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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Adhesion and degranulation-promoting adapter protein (ADAP) is critically involved in downstream signalling events triggered by the activation of the T cell receptor. Cytokine production, proliferation and integrin clustering of T cells are dependent on ADAP function, but the molecular basis for these processes is poorly understood. We now show the hSH3 domain of ADAP to be a lipid-interaction module that binds to acidic lipids, including phosphatidylinositides. Positively charged surface patches of the domain preferentially bind to polyvalent acidic lipids such as PIP2 or PIP3 over the monovalent PS phospholipid and this interaction is dependent on the N-terminal helix of the hSH3 domain fold. Basic amino acid side-chains from the SH3 scaffold also contribute to lipid binding. In the context of T cell signalling, our findings suggest that ADAP, upon recruitment to the cell-cell junction as part of a multiprotein complex, directly interacts with phosphoinositide-enriched regions of the plasma membrane. Furthermore, the ADAP lipid interaction defines the helically extended SH3 scaffold as a novel member of membrane interaction domains.
J Mol Biol 2005 May 13
PMID:The helically extended SH3 domain of the T cell adaptor protein ADAP is a novel lipid interaction domain. 1584 31

Initial adhesive contacts between T lymphocytes and dendritic cells (DCs) facilitate recognition of peptide-MHC complexes by the TCR. In this report, we studied the dynamic behavior of adhesion and Ag receptors on DCs during initial contacts with T-cells. Adhesion molecules LFA-1- and ICAM-1,3-GFP as well as MHC class II-GFP molecules were very rapidly concentrated at the DC contact area. Binding of ICAM-3, and ICAM-1 to a lesser extent, to LFA-1 expressed by mature but not immature DC, induced MHC-II clustering into the immune synapse. Also, ICAM-3 binding to DC induced the activation of the Vav1-Rac1 axis, a regulatory pathway involved in actin cytoskeleton reorganization, which was essential for MHC-II clustering on DCs. Our results support a model in which ICAM-mediated MHC-II clustering on DC constitutes a priming mechanism to enhance antigen presentation to T-cells.
Mol Biol Cell 2005 Jul
PMID:Synaptic clusters of MHC class II molecules induced on DCs by adhesion molecule-mediated initial T-cell scanning. 1587 88

The chemokine CXCL12 promotes T lymphocyte adhesion mediated by the integrin alpha4beta1. CXCL12 activates the GTPase Rac, as well as Vav1, a guanine-nucleotide exchange factor for Rac, concomitant with up-regulation of alpha4beta1-dependent adhesion. Inhibition of CXCL12-promoted Rac and Vav1 activation by transfection of dominant negative Rac or Vav1 forms, or by transfection of their siRNA, remarkably impaired the increase in T lymphocyte attachment to alpha4beta1 ligands in response to this chemokine. Importantly, inhibition of Vav1 expression by RNA interference resulted in a blockade of Rac activation in response to CXCL12. Adhesions in flow chambers and soluble binding assays using these transfectants indicated that initial ligand binding and adhesion strengthening mediated by alpha4beta1 were dependent on Vav1 and Rac activation by CXCL12. Finally, CXCL12-promoted T-cell transendothelial migration involving alpha4beta1-mediated adhesion was notably inhibited by expression of dominant negative Vav1 and Rac. These results indicate that activation of Vav1-Rac signaling pathway by CXCL12 represents an important inside-out event controlling efficient up-regulation of alpha4beta1-dependent T lymphocyte adhesion.
Mol Biol Cell 2005 Jul
PMID:Vav1 and Rac control chemokine-promoted T lymphocyte adhesion mediated by the integrin alpha4beta1. 1587 91

Mechanical interactions between a cell and its environment regulate migration, contractility, gene expression, and cell fate. We integrated micropatterned substrates to engineer adhesive area and a hydrodynamic assay to analyze fibroblast adhesion strengthening on fibronectin. Independently of cell spreading, integrin binding and focal adhesion assembly resulted in rapid sevenfold increases in adhesion strength to steady-state levels. Adhesive area strongly modulated adhesion strength, integrin binding, and vinculin and talin recruitment, exhibiting linear increases for small areas. However, above a threshold area, adhesion strength and focal adhesion assembly reached a saturation limit, whereas integrin binding transitioned from a uniform distribution to discrete complexes. Adhesion strength exhibited exponential increases with bound integrin numbers as well as vinculin and talin recruitment, and the relationship between adhesion strength and these biochemical events was accurately described by a simple mechanical model. Furthermore, adhesion strength was regulated by the position of an adhesive patch, comprised of bound integrins and cytoskeletal elements, which generated a constant 200-nN adhesive force. Unexpectedly, focal adhesion assembly, in particular vinculin recruitment, contributed only 30% of the adhesion strength. This work elucidates the roles of adhesive complex size and position in the generation of cell-extracellular matrix forces.
Mol Biol Cell 2005 Sep
PMID:Cell adhesion strengthening: contributions of adhesive area, integrin binding, and focal adhesion assembly. 1600 Mar 73

Adhesion to type 1 collagen elicits different responses dependent on whether the collagen is in fibrillar (gel) or monomeric form (film). Hepatocytes adherent to collagen film spread and proliferate, whereas those adherent to collagen gel remain rounded and growth arrested. To explore the role of potential intracellular inhibitory signals responsible for collagen gel-mediated growth arrest, cAMP-dependent protein kinase A (PKA) was examined in hepatocytes adherent to collagen film or gel. PKA activity was higher in hepatocytes on collagen gel than on film during G1 of the hepatocyte cell cycle. Inhibition of PKA using H89 increased cell spreading on collagen gel in an EGF-dependent manner, whereas activation of PKA using 8-Br-cAMP decreased cell spreading on collagen film. PKA inhibition also restored ERK activation, cyclin D1 expression and G1-S progression on collagen gel, but had no effect on cells adherent to collagen film. Analysis of EGF receptor phosphorylation revealed that adhesion to collagen gel alters tyrosine phosphorylation of the EGF receptor, leading to reduced phosphorylation of tyrosine residue 845, which was increased by inhibition of PKA. These results demonstrate that fibrillar type 1 collagen can actively disrupt cell cycle progression by inhibiting specific signals from the EGF receptor through a PKA-dependent pathway.
Mol Biol Cell 2006 Jan
PMID:Type I collagen structure regulates cell morphology and EGF signaling in primary rat hepatocytes through cAMP-dependent protein kinase A. 1625 47

Mast cells are involved in both the genesis of allergic inflammation and in host defense; and reside in tissues where their location and responsiveness is regulated in part by adhesion to extracellular matrix proteins (ECM). We have reported that human mast cells (huMC) express TLR1-7, and 9 and respond to toll-like receptors (TLR) ligands by releasing cytokines and leukotriene C4. To determine if TLR ligation could similarly affect mast cells via an influence on adhesion, we employed huMC; and as substrates, fibronectin (FN) and vitronectin (VN). huMC were thus treated with double-stranded RNA (dsRNA) and adhesion to ECM was quantified. FcvarepsilonRI dependent mast cell degranulation was assessed. Adhesion molecule expression and activation was measured by flow cytometry. Activation of huMC through TLR3 with increasing amounts of polyI:C inhibited mast cell adhesion in a dose-dependent manner. This decrease in adhesion was accompanied by a similar decrease in IgE-mediated mast cell degranulation. Activation of TLR3 on huMC resulted in a change in the conformation of CD29, the receptor for FN, to an inactive form. Thus, TLR3 activation decreases mast cell attachment to VN and FN through an active process and one, which would abrogate mast cell attachment dependent potentiation of IgE-mediated responses.
Mol Immunol 2006 Apr
PMID:TLR3 activation inhibits human mast cell attachment to fibronectin and vitronectin. 1628 Jan 66

Although the endothelial expression of various adhesion molecules substantially differs between pulmonary microvessels, their importance for neutrophil and lymphocyte sequestration in ventilator-induced lung injury (VILI) has not been systematically analyzed. We investigated the kinetics of polymorphonuclear cells (PMN) and mononuclear cells (MN) in the acinar microcirculation of the isolated rat lung with VILI by real-time confocal laser fluorescence microscopy, with or without inhibition of ICAM-1, VCAM-1, or P-selectin by monoclonal antibodies (MAb). Adhesion molecules in each microvessel were estimated by intravital fluorescence microscopy or immunohistochemical staining. In high tidal volume-ventilated lungs, 1) ICAM-1, VCAM-1, and P-selectin were differently upregulated in venules, arterioles, and capillaries; 2) venular PMN rolling was improved by inhibition of ICAM-1, VCAM-1, or P-selectin, whereas arteriolar PMN rolling was improved by ICAM-1 or VCAM-1 inhibition; 3) capillary PMN entrapment was ameliorated only by anti-ICAM-1 MAb; and 4) MN rolling in venules and arterioles and MN entrapment in capillaries were improved by ICAM-1 and VCAM-1 inhibition. In conclusion, the contribution of endothelial adhesion molecules to abnormal leukocyte behavior in VILI-injured microcirculation is microvessel and leukocyte specific. ICAM-1- and VCAM-1-dependent, but P-selectin-independent, arteriolar PMN rolling, which is expected to reflect the initial stage of tissue injury, should be taken as a phenomenon unique to ventilator-associated lung injury.
Am J Physiol Lung Cell Mol Physiol 2006 Jun
PMID:Various adhesion molecules impair microvascular leukocyte kinetics in ventilator-induced lung injury. 1638 54

The type IV pili (Tfp) of Neisseria meningitidis play an essential role in meningococcal virulence by mediating the initial interaction of bacteria with host cells. Tfp are also subject to retraction, which relies on the PilT protein. Among the other components of the Tfp machinery, PilC1, a pilus-associated protein, is important for Tfp biogenesis and adhesion. Adhesion of N. meningitidis to living epithelial cells was previously shown to rely on the upregulation of the pilC1 gene. On the other hand the lack of induction of pilC1 is believed to be responsible for the low adhesion of N. meningitidis onto fixed dead cells. Surprisingly, a pilT mutant, unable to retract its pili, has been shown to adhere very efficiently onto both living and fixed epithelial cells. To elucidate the mechanisms by which the pilus retraction machinery mediates meningococcal adhesion onto fixed cells, an analysis of gene expression levels in wild-type and pilT meningococci was performed using DNA microarrays. One of the upregulated genes in the pilT strain was pilC1. This result was confirmed using quantitative real-time reverse-transcription polymerase chain reaction (RT-PCR) and immunoblot analysis. The transcription starting point responsible for the upregulation of pilC1 in a pilT background was shown to be different from those controlling the induction of pilC1 upon contact with living host cells. Subsequent work using a strain hyperproducing PilT confirmed that PilT downregulates the production of PilC1. Furthermore using a pilC1 allele under the control of IPTG, we demonstrated that the upregulation of pilC1 in a pilT background was responsible for the adhesive phenotype onto fixed dead cells. Taken together our results demonstrate that the pilus retraction machinery negatively controlled the adhesiveness of the Tfp via the expression of pilC1.
Mol Microbiol 2006 Jan
PMID:Pilus-mediated adhesion of Neisseria meningitidis is negatively controlled by the pilus-retraction machinery. 1639 Apr 51

Basement membrane (BM) is a highly specialized extracellular matrix (ECM), which is associated with epithelia and endothelia. BM provide epithelia with structural support and also regulate cell behavior. The liver contains a unique ECM within the space of Disse, which consists of basement membrane constituents as well as fibrillar ECM molecules. Changes in composition of this ECM are considered detrimental for viability of hepatocytes during progression of liver disease. Mouse tumor-derived BM preparations, such as Matrigel, which are commonly used as a model for BM in vitro, differ significantly in their composition from liver BM present in vivo. In order to gain further insights into the role of BM in the regulation of hepatocyte behavior in health and disease, we generated a liver-derived basement membrane matrix (LBLM). LBLM allowed investigation of BM-hepatocyte interactions in vitro. Here we report a novel approach of generating a liver-derived basement membrane matrix by separate isolation of type IV collagen, laminin, nidogen, and heparan sulfate proteoglycans, and subsequent reconstitution into a matrix-like gel. Adhesion of primary human hepatocytes to LBLM was increased and the rate of de-differentiation was decreased compared to hepatocyte cultivation on Matrigel or type I collagen matrix. Primary human hepatocytes maintained their differentiated epithelial phenotype on LBLM isolated from normal human livers for more than 21 days, whereas they de-differentiated rapidly on LBLM isolated from cirrhotic human livers. Normal human LBLM contains a unique isoform composition of type IV collagen, namely alpha1 (IV), alpha2(IV), alpha4(IV), and alpha6(IV) chains, whereas cirrhotic LBLM contains only alpha1(IV) and alpha2(IV) isoforms, albeit present in increased amounts. These findings suggest that the composition of liver basement membrane is important for the maintenance of hepatocyte viability and provide anti-de-differentiation clues.
Mol Cell Biochem 2006 Feb
PMID:De-differentiation of primary human hepatocytes depends on the composition of specialized liver basement membrane. 1644 1

Platelet Endothelial Cell Adhesion Molecule (PECAM) is an adhesion and signaling molecule used for leukocyte extravasation. We have generated two strains of PECAM-deficient mouse, one in the original C57BL/6 and a second by backcrossing nice generations into the FVB/n strain. The FVB/n strain has reduced responses in models of acute inflammation. We show here that this strain is also susceptible to a chronic pneumonia which leads to pulmonary fibrosis. In contrast, PECAM-deficient C57BL/6 mice do not develop this lung disease and have normal responses in acute models of inflammation. This demonstrates that PECAM-dependent and -independent mechanisms are found in both acute and chronic inflammation. Further, the PECAM-deficient FVB/n strain has many pathologic similarities to the human disease Idiopathic Pulmonary Fibrosis, suggesting that similar molecular mechanisms may play a role in human disease.
Exp Mol Pathol 2006 Aug
PMID:Different susceptibilities of PECAM-deficient mouse strains to spontaneous idiopathic pneumonitis. 1645 10


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