Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04637 (p53)
 77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

p21(WAF1/CIP1) (p21) protein is a universal inhibitor of cyclin-dependent kinases and is regulated transcriptionally by p53, which is activated by DNA stress. Hepatocytes in chronic hepatitis receive several DNA stresses by lymphocytes and Kupffer cells. Therefore, we analyzed p21 expression of hepatocytes in hepatitis C virus (HCV)-associated chronic liver diseases and investigated the possible involvement of p21 in hepatocarcinogenesis. We examined p21 expression in 35 cases of HCV-associated chronic hepatitis and 25 cases of HCV-associated liver cirrhosis by immunohistochemical analysis. The p21 labeling index (LI) was calculated as the ratio of positive cells to total cells. p21-positive hepatocytes were more numerous in areas of intense inflammation and spotty necrosis and areas close to fibrosis, and were increased according to the degrees of grading and staging. The p21 LI with liver cirrhosis was significantly higher than that with chronic hepatitis (14.4 +/- 5.9 versus 11.1 +/- 4.2, P = 0.014). The cumulative incidence of hepatocellular carcinoma (HCC) was significantly higher in the p21 LI >or=14% group than in the p21 LI <14% group (P = 0.0079). Multivariate analysis demonstrated that p21 expression can be recognized as an independent significant factor for HCC development (relative risk 5.00, P = 0.039). p21 LI decreased significantly after interferon therapy. These results suggested that p21 is up-regulated by the stress of inflammation and fibrosis in HCV-associated chronic liver diseases and that high p21 expression might be related to hepatocarcinogenesis in cirrhotic patients.
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PMID:High expression of p21WAF1/CIP1 is correlated with human hepatocellular carcinoma in patients with hepatitis C virus-associated chronic liver diseases. 1205 78

The hepatitis C virus (HCV) NS5A gene product is a phosphorylated 56- to 58-kD nonstructural protein that displays a multitude of activities related to enhancement of viral pathogenesis. Although associated with other viral encoded proteins as part of the viral replicase complex positioned on the cytoplasmic side of the endoplasmic reticulum, a role for NS5A in viral replication has not been defined. Post-translational modifications of NS5A include phosphorylation and potential proteolytic processing to smaller molecular weight forms able to translocate to the nucleus. Both the identification of a putative interferon (IFN) sensitivity-determining region within NS5A, as well as the direct interaction with and inhibition of the IFN-induced double-stranded RNA-dependent protein kinase (PKR) by NS5A remain controversial. Truncated versions of NS5A can act as transcriptional activators, while other recently characterized interactions of NS5A with cellular proteins indicate its pleiotropic role in HCV-host interactions. NS5A itself has no direct effect on IFN-alpha signaling or activation, but other abundant interactions with members of the cellular signaling apparatus, transcription activation machinery and cell cycle-regulatory kinases have been described (e.g. growth factor receptor-bound protein 2, p53, p21/waf and cyclins). Many of these interactions block the apoptotic cellular response to persistent HCV infection. More recently, another altogether different mechanism attenuating the IFN-alpha response was reported based on induction of interleukin (IL)-8. IL-8, in model systems, potentiates viral replication and mutes the nonspecific intracellular IFN antiviral response. Evidence supporting a complex multimechanistic role of NS5A in promoting viral persistence, pathogenesis and, indirectly, viral-related hepatocarcinogenesis indicates its key role in HCV pathobiology.
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PMID:The nonstructural NS5A protein of hepatitis C virus: an expanding, multifunctional role in enhancing hepatitis C virus pathogenesis. 1206 93

Hepatocellular carcinoma remains a disease with a poor and dismal prognosis, and all forms of currently available conventional therapies are rarely beneficial. However, in recent years, combined targeting locoregional immunochemotherapy has been reported with very promising results. Adoptive immunotherapy with LAK cells (lymphokine-activated killer cells) and recombinant interleukin-2 is becoming one of the new modalities to reconstitute the depressed immune status of the tumor-bearing host. Interleukin-2, gamma-interferon, and interleukin-12 induce cytolytic activity of LAK and natural killer cells and are considered for cellular activation to locoregional immunotherapy before, after resection or even in unresectable hepatocellular carcinomas. Spleen is a suitable organ for LAK cell induction because it has densely packed lymphocytes. The strategy of administration of both interleukin-2 and gamma-interferon into the spleen for in vivo immunostimulation is based on the well-known synergism of the above cytokines. LAK cells have cytotoxic activity against a variety of tumor cells. In particular, LAK cells exhibit efficacy against lung and liver malignant lesions, as suggested by their trafficking pattern; activated killer cells injected i.v. into humans appeared in the lung early and were subsequently rapidly redistributed to the liver and spleen. Lipiodol-Urografin emulsion is probably an ideal cytokine/anti-cancer drug carrier suitable for the combined locoregional immunochemotherapy because during its preferential retention in the vascular network of the spleen and tumor, a gradual release of both immuno- and chemotherapeutical drugs bound to emulsion droplets is achieved ensuring a prolong half life for these drugs. Recent data point to the potential of considering intratumoral or intravascular use of adenovirus carrying interleukin-12 gene, and/or p53-based gene therapy as possible therapeutic strategies in patients with hepatocellular carcinoma.
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PMID:Locoregional immunochemotherapy in hepatocellular carcinoma. 1214 14

Adenoviruses (Ads) cause acute and persistent infections. Alike the much more complex herpesviruses, Ads encode numerous immunomodulatory functions. About a third of the viral genome is devoted to counteract both the innate and the adaptive antiviral immune response. Immediately upon infection, E1A blocks interferon-induced gene expression and the VA-RNA inhibits interferon-induced PKR activity. At the same time, E1A reprograms the cell for DNA synthesis and induces the intrinsic cellular apoptosis program that is interrupted by E1B/19K and E1B/55K proteins, the latter inhibits p53-mediated apoptosis. Most other viral stealth functions are encoded by a separate transcription units, E3. Several E3 products prevent death receptor-mediated apoptosis. E3/14.7K seems to interfere with the cytolytic and pro-inflammatory activities of TNF while E3/10.4K and 14.5K proteins remove Fas and TRAIL receptors from the cell surface by inducing their degradation in lysosomes. These and other functions that may afect granule-mediated cell death might drastically limit lysis by NK cells and cytotoxic T cells (CTL). Moreover, Ads interfere with recognition of infected cell by CTL. The paradigmatic E3/19K protein subverts antigen presentation by MHC class I molecules by inhibiting their transport to the cell surface. In concert, these viral countermeasures ensure prolonged survival in the infected host and, as a consequence, facilitate transmission. Elucidating the molecular mechanisms of Ad-mediated immune evasion has stimulated corresponding research on other viruses. This knowledge will also be instrumental for designing better vectors for gene therapy and vaccination, and may lead to a more rational treatment of life-threatening Ad infections, e.g. in transplantation patients.
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PMID:Subversion of host defense mechanisms by adenoviruses. 1222 14

Homeodomain-interacting protein kinases (HIPK-1, -2, and -3) are a family of enzymes that have been implicated in the phosphorylation and repression of homeodomain-containing transcription factors. HIPK-2 has been found to interact with the SUMO-1-conjugating enzyme Ubc9 and can be covalently modified by SUMO-1. It has also been shown to interact with and phosphorylate p53 and to form punctate speckles in the nucleus of which a proportion colocalize with PML nuclear bodies (ND10). We have previously shown that the hamster equivalent of HIPK-2 (named PKM) interacts with the interferon-induced antiviral GTPase Mx1 and associates with ND10 in interferon-treated cells. Given the connections between the interferon response pathway, constituents of ND10, and SUMO-1-conjugated proteins, we have studied the effects of exogenously expressed PKM on endogenous ND10 proteins. We found that PKM induces structural changes in ND10 that can be attributed both to its kinase activity and to the presence of a functional SUMO-1 interaction motif in the C-terminal half of the protein. The changes in the localization of PML, Sp100, and hDaxx induced by exogenous PKM or fragments thereof correlate with changes in the posttranslationally modified species of PML. We propose that PKM is able to modify ND10 structure by inducing changes in the posttranslational modification of PML and by interacting with SUMO-1 modification pathways.
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PMID:The homeodomain-interacting kinase PKM (HIPK-2) modifies ND10 through both its kinase domain and a SUMO-1 interaction motif and alters the posttranslational modification of PML. 1256 18

p202, an interferon (IFN) inducible protein, is a phosphonuclear protein involved in the regulation of cell cycle, apoptosis, and differentiation. E2F1 belongs to the E2F family of proteins that are important cell cycle regulators in promoting cell growth. On the other hand, the deregulated expression of E2F1 also triggers apoptosis independent of p53 status. It has been well documented that p202 is able to inhibit cell growth by binding to E2F1 and abolishing the E2F1-mediated transcriptional activation of S-phase genes. However, it is not known whether E2F1-mediated apoptosis can be counteracted by p202 expression. Here, we show that E2F1-mediated apoptosis induced by the infection of an E2F1-expressing adenoviral vector (Ad-E2F1) was greatly diminished in p202-expressing prostate cancer cells. The E2F1-mediated caspase-3 activation was also reduced in p202-expressing cells infected with Ad-E2F1. Since caspase-3 is one of the E2F1 transcriptional targets, this result is consistent with the ability of p202 to inhibit the transcriptional activity of E2F1. Therefore, our results suggest a possible link between the IFN and E2F pathways in regulating apoptosis.
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PMID:P202, an interferon-inducible protein, inhibits E2F1-mediated apoptosis in prostate cancer cells. 1264 90

Immunology takes reliable place in the system of diagnostics and therapy of oncological and haematological diseases. It should be noted that serodiagnostics of tumors achieved its methodological limit, since all tumor-associated antigens are already known, and the search of new serum immunological markers seems to fail. New markers have attracted attention of investigators: cytoplasmic and surface proteins and glycoproteins, being products of different genes, which control cell viability, such as Pgp170, p53, Bcl-2, CD95 (Fas/APO-1), Her-2/neu and others. All these proteins may be identified by monoclonal antibodies. At present, the identification of these biomarkers by immunohistochemical methods is beginning to use for individualization of therapy. New direction in oncohematology is biotherapy of tumors. Tumor biotherapy means the treatment of oncological patients with vaccines, immunomodulators, cytokines, monoclonal antibodies and so on. Cancer vaccinotherapy took new design due to the achievements in molecular biology and gene engineering. The great success was achieved in the therapy of tumors and leukemias by interferon preparations. Again, the great expectations seem to be in the field of cancer therapy with immunomodulators. Thus, the achievements in the treatment of oncohaematological diseases are as usual related to the achievements in immunology.
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PMID:Immunological Problems of Diagnostics and Therapy in Hematology and Oncology. 1268 51

Adenovirus early proteins E4 ORF3 and E4 ORF6 have complementary functions during viral infection. Both proteins facilitate efficient viral DNA replication, late protein expression, and prevention of concatenation of viral genomes. Additionally, E4 ORF6 is involved in the shutoff of the host cell protein synthesis through its interaction with the E1B 55K protein. This complex also leads to the degradation of p53. A unique function of E4 ORF3 is the reorganization of nuclear structures known as PML oncogenic domains (PODs). The function of these domains is unclear, but PODs have been implicated in a number of important cellular processes, including transcriptional regulation, apoptosis, transformation, and response to interferon. The goal of this study was to determine the functional significance of the reorganization of PODs by E4 ORF3. Point mutations were made in the E4 ORF3 gene. These mutants were recombined into a virus lacking E4 ORF6 and expressed under the control of the natural virus E4 promoter. The panel of mutant viruses was used to investigate the role of E4 ORF3 during the course of the viral infection program. One of the mutant viruses exhibited aberrant reorganization of PODs and had a severe defect in viral DNA replication, thus leading to a dramatic decrease in virus production. A number of mutants accumulated viral DNA and infectious virus particles to wild-type levels but showed significant viral genome concatenation. These data show that E4 ORF3 is a multifunctional protein and that a specific rearrangement of nuclear PML domains is coupled to efficient viral DNA replication. This function is distinct from the role of E4 ORF3 in the regulation of virus genome concatenation via inhibition of cellular double-strand break repair.
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PMID:Distinct roles of the Adenovirus E4 ORF3 protein in viral DNA replication and inhibition of genome concatenation. 1269 31

Biologic therapy of ovarian cancer has been conducted using nonspecific biologic response modifiers, cytokines, monoclonal antibodies (MAbs), vaccines, and gene therapy. Antibodies directed toward her2/neu have also been studied. Phase I and II gene therapy trials using adenoviral vectors containing a wild-type or modified p53 have shown that the treatment is well tolerated. Phase II and III trials are ongoing with MAbs directed against CA-125 (MAb B43.13) and an antibody directed against HMFG1 (anti-HMFG1-yttrium-90-labeled antibody). The trials have shown that these agents are well tolerated and that immunologic responses occur, although the ultimate clinical value of these agents remains to be determined. Prolonged survival after MAb B43.13 treatment has been correlated with changes in several immune parameters, including human antimurine antibody, Ab2, anti-CA-125 antibody development, and induced T-cell immunity. Clinical trials using a MAb directed toward the encoded products of her2/neu have shown minimal activity against ovarian cancer in a phase I and II trial conducted by the Gynecologic Oncology Group. Cytokine therapies have been administered systemically and intraperitoneally. Intracavitary interferon alfa, interferon gamma, and interleukin-2 alone or in combination with cytotoxic therapy in phase I and II trials demonstrated intraperitoneal lymphoid cell stimulation and produced antitumor responses. A randomized trial of chemotherapy with or without interferon gamma in primary treatment produced a response and a progression-free survival advantage in the arm that incorporated the interferon gamma, without a statistically significant benefit in overall survival. A phase III study of interferon gamma in combination with first-line chemotherapy is currently ongoing.
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PMID:Biologic and immunologic therapies for ovarian cancer. 1274 31

IFI16 is a member of the HIN-200 family (hematopoietic interferon-inducible nuclear antigens with 200 amino acid repeats) that contains a DNA binding domain, a transcriptional regulatory domain, and DAPIN/PAAD, a protein domain associated with interferon response. It can function as a transcription repressor and directly binds p53. Although the structural and biochemical properties of IFI16 are known, the physiological relevance of these properties in the cellular context is still elusive. Here we report that the inhibition of endogenous IFI16 expression by small interfering RNA (siRNA) induces p21Waf1 mRNA and protein expression through p53 but does not induce pro-apoptotic p53 target genes. This rapid induction of p21 was wild-type p53-dependent and resulted in cell cycle arrest along with a marked reduction of phosphorylated Rb in normally growing cells. We also showed that the repression of IFI16 affects p53 transcriptional activity at the p21 promoter as well as the protein stability of p53 and p21. Our findings identified a new role for IFI16 in modulating p53 function and its target gene regulation in the control of cell cycle regulation.
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PMID:IFI16 as a negative regulator in the regulation of p53 and p21(Waf1). 1292 27


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