Expression of beta-integrin adhesion molecules in non-Hodgkin's lymphoma: correlation with clinical and evolutive features.
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PURPOSE: To analyze beta-integrin expression in non-Hodgkin's lymphomas (NHLs) in order to assess its distribution among histologic subtypes and correlate with clinical features and outcome. PATIENTS AND METHODS: The expression of alpha2 through alpha6 and beta1 common chains of very late activation antigen (VLA ) molecules and alphaL (CD11a) and beta2 common (CD18) chains of leukocyte function-associated antigen 1 molecule were studied in 137 patients with NHL. Immunostaining was performed by a streptavidin-biotin alkaline phosphatase method, and integrin expression was semiquantitatively assessed. Correlation with clinical features was analyzed in 80 patients consecutively diagnosed as having immunocytoma (five cases), follicular lymphoma (19 cases), mantle-cell lymphoma (MCL; four cases), diffuse large-cell lymphoma (DLCL; 40 cases), lymphoblastic lymphoma (LL; six cases), anaplastic Ki-1-positive lymphoma (one case), and other peripheral T-cell lymphoma (five cases). RESULTS: MCL cells did not show alpha2 and alpha6 expression, whereas most expressed weak to moderate levels of alpha3, alpha4, and alpha5. LL mostly showed alpha2 to alpha5 expression, whereas alpha6 was observed in seven of 11 cases (higher proportion than that shown in other subgroups). Alpha chains of VLA molecules were present more frequently in T-cell than in B-cell lymphomas. Patients with moderate/strong alpha4, CD11a, and beta2 common chain expression presented more frequently with advanced stage and bone marrow infiltration. Moderate/strong alpha4, alpha5, and beta1 common chain expression correlated with extranodal involvement. In the subset of B-cell DLCL patients, negative/weak expression of alpha3 and alpha4 chains was related to a higher complete response rate. Moreover, negative or weak expression of alpha2, alpha3, alpha4, and beta1( )common chain had favorable significance for overall and failure-free survivals. CONCLUSION: In NHL, beta-integrin expression is related to histologic subtype. The expression pattern of these molecules probably influences disease dissemination and patients' prognoses. (+info)
A family of Arabidopsis plasma membrane receptors presenting animal beta-integrin domains.
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A cDNA clone, AtELP1 (Arabidopsis thaliana EGF receptor-like protein) was isolated from an Arabidopsis cDNA library with an oligonucleotide probe corresponding to a highly conserved region of animal beta-integrins. The cloning of this cDNA was previously reported and it has been proposed that AtELP might be a receptor involved in intracellular trafficking. In the present work, using two specific independent sets of anti-peptide antibodies, we show that AtELP1 is mainly located in the plasma membrane, supporting another function for this protein. Structural studies, using methods for secondary structure prediction, indicated the presence of cysteine-rich domains specific to beta-integrins. Database searches revealed that AtELP1 is a member of a multigenic family composed of at least six members in A. thaliana. Northern blot analysis of AtELP1, 2b and 3 was performed on mRNA extracted from cells cultured in normal and stressed conditions, and from several organs and plants submitted to biotic or abiotic stresses. All the genes are expressed at different levels in the same conditions, but preferentially in roots, fruits and leaves in response to water deficit. (+info)
Soluble collagen VI drives serum-starved fibroblasts through S phase and prevents apoptosis via down-regulation of Bax.
(75/1924)
We previously showed that soluble, pepsin-solubilized collagen VI increases de novo DNA synthesis in serum-starved HT1080 and 3T3 fibroblasts up to 100-fold compared with soluble collagen I, reaching 80% of the stimulation caused by 10% fetal calf serum. Here we show that collagen VI also inhibits apoptotic cell death in serum-starved cells as evidenced by morphological criteria, DNA laddering, complementary apoptosis assays (terminal deoxynucleotidyl transferase-mediated dUTP nick end labeling, enzyme-linked immunosorbent assay, and fluorescence-activated cell sorting), and quantification of apoptosis-regulating proteins. In the presence of starving medium alone or collagen I, the proapoptotic Bax was up-regulated 2-2.5-fold, compared with soluble collagen VI and fetal calf serum, whereas levels of the antiapoptotic Bcl-2 protein remained unaffected. In accordance with its potent stimulation of DNA synthesis, soluble collagen VI carries serum-starved HT1080 and Balb 3T3 fibroblasts through G(2) as shown by fluorescence-activated cell sorting analysis, whereas cells exposed to medium and collagen I where arrested at G(1)-S. This was accompanied by a 2-3-fold increase in cyclin A, B, and D1 protein expression. Collagen VI-induced inhibition of apoptotic cell death may be operative during embryogenesis, wound healing, and fibrosis when elevated tissue and blood levels of collagen VI are observed, thus initiating a feedback loop of mesenchymal cell activation and proliferation. (+info)
Mutation of a basic sequence in the laminin alpha2LG3 module leads to a lack of proteolytic processing and has different effects on beta1 integrin-mediated cell adhesion and alpha-dystroglycan binding.
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A RRKRRQ sequence unique to the LG3 module of the laminin alpha2 chain was previously shown to be sensitive to endogenous proteolysis during the recombinant production of the tandem array alpha2LG1-3. Mutation of RQ surrounding the cleaved peptide bond did not prevent this processing and intracellular degradation. Alanine mutagenesis of three alternate basic residues, however, was shown to prevent the cleavage in alpha2LG1-3, allowing for the alpha2LG3 module to be obtained as a folded, globular fragment. The mutation did not change heparin and sulfatide binding or cell adhesion of alpha2LG1-3 which can be mediated by alpha3beta1 and alpha6beta1 integrins. It did, however, cause a 10-fold reduction in alpha-dystroglycan binding. The data favor the interpretation that binding epitopes for heparin/sulfatides, beta1 integrins and alpha-dystroglycan occupy different parts of the alpha2LG1-3 structure. (+info)
Calpain cleavage of integrin beta cytoplasmic domains.
(77/1924)
We showed previously that the calcium-dependent protease, calpain, cleaves the cytoplasmic domain of the integrin beta3 subunit. To investigate whether susceptibility to calpain is a common feature of all integrin beta subunits, and to map calpain cleavage sites in different integrin beta tails, we treated recombinant cytoplasmic domains of integrin beta1A, beta1D, beta2, beta3 and beta7 subunits with purified calpain in vitro. We found that the cytoplasmic domains of all these integrin chains were cleaved by calpain. HPLC followed by mass spectrometry was used to identify calpain cleavage sites. These sites were clustered in the C-terminal half of the integrin beta cytoplasmic domains in regions flanking the two NXXY motifs, suggesting the possibility that the structural framework provided by these motifs is recognized by calpain. We used the knowledge of these cleavage sites to develop cleavage site-specific antibodies and to demonstrate cleavage of the beta1A cytoplasmic domain in intact platelets stimulated with calcium ionophore or thrombin. Thus susceptibility to calpain cleavage is common to integrin beta subunits, can be induced in intact cells, and appears to favor regions surrounding two conserved NXXY motifs. (+info)
Remodeling of cell-cell and cell-extracellular matrix interactions at the border zone of rat myocardial infarcts.
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At the border zone of myocardial infarcts, surviving cardiomyocytes achieve drastic remodeling of cell-cell and cell-extracellular matrix interactions. Spatiotemporal changes in these interactions are likely related to each other and possibly have significant impact on cardiac function. To elucidate the changes, we conducted experimental infarction in rats and performed 3-dimensional analysis of the localization of gap junctions (connexin43), desmosomes (desmoplakin), adherens junctions (cadherin), and integrins (beta(1)-integrin) by immunoconfocal microscopy. After myocardial infarction, changes in the distribution of gap junctions, desmosomes, and adherens junctions showed a similar but nonidentical tendency. In the early phase, gap junctions almost disappeared at stumps (longitudinal edges of cardiomyocytes facing the infarct), and, although desmosomes and adherens junctions decreased, they still remained. In the healing phase, at stumps, connexin43, desmoplakin, and cadherin were closely associated between multiple cell processes originating from a single cardiomyocyte. Electron microscopy confirmed the presence of junctional complexes between the cell processes. beta(1)-Integrin at the cell process increased during the formation of papillary myotendinous junction-like structures. Abnormal localization of connexin43 was often accompanied by desmoplakin and cadherin on lateral surfaces of surviving cardiomyocytes. These findings suggested that remodeling of gap junction distribution was closely linked to changes in desmosomes and adherens junctions and that temporary formation of intracellular junctional complexes was an element of the remodeling of cell-cell and cell-extracellular matrix interactions after myocardial infarction. Moreover, the remodeling of the intercalated disk region at the myocardial interface with area of scar tissues was associated with the acquisition of extracellular matrix and beta(1)-integrin. (+info)
Integrin subunits (beta)1C-1 and (beta)1C-2 expressed in GD25T cells are retained and degraded intracellularly rather than localised to the cell surface.
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We have previously identified the integrin (beta)1C-2 and characterised the distribution of (beta)1C-1 and (beta)1C-2 transcripts in various cell lines and normal cells. In this study we have investigated the expression of the two (beta)1C-variants in integrin (beta)1 deficient mouse GD25T cells. After stable transfection of the GD25T cells with cDNAs coding for (beta)1A, (beta)1C-1 and (beta)1C-2, the cell surface expression of the (beta)1C-1 and (beta)1C-2 variants was found to be very low while the (beta)1A variant was expressed at high levels. Northern blot analysis showed that the level of (beta)1-transcript in the (beta)1C-1 and (beta)1C-2 clones was equal or higher than in the (beta)1A clones. Metabolic labelling and deglycosylation by endoglycosidase H treatment clearly demonstrated that the majority of the (beta)1C-1 and (beta)1C-2 chains did not become maturely glycosylated, nor did they dimerize with (alpha) subunits. After 20 hours of chase, the labelled (beta)1C-1 and (beta)1C-2 chains had been gradually degraded, whereas immature (beta)1A was converted into the maturely glycosylated form during the same period of time. Immunostaining showed intracellular (beta)1 localisation in the (beta)1C-1 and (beta)1C-2 expressing clones, while in the (beta)1A expressing clones the (beta)1 chains were mainly localised to focal adhesion sites and along fibronectin fibres. Taken together, we have shown that expression of both integrin (beta)1C-1 and (beta)1C-2 in GD25T cells result in very low cell surface expression compared with the normal (beta)1A isoform. Instead, both (beta)1C-1 and (beta)1C-2 chains remain in the endoplasmic reticulum until they are intracellularly degraded. (+info)
alpha9beta1 integrin is expressed on human neutrophils and contributes to neutrophil migration through human lung and synovial fibroblast barriers.
(80/1924)
Accumulation of leukocytes in inflamed tissue involves their migration through vascular endothelium and then in the connective tissue. Recently we utilized a barrier of human synovial, dermal, and lung fibroblasts (HSF, HDF, and HLF) grown on polycarbonate filters as a model of human polymorphonuclear leukocyte (PMN) migration through connective tissue. The beta2 integrins (CD 11/ CD18) and alpha4, alpha5, and alpha6beta1 (VLA-4, -5, and -6) integrins each contributed to this PMN migration. Here we report that on human blood leukocytes, alpha9beta1 (VLA-9) is expressed only on PMNs and that it is up-regulated after PMN activation. Based on monoclonal antibody (mAb) blocking studies, alpha9beta1 integrin contributed to C5a-induced PMN migration through fibroblast (HLF and HSF) barriers. This role was apparent only when alternate mechanisms such as CD18, alpha4, alpha5, and alpha6beta1 integrins were blocked and then mAb to alpha9beta1 integrin inhibited the residual PMN migration (by 40-50%) through the HLF or HSF barrier, resulting in > or = 75% inhibition overall. In contrast, PMN migration across interleukin-1-activated endothelium (HUVEC) in response to a C5a gradient, which is partly (30-40%) via CD11/CD18-independent mechanisms, was not inhibited by adhesion blocking by mAbs to alpha4, alpha5, alpha6, and alpha9beta1 even in combination. These results indicate that alpha9beta1 integrin on PMN may have a special role, in conjunction with other beta1 integrins, in mediating PMN migration in the extravascular space, and may contribute to differential neutrophil function within tissues. (+info)