EC:2.7.11.13 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.13 (protein kinase C)
49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Crosslinking HLA-DR molecules by monoclonal antibodies (moAbs) induces protein tyrosine phosphorylation and results in a secondary elevation of free cytoplasmic calcium concentrations in activated human T cells. Binding of bacterial superantigens or moAbs to DR molecules on activated T cells was recently reported to induce homotypic aggregation through activation of protein kinase C (PKC) and mediated by CD11a/CD54 (LFA-1/CAM-1) adhesion molecules. Here, we report that moAbs directed against framework DR, but neither DR1, 2- and DRw52- nor DQ- and DP-specific moABs induced homotypic aggregation of antigen- and alloantigen-activated T cells, antigen-specific CD4+ T-cell lines, a CD8+ T-cytotoxic cell line, and T-leukemia cells (HUT78). Protein tyrosine kinase (PTK) inhibitor herbimycin A partly blocked class-II-induced aggregation responses. In contrast, phorbol ester (PMA)-induced aggregation was essentially unaffected. A potent inhibitor of PKC, staurosporin, inhibited both moAb- and PMA-induced aggregation responses. The aggregation responses were completely inhibited by low temperatures, cytochalasins B and E, and partly inhibited by EDTA and CD18 moAbs, but unaffected by aphidicolin, mitomycin C, an adenylate cyclase inhibitor (2'5'-dideoxyadenosine), and moAbs against other adhesion molecules (CD2/CD58 [LFA-3], CD28/CD28 ligand B7, CD4, and CD44). In conclusion, HLA class-II-induced aggregation responses in activated T cells appear to involve PTK and PKC activation and to be mediated through CD11a-dependent and independent adhesion pathways.
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PMID:Signal transduction by HLA class II molecules in human T cells: induction of LFA-1-dependent and independent adhesion. 128 78

Directed migration of lymphocytes from blood into lymph nodes and gut-associated lymphatic tissue, also referred to as homing, is subject to change following activation. Lymphocyte migration into lymphoid organs in vivo and binding to high endothelial venules in vitro is largely suppressed after short-term stimulation with phorbol esters. The observed functional alterations were correlated with changes in the expression of three putative homing receptors, LECAM-1 (MEL-14 antigen), LPAM-1/2 (alpha 4-integrin) and the murine CD44 (Pgp-1, H-CAM, Hermes-antigen equivalent) upon different modes of cellular activation. Expression of LECAM-1 (gp90 MEL-14), a lymphocyte adhesion molecule implicated in targeting extravasation into lymph nodes, was found to be lost almost completely within minutes after protein kinase C activation. LECAM-1 re-expression occurred within less than 24 h. Rapid loss of LECAM-1 was also observed after calcium ionophores whereas anti-CD3 or concanavalin A elicited a gradual and heterogeneous loss of LECAM-1 becoming detectable after several hours only. A number of cytokines tested were not able to induce alterations in LECAM-1 expression. In contrast, expression of LPAM-1/2 (alpha 4-integrin) and CD44 (Pgp-1, H-CAM), two adhesion molecules supposed to direct extravasation into Peyer's patches, remained stable for hours after every stimulus tested; CD44 expression gradually increased 24 h after mitogenic activation, whereas a small reduction only was observed for the expression of the alpha 4-chain under certain conditions. Thus, reduced extravasation of lymphocytes into Peyer's patches after activation is not due to a decline in the surface density of LPAM-1/2 alpha-chain or CD44 whereas alterations in migration into lymph nodes parallel the expression of LECAM-1.
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PMID:Lymphocyte activation and regulation of three adhesion molecules with supposed function in homing: LECAM-1 (MEL-14 antigen), LPAM-1/2 (alpha 4-integrin) and CD44 (Pgp-1). 137 Aug 69

We used complementary biochemical and immunological techniques to establish that an endothelial cell transmembrane glycoprotein, GP116, is a CD44-like molecule and binds directly both to extracellular matrix components (e.g., hyaluronic acid) and to ankyrin. The specific characteristics of GP116 are as follows: (i) GP116 can be surface labeled with Na 125I and contains a wheat germ agglutinin-binding site(s), indicating that it has an extracellular domain; (ii) GP116 displays immunological cross-reactivity with a panel of CD44 antibodies, shares some peptide similarity with CD44, and has a similar 52-kDa precursor molecule, indicating that it is a CD44-like molecule; (iii) GP116 displays specific hyaluronic acid-binding properties, indicating that it is a hyaluronic acid receptor; (iv) GP116 can be phosphorylated by endogenous protein kinase C activated by 12-O-tetradecanoylphorbol-13-acetate and by exogenously added protein kinase C; and (v) GP116 and a 20-kDa tryptic polypeptide fragment of GP116 from the intracellular domain are capable of binding the membrane-cytoskeleton linker molecule, ankyrin. Furthermore, phosphorylation of GP116 by protein kinase C significantly enhances GP116 binding to ankyrin. Together, these findings strongly suggest that phosphorylation of the transmembrane glycoprotein GP116 (a CD44-like molecule) by protein kinase C is required for effective GP116-ankyrin interaction during endothelial cell adhesion events.
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PMID:A CD44-like endothelial cell transmembrane glycoprotein (GP116) interacts with extracellular matrix and ankyrin. 140 35

Transmembrane signals generated following mAb binding to CD19, CD20, CD39, CD40, CD43, Leu-13 Ag, and HLA-D region gene products induced rapid and strong homotypic adhesion in a panel of human B cell lines. Lower levels of adhesion were also observed after engagement of CD21, CD22, and CD23. Adhesion induced by mAb binding to these Ag was identical with respect to the kinetics of adhesion and the morphology of the resulting cellular aggregates, and was distinct from PMA-induced adhesion in both of these properties. Adhesion was not observed in response to mAb binding to MHC class I, CD24, CD38, CD44, CD45RA, or CD72. In contrast to B cell lines, homotypic adhesion was not induced in two pre-B cell lines, in spite of their high level expression of CD19 and HLA-D. Adhesion induced by suboptimal stimulation through these surface Ag or by PMA was mediated primarily through LFA-1 and ICAM-1. However, optimal stimulation through CD19, CD20, CD39, CD40, and HLA-D induced strong homotypic adhesion that was not blocked by anti-LFA-1 mAb. This alternate pathway of adhesion was also observed in LFA-1-deficient cell lines and in the presence of EDTA, suggesting that adhesion was not mediated by integrins. Adhesion in response to engagement of cell-surface Ag was unaffected by H7 or genestein, but was significantly inhibited by staurosporine, and was completely ablated by sphingosine and herbimycin. These studies indicate that engagement of multiple B cell-surface molecules initiates a signal transduction cascade that involves tyrosine kinases but not protein kinase C, and which leads to homotypic adhesion. Furthermore, adhesion was mediated by at least two distinct cell-surface adhesion receptors: LFA-1/ICAM-1 and a heretofore unknown adhesion receptor.
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PMID:Transmembrane signals generated through MHC class II, CD19, CD20, CD39, and CD40 antigens induce LFA-1-dependent and independent adhesion in human B cells through a tyrosine kinase-dependent pathway. 172 39

The expression of human immunodeficiency virus type 1 (HIV) is enhanced after T cell activation due to the interaction of cell-encoded nuclear factors with binding sites in the viral long terminal repeats (LTR). We studied the minimal signal transduction requirements for induction of HIV transcription during T cell activation. Monoclonal antibodies (mAb) against the T cell receptor/CD3 complex induced interleukin (IL) 2 production as well as HIV-LTR-directed gene expression in Jurkat T cells. Addition of cyclosporin A or buffering of intracellular Ca2+ changes did not abolish this LTR-directed gene expression but did block IL 2 production. In contrast, interference with protein kinase C (PKC) activation did inhibit both IL 2 production and LTR-driven gene expression. Under all conditions HIV-LTR-directed gene expression correlated with gene expression induced by the NF-kB binding enhancer, but not by the NF-AT or OCT-1 binding sites. In accordance with observations by Verweij, Geerts and Aarden on the CD28 co-stimulatory activation of IL2 transcription via an NF-kB-like activity, stimulation of the CD2, CD28 and CD44 accessory molecules was tested to mimick physiological activation signals independent of T cell receptor triggering. mAb directed against CD2 and CD44 only marginally induced the LTR. Next, non-mitogenic stimulation by mAb against CD28 clearly induced the HIV-LTR- and NF-kB- but not NF-AT- and OCT-1-driven chloramphenicol acetyltransferase CAT expression, showing a direct effect on gene expression via this receptor. Taken together, this report shows that non-mitogenic T cell activation signals are sufficient to induce HIV transcription. The finding that these signals may be delivered by receptors that are not dependent on antigen-specific activation may have important implications for our understanding of HIV pathogenesis.
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PMID:Non-mitogenic T cell activation signals are sufficient for induction of human immunodeficiency virus transcription. 184 14

We studied immunohistological and biochemical aspects of the CD44 molecule with a mAb produced in our lab: GRHL-1. The characteristic expression of this antigen in cells of B lineage was analyzed. This mAb showed identical immunohistological patterns of reactivity to other mAbs included in CD44 cluster, on a variety lymphoid and nonlymphoid human tissues, and demonstrated similar bands on SDS-PAGE of 125I labeled lymphocyte lysates. This antigen is limited to cells of mature phenotype, and disappears in proliferating B cells in the germinal centers of the lymphoid follicles. CD44 is absent in pre-B and Burkitt cell lines. PKC activation mediate in vitro differentiation of pre-B cell lines. However, it is not involved in up-regulation of CD44 antigen expression.
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PMID:Characterization of CD44 antigen during lymphoid ontogeny. 193 60

An in vitro model of T cell adhesion to human umbilical vein endothelial cells (HUVEC) and transendothelial migration was used to determine whether the activation state of the T cell or cytokine exposure of the HUVEC altered T cell-HUVEC interactions or receptor utilization. Stimulation of T cells with the activator of protein kinase C, phorbol dibutyrate (PDB) alone or in combination with the calcium ionophore, ionomycin increased their binding to HUVEC. Much of the binding of control and activated T cells to HUVEC was mediated by leukocyte function-associated Ag-1 (LFA-1) (CD11a/CD18), because mAb to either chain of this molecule inhibited binding substantially, but not completely. Activation of HUVEC with IL-1 also increased binding of T cells. Binding of control T cells to IL-1-stimulated HUVEC, however, was found to be LFA-1 independent, because mAb to CD11a/CD18 failed to block the interaction. In contrast, binding of activated T cells to IL-1-stimulated HUVEC was partially inhibited by mAb to LFA-1. Binding of activated T cells to IL-1-stimulated HUVEC also involved CD44 because this interaction was partially blocked by mAb to this determinant. When T cell migration was analyzed, it was found that the migration of PDB-activated T cells was three to four-fold more than that of control T cells. Migration through HUVEC and random migration were both enhanced by PDB stimulation. However, when the T cells were costimulated with PDB and ionomycin, migration was not increased above that of control T cells. PDB-activated T cells appeared to use LFA-1 for migration regardless of the activation status of the HUVEC, because mAb to CD11a/CD18 partially blocked their migration after binding to HUVEC. There was also a modest inhibition of PDB-activated T cell migration by mAb to CD44. In contrast, migration of control T cells involved neither LFA-1 nor CD44. Finally, binding of control T cells to high endothelial venules of peripheral lymphoid tissue was found to be CD11a/CD18 and CD44 independent, and completely inhibited by activation with either PDB or the combination of PDB and ionomycin. These results demonstrate that T cells use LFA-1 and CD44 as well as other as yet unidentified adhesion receptors for interactions with HUVEC, and that use of these adhesion receptors is mutable and related to the activation state of the T cell and cytokine stimulation of the HUVEC.
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PMID:Human T lymphocyte adhesion to endothelial cells and transendothelial migration. Alteration of receptor use relates to the activation status of both the T cell and the endothelial cell. 197 15

Differentiation of bone-marrow-derived precursor cells into mature mouse T lymphocytes occurs in the thymus and involves sequential interactions with MHC-positive hemopoietic and epithelial stromal cells. To study the in vitro molecular mechanisms at play during the lympho-epithelial cell adhesion, we derived thymic stromal cell lines which were shown to possess cytokeratin filaments and tight junctions. These mouse thymic epithelial (MTE) cell lines did not express the classical hemopoietic stromal cell surface markers (i.e. LFA-1, Mac-1, and CD45) but expressed ICAM-1, NCAM, J11d, CD44, and MHC molecules. A quantitative cell adhesion assay was used to evaluate the interaction of various lymphoid cell subsets with MTE cells. Two cell interaction patterns could be defined: first, a rapid adhesion of a fraction of CD4+CD8+ and of a few CD4-CD8- immature thymocytes to MTE cells was observed at 4 degrees C. The CD8 molecule was shown to be partially involved in this initial contact. The strength of adhesion between MTE cells and distinct thymocyte subsets was evaluated and found to be maximal with neonatal thymocytes. Second, a temperature-dependent adhesion step characterized by a rapid and active stabilization of the interaction of MTE cells with 20% of CD4+CD8+CD3low thymocytes was seen, followed by a more progressive de-adhesion step. This active process of engagement was highly LFA-1-dependent, involved the CD4 and CD8 molecules, and required protein kinase C activation and cytoskeletal integrity. The results are consistent with the involvement of LFA-1 in a transient and regulated cell adhesion under the control of the TCR-CD3 complex that progressively appears on maturing cells. This phenomenon might contribute to the selection of a subset of immature thymocytes by epithelial cells occurring during the process of maturation of these cells.
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PMID:Mouse thymic epithelial cell lines interact with and select a CD3lowCD4+CD8+ thymocyte subset through an LFA-1-dependent adhesion--de-adhesion mechanism. 215 May 94

A brief incubation of lymphocytes with either PMA, stimulating protein kinase C, or with dibutyryl-cAMP, leading to protein kinase A activation, led to increased lymphocyte penetration through intact endothelial monolayers in vitro. The PMA-induced penetration could be dose-dependently down-regulated with a protein kinase C inhibitor, H7. Similarly HA 1004, being mainly a protein kinase A inhibitor, decreased the dibutyryl-cAMP induced penetration. Treatment of lymphocytes with PMA and cAMP did not alter the expression of CD44 homing receptors on lymphocytes. Stimulation of lymphocytes with dibutyryl-cGMP or calcium ionophore had no effect on lymphocyte penetration. These results suggest that activation of both protein kinases A and C is important in the lymphocyte binding to endothelium.
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PMID:Activation of protein kinases A and C increase lymphocyte penetration through endothelial monolayers. 216 4

The CD44 molecule, a molecule which has been previously known as Hermes, Pgp-1, extracellular matrix receptor III, and In(Lu)-related p80, is currently thought to be involved in several steps of normal immune cell function, including lymphocyte adhesion to high endothelial venules and to the extracellular matrix and T cell activation. We now demonstrate that triggering of CD44 on T lymphocytes by anti-CD44 mAb promotes cell adhesion. The induced homotypic adhesion is mediated by lymphocyte function-associated antigen-1 (LFA-1), because it was inhibited by anti-LFA-1 antibodies and not by anti-LFA-3 antibodies. This notion is supported by the temperature and Mg2+ dependence which is characteristic of LFA-1-mediated adhesion. Moreover, the sensitivity of CD44-induced adhesion to AMG and H7, which both prevent the activation of protein kinase C, and to cytochalasin B, which inhibits microfilament formation, suggests that the activation of the LFA-1 pathway via CD44 involves protein kinase C activation and requires an intact cytoskeleton.
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PMID:Triggering of the CD44 antigen on T lymphocytes promotes T cell adhesion through the LFA-1 pathway. 224 3

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