Protein kinase C is required for responses to T cell receptor ligands but not to interleukin-2 in T cells

We have tested the role of protein kinase C in mRNA expression and T cell proliferation mediated through the T cell receptor and through the interleukin-2 (IL-2) receptor. Chronic treatment of a mouse T cell clone with phorbol esters caused a complete loss of protein kinase C activity and a concomitant loss of proliferation to T cell receptor ligands (antigen, lectins, antireceptor antibodies). In contrast, kinase C-depleted T cells retained the ability to proliferate to IL-2. Loss of the T cell receptor response was not due to decreased cell surface expression of receptor or impairment of early receptor function (phosphatidylinositol turnover, calcium mobilization). Kinase C-depleted T cells showed no induction of mRNAs for activation-associated genes on exposure to the T cell receptor ligand Concanavalin A; expression of a subset of the same mRNAs in response to IL-2 was unaffected. We conclude that kinase C is required for mRNA expression and subsequent proliferation mediated through the T cell receptor pathway but is not involved in mRNA expression and proliferation in response to IL-2.     

Kinetics of IL-2 and interferon-gamma production, expression of IL-2 receptors, and cell proliferation in human mononuclear cells exposed to staphylococcal enterotoxin A

Staphylococcal Enterotoxin A (SEA) at picogram amounts induces high levels of interleukin 2 (IL-2) and interferon in human mononuclear cells. SEA is a stronger inducer of IL-2 than phytohemagglutinin, leukoagglutinin, and concanavalin A. The IL-2 induction is very rapid with maximal levels being reached after 18 to 24 hr. The IL-2 concentration decreases rapidly and almost no IL-2 activity can be detected in supernatants of cells cultured for 3 days or more. Maximal DNA synthesis is recorded 3 days after maximal IL-2 levels have been reached in the culture medium. The DNA synthesis shows a 24 hr delay as compared to the expression of the IL-2 receptor during the initiation phase. An increase in the level of IL-2 receptor expression is apparent as early as 12 hr after stimulation with SEA and maximal expression is reached 48 to 72 hr after stimulation. The percentage of cells expressing the IL-2 receptor is maximal at 96 hr after onset of culture but the surface concentration of the receptor is lower than at 72 hr. The decline in expression of the IL-2 receptor is accompanied by a decline in mean cell size and in DNA-synthesis. The concentration of the T-cell marker T11 increases in parallel with the growing expression of the IL-2 receptor. It remains increased over a longer period than the IL-2 receptor and is still significantly augmented after 10 days' exposure to SEA.     

Regulation of expression of the cell adhesion receptors, integrins, by recombinant human interleukin-1 beta in human osteosarcoma cells: inhibition of cell proliferation and stimulation of alkaline phosphatase activity

Recombinant human interleukin-1 beta, a mediator of osteoblastic cell function, was found to regulate the expression of the cell adhesion receptors, integrins, on human osteosarcoma cells. Interleukin-1 beta (IL-1 beta) at picomolar concentrations, specifically elevated approximately six- to tenfold the expression of the beta 1 subunit and its associated alpha subunits, but not the related vitronectin receptor, within 20 hours. Integrin beta 1 messenger RNA levels were elevated within 6 hours and peaked to tenfold higher levels after 20 hours exposure to IL-1 beta in two human osteosarcoma cell lines. The increase in the cell-surface beta 1 integrins resulted in a stronger binding of the IL-1 beta-treated cells to fibronectin. Cell growth was also inhibited by IL-1 beta, cell morphology was altered, and IL-1 beta-treated cells expressed an approximately two- to threefold higher alkaline phosphatase. This increase in alkaline phosphatase activity was found to be independent of the inhibition of cell proliferation. These data indicate that the beta 1 integrin family of cell surface receptors is a target for regulation by IL-1 beta, which also regulates cell proliferation and the expression of the osteoblastic phenotype in human osteosarcoma cells.     

表达人去唾液酸糖蛋白受体分子细胞系的建立

目的构建稳定表达人肝细胞表面分子去唾液酸糖蛋白受体（asialoglycoprotein receptor,ASGPR）的细胞系。方法逆转录PCR扩增人肝组织ASGPR大亚基H1全编码序列,插入到真核表达载体plRES2EGFP中,重组质粒pIRES2EGFP／ASGPRH1转染HeLa细胞,G418筛选,RT—PCR,Western印迹及免疫荧光检测ASGPRH1的表达。结果成功构建了pIRES2EGFP／ASGPRH1重组质粒,该质粒转染HeLa细胞后,Western印迹及免疫荧光均检测到ASGPRHI蛋白的表达。结论成功建立了稳定表达人ASGPRH1的细胞系,为进一步研究ASGPR分子奠定了基础。     

Design of transgenes for efficient expression of active chimeric proteins on mammalian cells

Heterologous proteins expressed on the surface of cells may be useful for eliciting therapeutic responses and engineering new extracellular properties. We examined factors that control the membrane targeting of alpha-fetoprotein (AFP) and a single-chain antibody (scFv). Chimeric proteins were targeted to the plasma membrane by employing the transmembrane domain (TM) and cytosolic tail of murine CD8O (B7-1), the TM of the human platelet-derived growth factor receptor (PDGFR), the glycosylphosphatidylinositol anchor encoded by the C-terminal extension of decay-accelerating factor (DAF), and the TM of the H1 subunit of the human asialoglycoprotein receptor (ASGPR). AFP chimeric proteins containing the B7, DAF, ASGPR, or PDGFR targeting domains displayed half-lives of 12.2, 3.8, 2.4, and 1.6 h, respectively. The newly synthesized B7 chimera was rapidly transported and remained on the cell surface. Glycosylphosphatidylinositol-anchored chimeras reached the surface more slowly and significant amounts were released into the culture medium. PDGFR TM chimeras were rapidly degraded, whereas ASGPR chimeras were retained in the endoplasmic reticulum (ER). The surface expression of both AFP and scFv chimeric proteins followed the order (highest to lowest) of B7 > DAF > PDGFR. Introduction of a dimerization domain (hinge-CH(2)-CH(3) region of human IgG1) between scFv and TM dramatically reduced cleavage of the chimeric protein, increased surface expression, and produced biologically active scFv. Our results indicate that transgenes designed for the expression of active scFv on cells should incorporate a TM that does not undergo endocytosis, include an intact cytoplasmic domain, and possess a spacer to reduce cleavage and retain biological activity.     

Regulation of LDL receptor, apoB, and apoE protein and mRNA in Hep G2 cells.

The regulation of low-density lipoprotein (LDL) receptor activity, protein synthesis, and cellular mRNA content was evaluated in the human hepatoma cell line Hep G2. Incubation of the cells with LDL led to a complete downregulation of LDL receptor mRNA and LDL receptor protein synthesis. This LDL regulation of the LDL receptor and its mRNA was both time- and concentration-dependent. In contrast to protein synthesis and cellular mRNA concentrations of the LDL receptor, which were reduced to undetectable levels by prolonged incubation in the presence of LDL, LDL receptor activity was reduced to only 44% of preincubation levels. These findings support the presence of a second metabolic pathway for LDL uptake in human hepatocytic cells. The effect of LDL on cellular LDL receptor expression was specific for LDL because incubation in the presence of HDL did not affect any of these study end points. The potential coordinate regulation of the expression of the LDL receptor with its principal ligands, apolipoproteins (apo) B and E, was also investigated. In contrast to the LDL receptor mRNA downregulation with LDL incubation, cellular apoB and apoE mRNA concentrations were not affected by either LDL or HDL. Secretion of apoB, however, was significantly increased by incubating Hep G2 cells with LDL. These findings indicate that, in contrast to LDL receptor which is regulated at the mRNA level, the ligands for the LDL receptor are regulated either co- or post-translationally.     

IL-4-dependent up-regulation of IL-4 receptor expression in murine T and B cells

This study examined mRNA levels and cell surface expression of IL-4 receptor (IL-4R) in murine T and B cells after incubation with IL-4. Northern blot analysis of mRNA levels of T cells isolated from mesenteric lymph nodes and spleen revealed that IL-4 induced a transient augmentation of IL-4R mRNA in a dose-dependent manner. Maximal levels of mRNA were detected as early as 5 h after initiation of culture. These data were complemented by studies examining the cell surface expression of IL-4R using an anti-IL-4R mAb. Resting T and B lymphocytes express IL-4R (T greater than B) and incubation of these cells with exogenous IL-4 increased IL-4R expression to a maximum after 24 h. This effect was abolished after addition of anti-IL-4 antibody. Continuous incubation of T cells in the presence of high concentrations of IL-4 resulted in a down-regulation of IL-4R expression. Addition of the protein synthesis inhibitor cycloheximide blocked the induced increases in IL-4R expression, indicating the requirement for de novo protein synthesis. Both the levels of mRNA and cell surface expression of IL-4R were not affected by addition of exogenous IL-2, and IL-4 regulation of IL-4R expression was not influenced by the immunosuppressive drug cyclosporin A. These data demonstrate that in T and B cells, IL-4 induces a transient up-regulation of IL-4 mRNA levels that is subsequently reflected in increased numbers of IL-4R displayed on the cell surface. This regulation of IL-4R expression by IL-4 provides an important mechanism for amplification of IL-4-dependent activation pathways.     

Uncoupling of phospholipase C from receptor regulation of [Ca2+]i in T84 colonic cells by prolonged exposure to phorbol dibutyrate

The T84 colonic cell line, a cultured Cl- secretory cell, elevates intracellular free Ca2+ [( Ca2+]i) in a concentration-dependent manner when exposed to carbachol or histamine. As determined with a fluorescence microscope imaging system, exposure of T84 cells to 100 microM carbachol or histamine resulted in an immediate [Ca2+]i rise of approximately 50-80 nM in all cells. Preincubation of monolayers for 1 h or longer with 0.4 microM phorbol 12,13-dibutyrate (PDB) reduced the number of cells which responded to histamine or carbachol and reduced the magnitude of the increase in the responding cells. This effect reached its maximum after 2 h and persisted for at least 24 h of PDB incubation. Binding of quinuclidinyl benzilate, a cholinergic receptor antagonist, indicated that down-regulation of external receptors was not an explanation for this effect. Examination of phospholipase C activity in T84 cell membranes showed increased basal activity in PDB-treated compared with control cells. Measurement of inositol phosphates generated by intact cells using myo-[3H]inositol incorporation or receptor binding assays showed that 2 h of incubation with PDB elevated basal levels of inositol 1,4,5-trisphosphate and prevented any further carbachol-induced generation of inositol trisphosphate. Probably as a consequence, both total cell calcium and Ca2+ ionophore-releasable calcium were decreased after 2 h of PDB incubation. Membrane-associated protein kinase C activity was elevated after a 2 h exposure to PDB but was below the level of detection after 24 h with PDB. Protein kinase C antagonists neither duplicated nor blocked the uncoupling of carbachol receptors induced by long term treatment with PDB. The results suggest that prolonged PDB incubation caused uncoupling and elevation of phospholipase C activity from cholinergic and histaminergic receptor regulation resulting in increased basal levels of inositol 1,4,5-trisphosphate. Protein kinase C apparently is not involved directly in the mechanism that leads to these effects.     

Detection of surface asialoglycoprotein receptor expression in hepatic and extra-hepatic cells using a novel monoclonal antibody

The asialoglycoprotein receptor (ASGPR) is a heterodimeric membrane protein which is involved in the internalization of desialylated glycoproteins and also in the binding and uptake of various pathogenic viruses. To facilitate the analysis of ASGPR expression, we generated a monoclonal antibody, termed ASSA-1, that is specific to the ASGPR H1 subunit based on ELISA and Western blots analysis. ASSA-1 also reacted to surface-displayed ASGPR in live cells thus enabling analysis of ASGPR expression by immunofluorescence flow cytometry, which we used to analyze established human liver cell lines previously confirmed to be positive for ASGPR mRNA expression. In agreement with previous reports, surface ASGPR was also detected in extra-hepatic cells and, surprisingly, even in human T cell lines, which was then further confirmed in activated, but not in resting, primary human peripheral blood lymphocytes. These observations suggest that ASGPR has a broad pattern of expression that even extends into cells from the immune system, which biological meanings still have to be analyzed. We expect that monoclonal antibody ASSA-1 will serve as a new powerful tool in analyzing the biological role of ASGPR in hepatic and extra-hepatic cells.     

Expression of the IL-7 Receptor Alpha-Chain Is Down Regulated on the Surface of CD4 T-Cells by the HIV-1 Tat Protein

HIV infection elicits defects in CD4 T-cell homeostasis in both a quantitative and qualitative manner. Interleukin-7 (IL-7) is essential to T-cell homeostasis and several groups have shown reduced levels of the IL-7 receptor alpha-chain (CD127) on both CD4 and CD8 T-cells in viremic HIV+ patients. We have shown previously that soluble HIV Tat protein specifically down regulates cell surface expression of CD127 on human CD8 T-cells in a paracrine fashion. The effects of Tat on CD127 expression in CD4 T-cells has yet to be described. To explore this effect, CD4 T-cells were isolated from healthy individuals and expression levels of CD127 were examined on cells incubated in media alone or treated with Tat protein. We show here that, similar to CD8 T-cells, the HIV-1 Tat protein specifically down regulates CD127 on primary human CD4 T-cells and directs the receptor to the proteasome for degradation. Down regulation of CD127 in response to Tat was seen on both memory and naive CD4 T-cell subsets and was blocked using either heparin or anti-Tat antibodies. Tat did not induce apoptosis in cultured primary CD4 T-cells over 72 hours as determined by Annexin V and PI staining. Pre-incubation of CD4 T-cells with HIV-1 Tat protein did however reduce the ability of IL-7 to up regulate Bcl-2 expression. Similar to exogenous Tat, endogenously expressed HIV Tat protein also suppressed CD127 expression on primary CD4 T-cells. In view of the important role IL-7 plays in lymphocyte proliferation, homeostasis and survival, down regulation of CD127 by Tat likely plays a central role in immune dysregulation and CD4 T-cell decline. Understanding this effect could lead to new approaches to mitigate the CD4 T-cell loss evident in HIV infection.     

Protein kinase C-linked inactivation of the interleukin-1 receptor in a human transformed B-cell line

The effect of tumor-promoting phorbol ester treatment on the binding of interleukin-1 beta (IL-1 beta) to specific cell surface receptors was investigated. A 1 h exposure of Raji human B lymphoma cells with the protein kinase C-activating phorbol ester, phorbol dibutyrate (PDBu), reduced IL-1 beta binding by up to 90% of control cells. This effect was dose-dependent and was not observed with 4-alpha-phorbol, an inactive tumor promoter. Analysis of 125I-labeled IL-1 beta binding to intact cells revealed that PDBu caused a 91% decrease in high-affinity cell-surface receptor number without an effect on receptor affinity. The phorbol ester response was rapid (30 min), observed both at 4 and 37 degrees C, and was preceded by the rapid translocation (t much less than 6 min) of protein kinase C (PKC) from the cytosol to the cell membrane. The PDBu-induced decrease in IL-1 beta receptor number was inhibited by prior incubation of cells for 30 min with the PKC inhibitor 1-(5-Isoquinoline sulfonyl)-2-methylpiperazine (H7). The decrease in receptor binding was not due to enhanced IL-1 beta receptor internalization or shedding into the extracellular medium, since a similar effect was observed with solubilized IL-1 beta receptor. The most likely explanation for the phorbol ester effect appears to be cell surface inactivation of IL-1 receptors. These data suggest that modulation of PKC activity could play a role in the regulation of the IL-1 beta receptor.     

TNF-alpha alters visfatin and adiponectin levels in human fat.

Adiponectin and visfatin are newly discovered adipokines that are strongly expressed in human visceral adipose tissue. To identify new regulatory mechanisms in fat, the effect of TNF-alpha (TNF) on adiponectin, on its two receptors, and on visfatin was investigated by incubating human visceral adipose tissue from patients without diabetes mellitus with TNF for 24, 48 and 72 hours. The mRNA expression of visfatin, adiponectin, and its two receptors, as well as the protein expression of adiponectin were determined. A decrease of adiponectin mRNA expression of 97% after incubation with TNF (5.75 nmol/l) for 24 hours, a decrease of 91% after 48 hours, and a decrease of 96% after 72 hours were measured. The reduction of protein expression was measured to be 42% after 24 hours, 28% after 48 hours, and 39% after 72 hours of incubation with TNF (5.75 nmol/l). The mRNA level of adiponectin receptor 1 (AdipoR1) was elevated about 72% after 48 hours of incubation and 67% after 72 hours of incubation, whereas the mRNA expression of adiponectin receptor 2 (AdipoR2) was not altered significantly. The visfatin mRNA level was found to be highly increased by 255% after 24 hours and 335% after 48 hours and 341% after 72 hours of incubation with TNF (5.75 nmol/l). Our results support the concept of visceral adipose tissue as an endocrine organ. We demonstrate that TNF has regulatory functions on adiponectin, AdipoR1 and on visfatin in human visceral adipose tissue. TNF levels are elevated in states of obesity and insulin resistance. Due to this fact TNF could be the reason that there is a decrease in the level of adiponectin, whereas there is an increase in the level of visfatin in states of obesity and insulin resistance.     

Suppression of interleukin-2 and interleukin-2 receptor expression in Jurkat cells stably expressing the human immunodeficiency virus Tat protein.

The Jurkat T cell line was stably transfected with an Epstein-Barr virus-based episomal replicon designed to express high levels of the HIV-1 Tat protein. After selection in hygromycin B, high-level Tat activity was detected in 3 of 18 transfected cell lines. After stimulation with phytohemagglutinin (PHA) and phorbol myristate acetate (PMA), Tat transfectants with high Tat expression showed diminished expression of interleukin-2 (IL-2) and the interleukin-2 receptor alpha chain (IL-2R) when compared to untransfected Jurkat cells or Jurkat cell lines transfected with the parent control plasmid. Sublines derived from the high-level Tat transfectants with reduced Tat activity showed normalization of PHA/PMA-induced IL-2 expression. Northern analysis showed diminished expression of IL-2 and IL-2R mRNA in the stimulated Tat transfectants. Inhibition of IL-2 and IL-2R expression by the HIV-1 Tat protein may contribute to the immune suppression that characterizes HIV-1 infection.     

Arterial Shear Stress Reduces Eph-B4 Expression in Adult Human Veins

Vein graft adaptation to the arterial environment is characterized by loss of venous identity, with reduced Ephrin type-B receptor 4 (Eph-B4) expression but without increased Ephrin-B2 expression. We examined changes of vessel identity of human saphenous veins in a flow circuit in which shear stress could be precisely controlled. Medium circulated at arterial or venous magnitudes of laminar shear stress for 24 hours; histologic, protein, and RNA analyses of vein segments were performed. Vein endothelium remained viable and functional, with platelet endothelial cell adhesion molecule (PECAM)-expressing cells on the luminal surface. Venous Eph-B4 expression diminished (p = .002), Ephrin-B2 expression was not induced (p = .268), and expression of osteopontin (p = .002) was increased with exposure to arterial magnitudes of shear stress. Similar changes were not found in veins placed under venous flow or static conditions. These data show that human saphenous veins remain viable during ex vivo application of shear stress in a bioreactor, without loss of the venous endothelium. Arterial magnitudes of shear stress cause loss of venous identity without gain of arterial identity in human veins perfused ex vivo. Shear stress alone, without immunologic or hormonal influence, is capable of inducing changes in vessel identity and, specifically, loss of venous identity.     

Human natural killer cell adhesion molecules. Differential expression after activation and participation in cytolysis.

Cell adhesion molecules (CAM) participate in interactions between lymphocytes, accessory cells, and target cells that are critical in the generation of effective immune responses. To characterize the involvement of CAM in NK and lymphokine activated killer (LAK) activities, we examined the expression of several CAM by freshly isolated human NK cells and by NK cells activated in vitro with IL-2, and compared this to CAM expression by T lymphocytes under similar conditions. Freshly isolated human NK cells were uniformly LFA-3 (CD58)+ and expressed two to three-fold higher surface levels of LFA-1 (CD11a/CD18) than resting T lymphocytes. More NK cells than T cells also expressed phenotypically detectable levels of intercellular adhesion molecule-1 (CD54). After in vitro incubation with IL-2, human NK cells demonstrated four- to sixfold increases in surface levels of CD11a/CD18, CD2, CD54, CD58, and the NK cell-associated Ag NKH-1 (CD56). Furthermore, essentially all NK cells became CD54+ within 3 days of exposure to IL-2. T cells did not demonstrate comparable up-regulation of CAM after incubation with IL-2. Increases in NK cell CAM expression were associated with enhanced formation of E:T cell conjugates, enhanced killing of NK-sensitive targets, and the induction of cytotoxicity for previously NK-resistant targets (LAK activity). The LAK activity induced by exogenous IL-2 could be partially inhibited by anti-CD2, anti-CD11a, or anti-CD54 antibodies and almost completely abrogated by anti-CD2 and anti-CD11a in combination. These studies suggest that CAM play a central role in the regulation of NK cytolysis, and that changes in CAM expression may alter the target cell specificity of activated NK effectors.