Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.10.2 (focal adhesion kinase)
 44,029 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

T-cells have been implicated in autoimmune renal injury. To examine the role of T-cells in lupus nephritis we propagated T-cell clones from the cortical interstitium of MRL/lpr mice. All isolated kidney-infiltrating (KI) T-cell clones [6] express surface markers identical to the T-cells regulated by the lpr gene (Thy 1.2+, TCR alpha/beta +, Lyt-2-, L3T4-, B220+). Although KI T-cell clones have the same surface markers as lymph node-infiltrating (LNI) T-cells, they differ functionally. KI T-cells, but not LNI T-cells, are autoreactive and kidney-specific, exclusively proliferating to renal tubular epithelial (TEC) and mesangial cells. In addition, unlike LNI T-cell supernatants (SN), KI T-cell clones SN induce class II and ICAM-1 on cultured TEC. When KI T-cell clones are injected under the renal capsule, class II is increased on TEC. All clones transcribe mRNA for cytokines capable of inducing class II and ICAM-1 (IL-4, TNF-alpha, IFN-gamma). Anti-IFN-gamma mAb prevents the induction of class II and ICAM-1 on cultured TEC. Since class II and ICAM-1 expression on TEC precedes renal injury, the ability to propagate autoreactive, kidney-specific T-cell clones that induce these molecules provides evidence for their role in initiating renal injury in MRL/lpr mice.
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PMID:Autoreactive kidney-infiltrating T-cell clones in murine lupus nephritis. 136 May 51

Tumor necrosis factor (TNF-alpha) is a cytokine produced by macrophages and monocytes, and has been shown to have cytolytic, cytostatic or growth-stimulatory activity on transformed cells. However, the mechanism of these growth modulating activities of TNF-alpha is unknown. By studying the response of different oncogene-transformed NIH3T3 cells to TNF-alpha, we showed that the oncogene v-abl confers resistance to the cytostatic and cytolytic activities on TNF-alpha compared to the parental NIH3T3 cells. Most interestingly, v-abl expression also resulted in a growth-enhancing response to TNF-alpha at up to the highest dose of 6,400 units/ml. These altered properties were not due to the transformation event itself, since EJ-ras oncogene transformed NIH3T3 cells were more susceptible to TNF-alpha than the parental cells. Moreover, EMT-6, a mouse adenocarcinoma cell line, which responded similarly to NIH3T3 cells, did not show growth-enhancement at high TNF-alpha dosages. Though resistant to the direct cytotoxic activity of TNF-alpha, the v-abl transformed cell line was effectively killed by macrophages, as were the other cell lines. This suggests tumor cell killing by macrophages must involve mechanisms in addition to the secretion of TNF-alpha.
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PMID:V-abl confers resistance and growth advantage to TNF-alpha in NIH3T3 cells. 218 46

The thymic stromal network is complex and heterogeneous, containing thymic epithelial cells which are thought to play an important role during T-cell development and thymic fibroblasts which role is less defined. We herein present a phenotypic and functional comparison between defined thymic stromal cell populations. We transfected SV40 ori- into fetal and postnatal thymic stromal cell cultures and obtained SV40-immortalized clones of epithelial and fibroblastic nature as demonstrated by expression of intracellular keratin. These various clones were characterized in detail and compared to their untransfected bulk culture counterparts for phenotype, cytokine gene expression and cytokine production. All the different thymic stromal cells examined, constitutively expressed ICAM-1, LFA-3, MHC class I antigens, CD44, and the genes coding for IL-7, SCF and TGF-beta, but not TNF-alpha. After IL-1 stimulation, epithelial cells seemed to produce more GM-CSF than fibroblasts, and that trend was also seen for IL-6 secretion. SV40 cells were also regulated by IFN-gamma which induced MHC class II antigens and inhibited the IL-1 induced GM-CSF production. SV40 cells differed from their untransfected counterparts by an atypical expression of CD40 and lacked constitutive IL-1 alpha gene expression. We isolated clones with distinct properties, 24SV48, a highly proliferative CD34 positive TEC secreting low levels of GM-CSF and lacking constitutive IL-1 alpha and beta gene expression, and CT1SV93, an epithelial clone of postnatal origin with a high IL-1-induced cytokine production. In spite of differences with untransfected bulk cultures, the various SV40 immortalized clones may represent useful tools to further study the human thymic stroma.
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PMID:Untransfected and SV40-transfected fetal and postnatal human thymic stromal cells. Analysis of phenotype, cytokine gene expression and cytokine production. 750 57

To investigate the role of B cells in the development of experimental Staphylococcus aureus-induced arthritis, we used X-linked immunodeficiency (xid) mice that carry a Bruton's tyrosine kinase mutation affecting the function of B cells. NFR/N.xid and congenic NFR/N mice were inoculated i.v. with a toxic syndrome toxin-1 producing S. aureus LS-1 strain. B cell-deficient NFR/N.xid mice developed less frequent (p < 0.01) and less severe (p < 0.01) arthritis than NFR/N mice did. These clinical findings were corroborated by histopathologic evaluation, indicating that NFR/N.xid mice had significantly lower (p < 0.01) erosivity of the disease. Interestingly, infected NFR/N.xid mice showed decreased bacterial burden in blood, joints, and other organs compared with the control mice. Serologic studies displayed poor B cell responses to staphylococcal cell walls, toxic shock syndrome toxin-1, and ssDNA, accompanied by a low level of Igs in infected NFR/N.xid mice. More importantly, xid defect affected cytokine profile. The in vitro experiments showed that the lymphocytes from NFR/N.xid mice had low IL-6, but high IFN-gamma production upon stimulation with staphylococcal cell walls compared with NFR/N mice. Furthermore, the in situ hybridization technique revealed the relative increase of IFN-gamma, but marked decrease of IL-1 beta mRNA expression in spleens of infected NFR/N.xid mice. No significant difference in IL-4, IL-10, and TNF-alpha mRNA expression was found between both strains. Our findings demonstrate that B cells may, directly or indirectly, contribute to the pathogenesis of septic arthritis. The results indicate that increased IFN-gamma production along with low IL-6 and IL-1 beta synthesis found in xid mice may provide a more favorable outcome of S. aureus arthritis.
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PMID:Mice with the xid B cell defect are less susceptible to developing Staphylococcus aureus-induced arthritis. 763 57

We have shown that the cytotoxic response of TNF-sensitive L929 cells and TNF-resistant EMT-6 cells to TNF-alpha can be modulated by ADP-ribosylation inhibitors independently of ADP-ribosylation rates. To explore the possibility that these inhibitors modulate TNF cytotoxicity by interfering with cellular protective mechanisms, we evaluated their effects on general RNA synthesis and on mRNA expression of two proposed protective genes, manganous superoxide dismutase (MnSOD) and heat shock protein 70 (hsp70). We found that ADP-ribosylation inhibitors could inhibit general RNA synthesis in a dose-dependent fashion to a similar extent in both EMT-6 and L929 cells, although these inhibitors increased or decreased the sensitivity of the cells to TNF, respectively. In EMT-6 cells, combination of actinomycin D with these inhibitors further inhibited the RNA synthesis rate, and it actually decreased the TNF sensitivity of the EMT-6 cells. Furthermore, the expression of MnSOD or hsp70 was not regulated by these inhibitors. Thus, TNF resistance must depend on other mechanisms in addition to the expression of these protective genes.
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PMID:ADP-ribosylation inhibitors inhibit cellular RNA synthesis but do not affect expression of manganous superoxide dismutase or heat shock protein 70 in tumor necrosis factor alpha-sensitive and -resistant tumor cells. 853 7

Inhibition of insulin receptor signaling by high glucose levels and by TNF-alpha was recently observed in different cell systems. The aim of the present study was to characterize the mechanism of TNF-alpha-induced insulin receptor inhibition and to compare the consequences of TNF-alpha- and hyperglycemia-induced insulin receptor inhibition for signal transduction downstream from the IR. TNF-alpha (0.5-10 nM) and high glucose (25 mM) showed similar rapid kinetics of inhibition (5-10 min, > 50%) of insulin receptor autophosphorylation in NIH3T3 cells overexpressing the human insulin receptor. TNF-alpha effects were completely prevented by the phosphotyrosine phosphatase (PTPase) inhibitors orthovanadate (40 microM) and phenylarsenoxide (35 microM), but they were unaffected by the protein kinase C (PKC) inhibitor H7 (0.1 mM), the phosphatidylinositol-3 kinase inhibitor wortmannin (5 microM), and the thiazolidindione troglitazone (CS045) (2 microgram/ml). In contrast, glucose effects were prevented by PKC inhibitors and CS045 but unaffected by PTPase inhibitors and wortmannin. To assess effects on downstream signaling, tyrosine phosphorylation of the following substrate proteins of the insulin receptor was determined: insulin receptor substrate-1, the coupling protein Shc, focal adhesion kinase (FAK125), and unidentified proteins of 130 kD, 60 kD. Hyperglycemia (25 mM glucose) and TNF-alpha showed analogous (> 50% inhibition) effects on tyrosine phosphorylation of insulin receptor substrate-1, Shc, p60, and p44, whereas opposite effects were observed for tyrosine phosphorylation of FAK125, which is dephosphorylated after insulin stimulation. Whereas TNF-alpha did not prevent insulin-induced dephosphorylation of FAK125, 25 mM glucose blocked this insulin effect completely. In summary, the data suggest that TNF-alpha and high glucose modulate insulin receptor-signaling through different mechanisms: (a) TNF-alpha modulates insulin receptor signals by PTPase activation, whereas glucose acts through activation of PKC. (b) Differences in modulation of the insulin receptor signaling cascade are found with TNF-alpha and high glucose: Hyperglycemia-induced insulin receptor inhibition blocks both insulin receptor-dependent tyrosine phosphorylation and dephosphorylation of insulin receptor substrate proteins. In contrast, TNF-alpha blocks only substrate phosphorylation, and it does not block insulin-induced substrate dephosphorylation. The different effects on FAK125 regulation allow the speculation that long-term cell effects related to FAK125 activity might develop in a different way in hyperglycemia- and TNF-alpha-dependent insulin resistance.
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PMID:Tumor necrosis factor-alpha- and hyperglycemia-induced insulin resistance. Evidence for different mechanisms and different effects on insulin signaling. 861 80

The lpr mutation on the MRL background accelerates autoimmune nephritis in which macrophage (M phi) accumulation is prominent. Renal disease is absent in other strains with lpr. TNF-alpha and CSF-1 are increased in the kidney of MRL-lpr mice with loss of renal function. We have established that CSF-1 can incite renal injury in mice with the lpr mutation, and M phi from the MRL strain hyper-respond to this growth factor. We hypothesized that TNF-alpha enhanced the M phi response to CSF-1 in MRL-lpr mice. We now report that TNF-alpha enhanced CSF-1-induced bone marrow M phi proliferation in MRL-lpr mice, and not in congenic MRL +/+, normal C3H +/+, and BALB/c, or another strain with lpr (C3H-lpr). Using a gene transfer approach to deliver CSF-1 together with TNF-alpha into the kidney, we evaluated the impact on renal injury. Tubular epithelial cells genetically modified to produce CSF-1 (CSF-1-TEC) and TNF-alpha (TNF-TEC) placed under the renal capsule caused a greater accumulation of M phi in the implant site than CSF-1-TECs alone in MRL-lpr, but not MRL +/+ mice. We noted in tissues adjacent but not distal to the implanted TECs, an increase in M phi in the interstitium and surrounding glomeruli of MRL-lpr but not MRL +/+ mice. This indicated that CSF-1 and TNF-alpha released by TECs were responsible for promoting renal pathology. Taken together, these data suggest that the simultaneous expression of TNF-alpha and CSF-1 in the MRL-lpr kidney fosters M phi accumulation. We speculate that the increase in M phi in the kidney in response to CSF-1 and TNF-alpha is responsible for the rapid tempo of autoimmune renal injury in MRL-lpr mice.
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PMID:TNF-alpha enhances colony-stimulating factor-1-induced macrophage accumulation in autoimmune renal disease. 868 48

We have recently established a new Philadelphia chromosome (Ph1)-positive acute lymphoblastic leukemia (ALL) cell line, designated Z-33. This line has L2 morphology, ultrastructural characteristics of lymphoblasts and typical B lineage surface markers identical to those observed in the Ph1-positive ALL patient from whom the line was derived. In addition, a rearranged immunoglobulin heavy-chain gene (JH) band was found in Z-33 cells by Southern blot analysis, confirming B cell clonality. Cytogenetic analysis of the cell line revealed t(9;22)(q34;q11.2). Polymerase chain reaction (PCR)-amplified cDNA from Z-33 cells demonstrated an e1-az BCR-ABL junction, and the p190BCR-ABL protein was detected in them by the immune complex kinase assay. Z-33 cells produce interleukin (IL)-1 beta, IL-6, granulocyte colony-stimulating factor (G-CSF), granulocyte-macrophage CSF (GM-CSF), tumor necrosis factor (TNF)-alpha, and transforming growth factor (TGF)-beta, Neither IL-1 beta, G-CSF, TNF-alpha, nor their corresponding antibodies affected the cell line's growth. In contrast, anti-GM-CSF neutralizing antibodies suppressed Z-33 colony formation, and GM-CSF stimulated it in a dose-dependent fashion. In addition, receptor studies with biotinylated GM-CSF demonstrated specific binding to Z-33 cells, indicating that the cells express GM-CSF receptors. Taken together, our data suggest that the Ph1-positive Z-33 ALL cells produce GM-CSF, express GM-CSF receptors, and show an autocrine proliferative response to this cytokine.
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PMID:Molecular and biologic characterization of a newly established Philadelphia-positive acute lymphoblastic leukemia cell line (Z-33) with an autocrine response to GM-CSF. 875 77

The authors have previously reported on the ability of A60, an immunodominant antigenic complex of Mycobacterium bovis BCG, to prevent cancer development in mice challenged with EMT 6 tumour cells. Such effect proved to rely on neoplastic cell lysis by cytolytic T lymphocytes and activated macrophages. The involvement of cytokines in triggering the immune response leading to tumour rejection is analysed in the present work. The synthesis of IL-2, IFN-gamma and TNF-alpha was strongly increased in A60-primed mice. Cancer development depressed the blood levels of these three cytokines. In vitro cultures of lymphocytes from lymph nodes and blood of A60-primed mice produced higher levels of these cytokines in the presence of A60, as compared to cultures lacking A60. Such effect was inhibited by co-incubation of lymphocytes with EMT 6 tumour cells In vitro cultures of macrophages yielded higher levels of TNF-alpha in the presence of A60 and co-incubation of these cells with EMT 6 tumour cells also inhibited TNF-alpha production. The enhanced synthesis of IL-2 and IFN-gamma, which promote activation of cytolytic T lymphocytes and macrophages, accounts for the increased tumour cell lysis induced in vivo by A60. The A60-promoted synthesis of TNF-alpha is partly responsible for the latter effect. The inhibitory action of EMT-6 tumour cells on cytokine synthesis is a powerful mechanism of tumour escape from the immune system's control.
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PMID:Synthesis of cytokines during tumour development in mice immunized with the mycobacterial antigen complex A60. 884 30

In patients with chronic myeloid leukemia (CML), the neoplastic (BCR-ABL+) progenitor cells are characterized by an increased proliferative activity. Whether these cells are also resistant to apoptosis and if so, under what conditions remains controversial. We now show that highly purified populations of very primitive neoplastic progenitor cells obtained directly from CML patients survive and proliferate in vitro for several weeks in the absence of any added growth factors (except insulin). In contrast, purified primary normal progenitors maintained under the same conditions die rapidly. Nevertheless, both primary CML cells and BCR-ABL+ BAF3 cells show the same dose-dependent sensitivity to TNF-alpha or ceramide-induced apoptosis as their respective normal counterparts. In fact, time course studies demonstrated an even faster onset of apoptosis in ceramide-treated BCR-ABL+ BAF3 cells as compared to normal controls. BCR-ABL+ cells treated with ceramide also showed a rapid and sequential increase in the tyrosine phosphorylation of p210(BCR-ABL), p46-56SHC and p120Cbl. These findings suggest growth factor deprivation and treatment with TNF-alpha or ceramide trigger different initial events both of which can lead to apoptosis in factor-dependent hematopoietic cells. However, in the first case, activation of apoptosis is blocked by the basal activity of p210(BCR-ABL), whereas in the second, the presence of p210(BCR-ABL) appears to accelerate the onset of apoptosis by a mechanism that may involve an activation of its kinase function.
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PMID:BCR-ABL accelerates C2-ceramide-induced apoptosis. 946 42


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