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

This study investigated the expression of HLA class I antigens on Huh6 and HB611 cells induced by interferon (IFN)-alpha, IFN-gamma, tumor necrosis factor (TNF)-alpha and interleukin (IL)-1 beta. All of these cytokines induced the antigens on both cells in a dose-dependent manner, with IFNs inducing much more expression than TNF-alpha or IL-1 beta. We have already reported that protein kinase C (PKC) is involved in the antigen expression induced by IFN-gamma on Huh6 cells. The antigen expression induced by IFN-alpha was also blocked by a PKC inhibitor, H-7. However, the antigen expression by TNF-alpha or IL-1 beta was not inhibited by H-7, by a protein kinase A inhibitor, HA1004, nor by a calmodulin antagonist, W-7. These results suggested that PKC, Ca(2+)-calmodulin, and cAMP are not involved in the induction of HLA class I antigens on both cells by TNF-alpha and IL-1 beta. We concluded that TNF-alpha and IL-1 beta induced much less expression of HLA class I antigens on both cells than IFNs and that this might be because the signaling pathway by TNF-alpha and IL-1 beta differed from that by IFNs.
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PMID:Effects of cytokines on HLA class I antigen expression on Huh6 and HB611 cells. 838 37

A human monoclonal antibody (mAb), designated mNKES, was generated by fusing B cells isolated from an enlarged cervical lymph node of a patient with a carotid body tumor (CBT), with human myeloma cell line KR-12 (6TG). The reactivity of mNKES was tested by the indirect immunofluorescence method. The antigen defined by mNKES was expressed on Burkitt's lymphoma cell lines Raji, Daudi, and Ramos and on B lymphoblastoid cell line IM-9. In addition, mNKES reacted with T cells stimulated with recombinant interleukin-2 (rIL-2) obtained from normal healthy donors. However, mNKES did not react with normal resting human T, B, or adherent cells (monocytes/macrophages). When the reactivity of mNKES and mouse mAbs recognizing the human adhesion-associated antigen (CD10, CD11a, CD11b, CD11c, CD14, CD16, CD18, CD23, CD28, CD29, CD31, CD43, CD44, CD45RA, CD50, CD54, CD58, CD80, CD102, CD106, and HLA class I, and HLA class II antigen) with various cell lines was compared, mNKES reactivity was found to be unique, not resembling that of any of these mouse mAbs. Interestingly, mNKES specifically and rapidly (within 2 hr) induced homotypic cell aggregation of IM-9 cells. This mNKES-induced cell aggregation was completely blocked by the addition of EDTA and when incubated at 4 degrees C. The mAbs reactive with CD11a/CD18 (leukocyte function-associated antigen-1; LFA-1) and CD54 (intercellular adhesion molecule-1; ICAM-1) completely blocked the IM-9 cell aggregation induced by mNKES, and induction of IM-9 cell aggregation by mNKES was significantly blocked in the presence of the protein kinase C inhibitors sphingosine and H-7 and completely blocked by cytochalasin B and cytochalasin D, which inhibit microfilament formation. Regarding biological function, IM-9 cells bearing surface IgG (sIgG) effectively promoted IgG-secreting activity underlying the homotypic cell aggregation induced by mNKES. The surface antigen recognized by mNKES has a molecular size of about 55 kDa, as determined by immunoblotting analysis. These findings indicate that mNKES recognizes a novel adhesion-associated antigen distinct from any previously reported adhesion-associated antigens in terms of pattern of cellular distribution and biological function and that mNKES is the first human mAb found that rapidly induces homotypic cell aggregation and effectively promotes the IgG-secreting activity of human B lymphoblastoid cell line IM-9.
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PMID:A novel human monoclonal antibody rapidly induces homotypic cell aggregation and promotes antibody-secreting activity by human B lymphoblastoid cell line IM-9. 908 89

Anti-HLA class I monoclonal antibody 01.65 inhibits the proliferative response of PHA-activated human T lymphocytes from peripheral blood mononuclear cells. The recruitment rate in the cell cycle is slack and the G1 and S phases are prolonged. Among the early events after PHA activation, only the calcium-dependent PKC activity appears to be modified: particulate PKC is completely depleted while cytosolic residual PKC is reduced by 80% after MAb 01.65 treatment. We have carried out in greater detail the study of c-myc gene regulation by MAb 01.65 and the results are as follows: (i) c-myc RNA transcription is normally initiated and finished, suggesting a post-transcriptional regulation of c-myc gene expression; (ii) no alteration in c-myc mRNA stability has been documented; (iii) steady-state levels of c-myc mRNA expression by Northern blot analysis and PCR amplification are decreased in the cytoplasmic compartment, while in the nuclear compartment they appear to be increased. Nuclear accumulation of mature mRNA after MAb 01.65 and PKC inhibitor (H7 and StSp) treatment appears to be the most probable mechanism involved. The possible implications of this are discussed.
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PMID:Nuclear accumulation of c-myc mRNA in phytohaemagglutinin-activated T lymphocytes treated with anti-HLA class I monoclonal antibody. 946 38

Interferon alpha (IFN-alpha) represents an adjuvant therapy of proven effectiveness in increasing disease-free interval and survival in subgroups of melanoma patients. Since high doses of cytokine are required, the treatment is often accompanied by toxic side effects. Furthermore, naturally occurring insensitivity to IFN-alpha may hamper its therapeutic efficacy. Clinical, molecular or immunological markers enabling the selection of potential responders have not been identified so far. To explore the molecular basis of IFN-alpha responsiveness, we analysed the expression pattern of about 7000 genes in IFN-alpha sensitive and resistant cell lines and we compared the transcription profiles of cells cultured in the presence or absence of the cytokine using high-density oligonucleotide arrays. Melanoma cell lines were screened for their sensitivity to proliferation inhibition and HLA class I induction upon IFN-alpha treatment by standard 3H-thymidine incorporation and flow-cytometry. The study of 4 sensitive and 2 resistant cell lines allowed the identification of 4 genes (RCC1, IFI16, hox2 and h19) preferentially transcribed in sensitive cells and 2 (SHB and PKC-zeta) preferentially expressed in resistant cells. IFN-alpha stimulation resulted in the expression of a panel of 19 known inducible genes in sensitive but not in resistant cells. Moreover a group of 30 novel IFN-alpha inducible genes was identified. These data may provide a useful basis to develop diagnostic tools to select potential IFN-alpha responders eligible for treatment, while avoiding unnecessary toxicity to non-responders. Furthermore, by extending the knowledge of the polymorphic effects of IFN-alpha on gene expression, they offer novel clues to the study of its pleiotropic toxicity.
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PMID:High density oligonucleotide array analysis of interferon- alpha2a sensitivity and transcriptional response in melanoma cells. 1143 11

Preliminary studies, performed in our laboratory, showed that staurosporine (ST), a protein-kinase (PK) inhibitor, increases the expression of the carcinoembryonic antigen (CEA) in a human colon cancer cell line. The present study explores the cellular and molecular effects of ST on the CEA expression in breast cancer MCF-7 line and in a number of colon cancer cell lines characterized by the different basal levels of the antigen, including two cloned sublines (i.e. C22.20 and C6.6, expressing low and high CEA levels, respectively). In all cases, increase of the CEA expression was observed at drug concentrations devoid of marked cytostatic effects (e.g. 5 nM) and was accompanied by the enhanced CEA shedding in the supernatant. Moreover, the increase of the CEA levels both occurred in the cell membranes and in the cytosolic compartments and appeared to be the result of the enhanced CEA gene transcription. Similar results have been previously obtained with interferon-gamma. However, ST treatment, different from interferon-gamma, did not up-regulate the level of the HLA class I molecules. A preliminary investigation also showed that other PKC inhibitors did not substantially modulate the CEA expression. Therefore, the biochemical mechanism underlying the effect of ST should not be correlated with that involved in the PKC inhibition. The present study suggests that ST and, presumably, its analogs used in the cancer treatment could enhance the CEA expression on neoplastic cells in patients affected by the CEA-positive malignancies. This appears to be of potential clinical interest for the development of new immunotherapeutic or diagnostic approaches based on the pharmacological modulation of this antigenic marker.
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PMID:Pharmacological modulation of carcinoembryonic antigen in human cancer cells: studies with staurosporine. 1201 4

Interferon alpha (IFN-alpha) represents an adjuvant therapy of proven effectiveness in increasing disease-free interval and survival in subgroups of melanoma patients. Since high doses of cytokine are required, the treatment is often accompanied by toxic side effects. In addition, naturally occurring insensitivity to IFN-alpha may hamper its therapeutic efficacy. Clinical, molecular or immunological markers enabling the selection of potential responders have not so far been identified. To explore the molecular basis of IFN-alpha responsiveness, we analyzed the expression pattern of about 7000 genes in IFN-alpha-sensitive and IFN-alpha-resistant cell lines using high-density oligonucleotide arrays. Melanoma cell lines were screened for their sensitivity to proliferation inhibition and HLA class I induction by IFN-alpha by standard 3H-thymidine incorporation and flow cytometry. Total cellular RNA from four sensitive and two resistant cell lines was extracted, reverse-transcribed and hybridized to high-density oligonucleotide arrays. The comparative analysis of gene expression in either set of cell lines allowed the identification of four genes (RCCl, IFI16, hox2 and h19) preferentially transcribed in sensitive cells and two (SHB and PKC-zeta) preferentially expressed in resistant cells. These data may provide a useful basis for the development of diagnostic tools to select potential IFN-alpha responders as eligible for treatment, while avoiding unnecessary toxicity to nonresponders.
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PMID:Interferon-a sensitivity in melanoma cells: detection of potential response marker genes. 1207 43

The human major histocompatibility complex (HLA) encodes two sets of HLA class I molecules, which have been termed class Ia (or classical) and class Ib (or nonclassical) molecules. The class Ia molecules include the gene products of HLA-A, HLA-B, and HLA-C loci and are characterized by broad tissue expression and by a high degree of polymorphism. The class Ib molecules include the gene products of HLA-E, HLA-F, and HLA-G loci and are characterized by a restricted tissue distribution and by limited polymorphism. Besides being expressed on nucleated cells, classical and nonclassical HLA class I molecules are present in serum in soluble form (sHLA-I). The serum level of sHLA-I molecules is significantly increased in a variety of physiological and pathological conditions such as pregnancy, acute rejection episodes following organ allografts, acute graft-versus-host-disease (GVHD) following bone marrow transplantation, autoimmune diseases, viral infections, and malignant melanoma. Because of the statistically significant association with clinical parameters, the level of sHLA-I antigens has been suggested to represent a useful marker to predict the evolution of viral infections and to monitor the clinical course of allografts. Moreover, elevated levels of functional sHLA-I and soluble Fas-ligand molecules have been detected by our group in blood components and might play a role in the immunomodulatory effect of autologous and allogeneic transfusions. Several lines of evidence suggest that sHLA-I molecules are immunologically functional and may play an immunoregulatory role. In fact, they have been shown to elicit antibodies in both allogeneic and xenogeneic combinations, to inhibit the activity of alloreactive cytotoxic T lymphocytes (CTL), and to induce apoptosis in alloreactive and virus-specific CTL, in activated autologous and allogeneic CD8+ T cells, and in CD8+ NK cells. There is general agreement about the mechanism underlying the inhibition of CTL activity by sHLA antigens. This inhibition appears to be mediated by interactions of sHLA-I antigens a1 and a2 domains with T cell receptor (TCR). By contrast, there is conflicting information about the mechanism underlying induction of apoptosis of activated T cells by sHLA-I antigens. Several authors reported that sHLA-I molecules induced apoptosis of alloreactive CD8+ cytotoxic T lymphocytes through interaction with their TCR. However, our own data and those other groups indicate that classical and nonclassical sHLA-I molecules trigger Fas/Fas-ligand mediated apoptosis of phytohemoagglutinin (PHA)-activated and virus-specific CD8+ T lymphocytes as well as of CD8+ NK cells by interacting with CD8 coreceptor. Recently, we performed a series of experiments in our laboratory to clarify the intracellular mechanism(s) leading to Fas-ligand upregulation and secretion. These unpublished data indicate that sHLA-I/CD8 ligation elicits the phosphorylation of p56lck protein thyrosin kinase (PTK) associated with CD8 cytoplasmic domain in the absence of any other TCR-derived signal, the activation of syk-like ZAP-70 PTK and protein kinase C, and extracellular calcium influx. Then, activation and nuclear translocation of NF-kB and NF-AT occurs, leading to Fas-ligand mRNA transcription and soluble Fas-ligand secretion, which delivers the death signal. Interestingly, soluble Fas-ligand secretion and CD8+ cell apoptosis, but not CD8+ cell cytolitic activity, are completely inhibited by Cyclosporin A, which specifically blocks the activation of the calcineurin/calmodulin pathway. Taken together, these data suggest that sHLA-I molecules are involved in a signal-transduction pathway leading to Fas-ligand expression, soluble Fas-ligand secretion, and CD8+ cells apoptosis.
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PMID:Soluble HLA class I molecules/CD8 ligation trigger apoptosis of CD8+ cells by Fas/Fas-ligand interaction. 1280 26

The binding of soluble HLA class I (sHLA-I) molecules to CD8 on EBV-specific CTL induced up-regulation of Fas ligand (FasL) mRNA and consequent sFasL protein secretion. This, in turn, triggered CTL apoptosis by FasL/Fas interaction. Molecular analysis of the biochemical pathways responsible for FasL up-regulation showed that sHLA-I/CD8 interaction firstly induced the recruitment of src-like p56(lck) and syk-like Zap-70 protein tyrosine kinases (PTK). Interestingly, p59(fyn) was activated upon the engagement of CD3/TCR complex but not upon the interaction of sHLA-I with CD8. In addition, sHLA-I/CD8 interaction, which is different from signaling through the CD3/TCR complex, did not induce nuclear translocation of AP-1 protein complex. These findings suggest that CD8- and CD3/TCR-mediated activating stimuli can recruit different PTK and transcription factors. Indeed, the engagement of CD8 by sHLA-I led to the activation of Ca2+ calmodulin kinase II pathway, which eventually was responsible for the NF-AT nuclear translocation. In addition, we found that the ligation of sHLA-I to CD8 recruited protein kinase C, leading to NF-kappaB activation. Both NF-AT and NF-kappaB were responsible for the induction of FasL mRNA and consequent CTL apoptosis. Moreover, FasL up-regulation and CTL apoptotic death were down-regulated by pharmacological specific inhibitors of Ca2+/calmodulin/calcineurin and Ca2+-independent protein kinase C signaling pathways. These findings clarify the intracellular signaling pathways triggering FasL up-regulation and apoptosis in CTL upon sHLA-I/CD8 ligation and suggest that sHLA-I molecules can be proposed as therapeutic tools to modulate immune responses.
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PMID:Apoptosis of antigen-specific T lymphocytes upon the engagement of CD8 by soluble HLA class I molecules is Fas ligand/Fas mediated: evidence for the involvement of p56lck, calcium calmodulin kinase II, and Calcium-independent protein kinase C signaling pathways and for NF-kappaB and NF-AT nuclear translocation. 1630 29

While the defects in HLA class I-mediated Ag presentation by Burkitt lymphoma (BL) have been well documented, CD4+ T-cells are also poorly stimulated by HLA class II Ag presentation, and the reasons underlying this defect(s) have not yet been fully resolved. Here, we show that BL cells are deficient in their ability to optimally stimulate CD4+ T cells via the HLA class II pathway. The observed defect was not associated with low levels of BL-expressed costimulatory molecules, as addition of external co-stimulation failed to result in BL-mediated CD4+ T-cell activation. We further demonstrate that BL cells express the components of the class II pathway, and the defect was not caused by faulty Ag/class II interaction, because antigenic peptides bound with measurable affinity to BL-associated class II molecules. Treatment of BL with broystatin-1, a potent modulator of protein kinase C, led to significant improvement of functional class II Ag presentation in BL. The restoration of immune recognition appeared to be linked with an increased expression of a 17 kDa peptidylprolyl-like protein. These results demonstrate the presence of a specific defect in HLA class II-mediated Ag presentation in BL and reveal that treatment with bryostatin-1 could lead to enhanced immunogenicity.
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PMID:HLA class II defects in Burkitt lymphoma: bryostatin-1-induced 17 kDa protein restores CD4+ T-cell recognition. 2216 13


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