and F754 in the β₂ tails, which are required for talin head binding, suggesting a link between Rap1 and talin in this process. Using talin1 knock‐out cells or siRNA‐mediated talin1 knockdown in the THP‐1 monocytic cell line, we show that Rap1 acts upstream of talin but surprisingly, RIAM knockdown had little effect on integrin‐mediated RBC binding or cell spreading. Interestingly, Rap1 and talin influence each other's localisation at phagocytic cups, and co‐immunoprecipitation experiments suggest that they interact together. These results show that Rap1‐mediated activation of α_Mβ₂ in macrophages shares both common and distinct features from Rap1 activation of α_IIbβ₃ expressed in CHO cells. J. Cell. Biochem. 111: 999–1009, 2010. © 2010 Wiley‐Liss, Inc.     

Role of the α1 and α2 Integrin Cytoplasmic Domains in Cell Morphology,Motility and Responsiveness to Stimulation by the Protein Kinase C Pathway

The α₁β₁ and α₂β₁ integrins, extracellular matrix receptors for collagens and/or laminins, have similarities in structure and ligand binding. Recent studies suggest that the two receptors mediate distinct post-ligand binding events and are not simply redundant receptors. To discern the mechanisms by which the two receptors differ, we focused on the roles of the cytoplasmic domains of the α subunits. We expressed either full-length α₁ integrin subunit cDNA (XICI), full-length α₂ integrin subunit cDNA (X2C2), chimeric cDNA composed of the extracellular and transmembrane domains of Q₂ subunit and the cytoplasmic domain of α₁ (X2C1), chimeric cDNA composed of the extracellular and transmembrane domains of α₁ subunit and the, cytoplasmic domain of α₂ (X1C2), α₁ cDNA truncated after the GFFKR sequence (X1C0) or α₂ cDNA truncated after the GFFKR sequence (X2C0) in K562 cells. Although the cytoplasmic domains of the a_x and α₂ subunits were not required for adhesion, the extent of adhesion at low substrate density was enhanced by the presence of either the α₁ or α₂ cytoplasmic tail. Spreading was also influenced by the presence of an α subunit cytoplasmic tail. Activation of the protein kinase C pathway with phorbol dibutyrate-stimulated motility that was dependent upon the presence of the α₂ cytoplasmic tail. Both the phosphatidylinosotide-3-OH kinase and the mitogen-activated protein kinase pathways were required for phorbol-activated, α₂-cytoplasmic tail-dependent migration.     

Physiological evidence of integrin-antibody reactive proteins influencing the innate cellular immune responses of larval Galleria mellonella hemocytes

Larval Galleria melonella(L.)hemocytes form microaggregates in response to stimulation by Gram-positive bacteria Hemocyte adhesion to foreign materials is mediated by the CAMP/protein kinase A pathway and the B-subunit of cholera toxin using a cAMP-independent mechanism.Cholera toxin-induced microaggregation was inhibited by the integrin inhibitory RGDS peptide,implying integrins may be part of the mechanism.Based on the types of mammalian integrin-antibody reactive proteins affecting hemocyte adhesion and bacterial-induced responses ars,ory,Ai,and B3 subunits occred on both granular cell and plasmatocyte hemocyte subtypes.A fluorescent band representing the binding of rabbit as-integrin subunit antibodies occurred between adhering heterotypic hemocytes.The frequency of the bands was increased by cholera toxin.The as andβrabbit integrin subunit antibodies inhibited removal of Bacillus subtilis(Cohn)from the hemolymph in vivo,A as ir-specific synthetic peptide blocker similarly diminished hemocyte function whereas the 0v Bs-specific inhibitory peptide and the corresponding integrin subunit antibodies did not influence nonself hemocyte activities.Western blots revealed several proteins reacting with a given integrin-antibody subtype.Thus integrin-antibody reactive proteins(which may include integrins)with possible as and B epitopes modulate immediate hemocyte function.Confocal microscopy established plasmatocyte adhesion to and rosetting over substrata followved by granular cell microaggregate adhesion to plasmatocytes during early stage nodulation.     

\4 integrin expression on<Emphasis Type="Italic">in vitro</Emphasis> and<Emphasis Type="Italic">in vivo</Emphasis> metastatic variants of lewis lung carcinoma

The expression of β4, α6, and β1 integrin subunits has been investigated on somein vitro andin vivo murine metastatic variants derived from Lewis lung carcinoma (3LL). By the use of monoclonal antibodies which recognizes different epitopes of α6, β1, and β4 subunits we demonstrate that α6 and β1 subunits are expressed in all metastatic variants of 3LL irrespective of their metastatic potential, whereas β4 subunit is expressed only in highly metastasizing cells of 3LL. Northern blots of different metastatic variants probed with β1 and β4 subunits demonstrate thata) significant amounts of β1 mRNA were detected in all metastatic variants of 3LL;b) mRNA corresponding to the described entire coding sequence of β4 subunit is expressed only on highly metastasizing cells of 3LL. We conclude that β4 subunit is specifically expressed in highly metastasizig cells of 3LL while is undetectable in lower metastasizing ones.     

The roles of αV integrins in lens EMT and posterior capsular opacification

Posterior capsular opacification (PCO) is the major complication arising after cataract treatment. PCO occurs when the lens epithelial cells remaining following surgery (LCs) undergo a wound healing response producing a mixture of α‐smooth muscle actin (α‐SMA)‐expressing myofibroblasts and lens fibre cells, which impair vision. Prior investigations have proposed that integrins play a central role in PCO and we found that, in a mouse fibre cell removal model of cataract surgery, expression of α_V integrin and its interacting β‐subunits β1, β5, β6, β8 are up‐regulated concomitant with α‐SMA in LCs following surgery. To test the hypothesis that α_V integrins are functionally important in PCO pathogenesis, we created mice lacking the α_V integrin subunit in all lens cells. Adult lenses lacking α_V integrins are transparent and show no apparent morphological abnormalities when compared with control lenses. However, following surgical fibre cell removal, the LCs in control eyes increased cell proliferation, and up‐regulated the expression of α‐SMA, β1‐integrin, fibronectin, tenascin‐C and transforming growth factor beta (TGF‐β)–induced protein within 48 hrs, while LCs lacking α_V integrins exhibited much less cell proliferation and little to no up‐regulation of any of the fibrotic markers tested. This effect appears to result from the known roles of α_V integrins in latent TGF‐β activation as α_V integrin null lenses do not exhibit detectable SMAD‐3 phosphorylation after surgery, while this occurs robustly in control lenses, consistent with the known roles for TGF‐β in fibrotic PCO. These data suggest that therapeutics antagonizing α_V integrin function could be used to prevent fibrotic PCO following cataract surgery.     

Glucose-Induced Alteration of Integrin Expression and Function in Cultured Human Mesangial Cells

Alteration in mesangial volume, due to an increase of the matrix surrounding mesangial cells, is a hallmark indicator of nephropathy in diabetes. Mesangial cells may also play a significant role in the development of nephropathy. Therefore, we examined the effect of glucose on the expression of integrins by cultured human mesangial cells and their ability to interact with collagen IV, a major component of the mesangial matrix. Human mesangial cells were grown in 5 and 25 mM glucose and their integrin profile was examined by immunoprecipitation and flow cytometry in each experimental condition. The results indicate that when mesangial cells were grown in 25 mM glucose, the expression of integrin subunit α2, was increased, while the α1 subunit was considerably decreased, as compared to cells grown in 5 mM glucose. Additionally, mesangial cells were tested for their ability to adhere to collagen IV in a solid-phase assay in the presence of neutralizing antibodies to integrin subunits. The results of these experiments indicate that both α1 and α2 complexed to β1 (α2β1 and α1β1) are major mesangial cell receptors for adhesion to collagen IV both in 5 and 25 mM glucose. The two receptors act in concert to mediate adhesion of mesangial cells to type IV collagen. When cell surface expression of the α1 subunit in 25 mM glucose was reduced, the α2 subunit was involved in adhesion to a greater extent than it was in 5 mM glucose. Immunoperoxidase histochemical studies localized both α1 and α2 integrin subunits in the mesangium of normal adult kidneys, suggesting that in vivo interaction with collagen IV could involve both of these receptors. These observations suggest that glucose-induced alterations in integrin expression may modify the ability of mesangial cells to interact with collagen IV.     

Co-expression of γ2 Subunits Hinders Processing of N-Linked Glycans Attached to the N104 Glycosylation Sites of GABAA Receptor β2 Subunits

GABA_A receptors, the major mediators of fast inhibitory neuronal transmission, are heteropentameric glycoproteins assembled from a panel of subunits, usually including α and β subunits with or without a γ2 subunit. The α1β2γ2 receptor is the most abundant GABA_A receptor in brain. Co-expression of γ2 with α1 and β2 subunits causes conformational changes, increases GABA_A receptor channel conductance, and prolongs channel open times. We reported previously that glycosylation of the three β2 subunit glycosylation sites, N32, N104 and N173, was important for α1β2 receptor channel gating. Here, we examined the hypothesis that steric effects or conformational changes caused by γ2 subunit co-expression alter the glycosylation of partnering β2 subunits. We found that co-expression of γ2 subunits hindered processing of β2 subunit N104 N-glycans in HEK293T cells. This γ2 subunit-dependent effect was strong enough that a decrease of γ2 subunit expression in heterozygous GABRG2 knockout (γ2^+/?) mice led to appreciable changes in the endoglycosidase H digestion pattern of neuronal β2 subunits. Interestingly, as measured by flow cytometry, γ2 subunit surface levels were decreased by mutating each of the β2 subunit glycosylation sites. The β2 subunit mutation N104Q also decreased GABA potency to evoke macroscopic currents and reduced conductance, mean open time and open probability of single channel currents. Collectively, our data suggested that γ2 subunits interacted with β2 subunit N-glycans and/or subdomains containing the glycosylation sites, and that γ2 subunit co-expression-dependent alterations in the processing of the β2 subunit N104 N-glycans were involved in altering the function of surface GABA_A receptors.     

Localization of integrin heterodimer α9β1 on the surface of uterine endometrial stromal and epithelial cells in mice

ABSTRACT

Previously, we reported that endometrial stromal (ES) and endometrial epithelial (EE) cells did not attach to tenascin C, indicating the absence of active integrin α₉β₁ on the surface of mouse ES and EE cells. However, that study used recombinant tenascin C without fibronectin (FN) type III repeats interacting with integrin heterodimers. Therefore, we re-evaluated the presence of integrin α₉β₁ actively functioning on the surface of mouse ES and EE cells using full-length native tenascin C with FN type III repeats. The functionality of integrin α₉β₁ was confirmed using attachment and antibody inhibition assays. Both mouse ES and EE cells showed significantly increased adhesion to native tenascin C, and functional blocking of integrin α₉β₁ significantly inhibited adhesion to native tenascin C. These results demonstrate that the integrin α₉ and β₁ subunits function as active heterodimers on the plasma membrane of mouse ES and EE cells, respectively.     

Aggregatibacter actinomycetemcomitans leukotoxin causes activation of lymphocyte function‐associated antigen 1

Repeats‐in‐toxin leukotoxin (LtxA) produced by the oral bacterium Aggregatibacter actinomycetemcomitans kills human leukocytes in a lymphocyte function‐associated antigen 1 (LFA‐1, integrin α_L/β₂)‐dependent manner, although the mechanism for this interaction has not been identified. The LtxA internalisation by LFA‐1‐expressing cells was explored with florescence resonance energy transfer (FRET) microscopy using a cell line that expresses LFA‐1 with a cyan fluorescent protein‐tagged cytosolic α_L domain and a yellow fluorescent protein‐tagged β₂ domain. Phorbol 12‐myristate 13‐acetate activation of LFA‐1 caused transient cytosolic domain separation. However, addition of LtxA resulted in an increase in FRET, indicating that LtxA brings the cytosolic domains closer together, compared with the inactive state. Unlike activation, this effect was not transient, lasting more than 30 min. Equilibrium constants of LtxA binding to the cytoplasmic domains of both α_L and β₂ were determined using surface plasmon resonance. LtxA has a strong affinity for the cytosolic domains of both the α_L and β₂ subunits (K_d = 15 and 4.2 nM, respectively) and a significantly lower affinity for the cytoplasmic domains of other integrin α_M, α_X, and β₃ subunits (K_d = 400, 180, and 230 nM, respectively), used as controls. Peptide fragments of α_L and β₂ show that LtxA binds membrane‐proximal domain of α_L and intermediate domain of β₂.     

NFAT2 regulates COX-2 expression and modulates the integrin repertoire in endothelial cells at the crossroads of angiogenesis and inflammation

The mechanisms controlling the switch between the pro-angiogenic and pro-inflammatory states of endothelial cells are still poorly understood. In this paper, we show that: (a) COX-2 expression induced by VEGF-A is NFAT2-dependent; and (b) the integrin profile in endothelial cells induced by the pro-angiogenic VEGF-A is distinct from that brought on by the inflammatory cytokine TNF-α. Two groups of integrin subunits specifically upregulated over time by both cytokines were identified using RT-PCR and Western Immunoblotting. The first group included α4, α5, α6, and β5 subunits that were upregulated by VEGF-A; the second group consisted of αV and β3 induced by TNF-α. Both cytokines significantly enhanced the expression of β1 and modulated α2 mRNA. In contrast to TNF-α, VEGF-A induction of integrin subunits depended on the activation of the calcineurin/NFAT pathway. Both calcineurin inhibitors (cyclosporineA and 11R-VIVIT) and downregulation of NFAT2 with specific siRNA decreased induction of integrin subunits. This process of induction could be increased by upregulation of NFAT2 by pBJ5-NFAT2 transfection. This suggests that NFAT2 mediates VEGF-induced upregulation of integrin subunit synthesis by providing a constant supply of newly synthesized “refreshed” mature integrin receptors, particularly α2β1, α5β1, α4β1, α6β1 and αVβ5, which are involved at different stages of angiogenesis.     

The GK domain of the voltage-dependent calcium channel beta subunit is essential for binding to the alpha subunit

The β subunits of voltage-dependent calcium channels bind the pore-forming α₁ subunit and play an important role in the regulation of calcium channel function. Recently, we have identified a new splice variant of the β₄ subunit, which we have termed the β_4d subunit. The β_4d subunit is a truncated splice variant of the β_4b subunit and lacks parts of the guanylate kinase (GK) domain and the C-terminus. The calcium current in BHK cells expressing α_1C and α₂δ with the β_4d subunit was as small as that without the β_4d subunit. Western blot analysis revealed that β_4d protein was expressed to a lesser extent that the β_4b protein. In addition, a GST pull down assay showed that the β_4d subunit could not interact with the α₁ subunit of the calcium channel. Collectively, our results suggest that the GK domain of the β subunit is essential for the expression of the functional calcium channel.     

Integrin expression and function in the response of primary culture hepatic stellate cells to connective tissue growth factor (CCN2)

Production of connective tissue growth factor (CCN2, also known as CTGF) is a hallmark of hepatic fibrosis. This study examined early primary cultures of hepatic stellate cells (HSC) for (i) CCN2 regulation of its cognate receptor integrin subunits; and (ii) interactions between CCN2 and integrin α₅β₁, heparan sulphate proteoglycans (HSPG) or fibronectin (FN) in supporting cell adhesion. HSC were isolated from healthy male Balb/c mice. mRNA levels of CCN2 or α₅, β₁, αv or β₃ integrin subunits were measured in days 1–7 primary culture HSC, and day 3 or day 7 cells treated with recombinant CCN2 or CCN2 small interfering RNA. Interactions between CCN2 and integrin α₅β₁, HSPG or FN were investigated using an in vitro cell adhesion assay. Co‐incident with autonomous activation over the first 7 days, primary culture HSC increasingly expressed mRNA for CCN2 or integrin subunits. Addition of exogenous CCN2 or knockdown of endogenous CCN2 differentially regulated integrin gene expression in day 3 versus day 7 cells. Either full length CCN2 (‘CCN2_1–4’) or residues 247–349 containing module 4 alone (‘CCN2₄’) supported day 3 cell adhesion in an integrin α₅β₁‐ and HSPG‐dependent fashion. Adhesion of day 3 cells to FN was promoted in an integrin α₅β₁‐dependent manner by CCN2_1–4 or CCN2₄, whereas FN promoted HSPG‐dependent HSC adhesion to CCN2_1–4 or CCN2₄. These findings suggest CCN2 regulates integrin expression in primary culture HSC and supports HSC adhesion via its binding of cell surface integrin α₅β₁, a novel CCN2 receptor in primary culture HSC which interacts co‐operatively with HSPG or FN.     

Differential Expression of GABAA/Benzodiazepine Receptor Subunit mRNAs and Ligand Binding Sites in Mouse Cerebellar Neurons Following In Vivo Ethanol Administration: An Autoradiographic Analysis

Abstract: The γ-aminobutyric acid_A (GABA_A)/benzodiazepine (BZ) receptor is a pentamer composed of subunits belonging to several classes (α_1–6, β_1–4, γ_1–4, δ, and ρ₁ and ρ₂). In situ hybridization, radioligand autoradiography, and immunocytochemistry were used to examine GABA_A/BZ receptor α₁, α₆, β₂, β₃, and γ₂ subunit expression in murine Purkinje, granule, and deep cerebellar neurons after in vivo ethanol exposure. Chronic ethanol treatment resulted in decreased α₁ subunit mRNA expression in each cell type, whereas the expression of α₆ and γ₂ subunit mRNA levels increased; no changes were observed in the expression of β₂ and β₃ subunit mRNA. GABA and BZ agonist binding and antibody staining paralleled the changes in mRNA levels. Acute ethanol injection resulted in increased expression of α₁ and β₃ mRNAs, whereas levels of α₆, β₂, and γ₂ mRNAs remained stable. Our results indicate that, in cerebellar neurons, the expression of specific GABA_A/BZ receptor subunit mRNAs, polypeptides, and binding sites is independently regulated by in vivo administration of alcohol. The observed changes were not restricted to any one cerebellar cell type, because subunit expression in Purkinje, granule, and deep cerebellar cells was similarly affected.     

Integrins hold Drosophila together

The Drosophila position-specific (PS) integrins are members of the integrin family of cell surface receptors and are thought to be receptors for extracellular matrix components. Each PS integrin consists of an α subunit, α_PS1 or α_PS2, and a β_PS subunit. Mutations in the β_PS subunit and the α_PS2 subunit have been characterised and reveal that the PS integrins have an essential role in the adhesion of different cell layers to each other. The PS integrins are especially required for the function of the cell-matrix-cell junctions, where the muscles attach to the epidermis and where one surface of the developing wing adheres to the other. These junctions are similar to vertebrate focal adhesions and hemidesmosomes, which also contain integrins. Integrin-mediated cell to cell adhesion via the extracellular matrix provides a way for tissues to adhere to each other without intermingling of their cells.     

Role of β1 Integrins in Cell Spreading and Migration of Human Nevomelanocytes and Dysplastic Nevi Cells on Collagen Type IV and Laminin

We characterized β1 integrin subunit expression on three different cultures of benign human nevomelanocytes (NMC) and on four different cell cultures of human dysplastic nevus (DN) cells by flow cytometry analysis and examined their role in mediating cell spreading and migration on collagen type IV (CN IV) and laminin (LN) coated substrates by using a quantitative video image analysis system. The seven human NMC and DNC cultures expressed heterogeneous levels of β1, α2, α3 and α6 integrin subunits. Image analysis showed that a significant increase (P<0.001) in cell spreading and migration of the DN cells was induced on increasing coating concentrations of CN IV and LN. However, the NMC did not show an increase in cell spreading or migration on these substrates when compared to the substrates coated with denatured BSA only. The CN IV-induced cell spreading of the DN cells was significantly inhibited by anti-β1 mAb (AIIB2), anti-α2 mAb (P1E6), or anti-α3 mAb (P1B5), but not by mAb against α6 integrin subunit (GoH3). The DN cell spreading on LN was not significantly inhibited by these mAbs. In contrast, the migration of the DN on CN IV and LN was significantly inhibited by anti-β1 mAb, anti-α2 mAb, anti-α3 mAb and anti-α6 mAb. These data suggest that the α2 and α3 subunit are important for cell spreading of the DN on CN IV, although they are less important in cell spreading on the extracellular matrix component LN. The α2, α3 and α6 integrin subunits are important for the migration of DN cells on both CN IV and LN.     

OSTEOBLASTIC CELLS FROM RAT LONG BONE II: ADHESION TO SUBSTRATA AND INTEGRIN EXPRESSION IN PRIMARY AND PROPAGATED CULTURES

Propagation in vitro of rat tibial osteoblasts (ROB) is accompanied by increased expression of the early osteogenic marker alkaline phosphatase (AP) and maturation of the osteogenic phenotype. In order to establish the pattern of the integrin expressed in ROB during progression to the mature osteoblastic phenotype, we have used biosynthetic, immunoblotting and immuno-histochemical assays. We immunoprecipitated from osteoblasts, expanded for 1.5- and 7.5-doubling, α5β1, αvβ3, α3β1, α6β1 and α1β1 integrin heterodimers; furthermore β5, α2 and α4 chains were detected by immunoblots and indirect immunofluorescence. αv, α1, α6 subunits in most cells, and β3 and β1 subunits in a minority, were found to be associated with adhesion plaques in osteoblasts of 1.5-, 4.5- and 7.5-doubling grown in the presence of FCS, while all other subunits stained diffusely all the cells. Adhesion to fibronectin (FN), laminin (LN), collagen type I (COL I) and III (COL III) by ROB at different doubling (1.5–11) was dependent on substratum concentration, and after 2.5h at 55nm 60% of the cells adhered to all substrata. Arg-Gly-Asp-Ser (RGDS) containing peptides inhibited adhesion of cells differentially, according to substratum; no dependence on extent of progation in vitro was observed. In conclusion, ROB cultured in vitro for 1.5- to 11-doubling had an unchanged pattern of expression of integrin subunits, heterodimer association and cellular distribution. Adhesion specificity and affinity were also unchanged. These results suggest that the phenotypic maturation, detected as an increase in AP expression, is not accompanied by major changes in the potential for cell—matrix interactions, and does not correspond to changes in the type of integrin subunits expressed by osteoblasts.