UNIPROT:P04637 - FACTA Search

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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nitric oxide (NO) produced at high concentrations by the inducible NO synthase is an important effector molecule involved in immune regulation and defense. We have examined whether NO represents a signal for triggering apoptosis in thymocytes. Freshly isolated thymocytes were incubated with different chemical NO donors for various intervals. Apoptosis was determined by detection of DNA strand breaks with in situ nick translation. All NO donors induced thymocyte apoptosis with 30% positive thymocytes vs 10% in controls after 8 h. Apoptosis was prevented by addition of ZnSO4. Short-term pre-exposure to NO resulted in protection from apoptosis induced by glucocorticoids comparable with the protective effect of heat shock. Flow cytometry revealed that NO treatment as well as heat shock or dexamethasone incubation is accompanied by reduction in the CD4+ CD8+ thymocyte subpopulation. Apoptosis induction was accompanied by increased expression of p53, as detected by PCR analysis 2 h after NO donor addition. In vivo treatment of mice with endotoxin results in increased thymic apoptosis. Focal apoptosis was found to occur in close proximity to blood vessels 18 h after LPS treatment. Capillary endothelium and dendritic cells adjacent to apoptotic foci were found to stain strongly for inducible NO synthase expression. Furthermore, in an in vitro experiment using cocultures of thymocytes with LPS/cytokine-activated endothelial cells expressing inducible NO synthase, a significantly increased rate of thymocyte apoptosis was found, and this could be prevented completely by inhibiting NO production. Addition of dexamethasone to these cocultures did not lead to a further increase in the percentage of apoptotic thymocytes, underlining the protective effect of NO on dexamethasone-induced apoptosis.
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PMID:Nitric oxide induces apoptosis in mouse thymocytes. 767 2

Protein tyrosine kinases (PTKs) have been implicated in signal transduction in a variety of cell types. B lymphocytes express the genes encoding for eight members of the src family of nonreceptor PTKs. Four of these PTKs (p55blk, p53/56lyn, p59fyn, and p56lck) are activated by the ligation of mIg receptors. The functional roles of these PTKs in membrane-bound immunoglobulins (mIg) receptor-mediated activation of resting B lymphocytes were examined using the PTK inhibitor, herbimycin A. Here we show that mIg receptor-mediated B-cell proliferation and differentiation were inhibited by treatment with herbimycin A, while inhibitor-treated B cells retained LPS (mitogen) responsiveness for proliferation and antibody formation. Further studies demonstrated that herbimycin A blocked the G0 to G1 transition during B-cell activation. When the effects of herbimycin A were directly examined by a kinase activity assay, the enzymatic activity of each PTK was inhibited to varying degrees. The inhibition of PTK activity was also reflected by reduced tyrosine phosphorylation of intracellular substrates, including phospholipase C-gamma. These results implicate PTK-dependent signaling pathways in the mIg receptor-mediated functional activation of B lymphocytes.
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PMID:Inhibition of protein tyrosine kinase activity by herbimycin A prevents anti-mu but not LPS-mediated cell cycle progression and differentiation of splenic B lymphocytes. 839 38

Nitric oxide signaling is achieved through both cGMP-dependent and cGMP-independent mechanisms. The latter are exemplified by protein thiol modification followed by subsequent NAD(+)-dependent automodification of the glycolytic enzyme GAPDH, or by mechanisms inducing accumulation of the tumor suppressor gene p53 and causing apoptotic cell death. Both cGMP-independent actions are initiated using NO-releasing compounds and an active LPS/cytokine-inducible NO synthase. NO-synthase inhibitors block the release of NO and hinder downstream signaling mechanisms; they are therefore valuable pharmacological tools linking a defined cellular response to various NO actions. Signal transducing mechanisms elicited by NO can be studied using GAPDH as a representative example of NO-induced protein modification and are grouped as follows: --S-Nitrosylation reactions initiated by NO+ --NAD(+)-dependent, post-translational covalent automodification of GAPDH --Oxidative modification (thiol oxidation) and inhibition of GAPDH by NO-related agents, probably ONOO- GAPDH and several other protein targets may serve as molecular sensors of elevated NO concentrations and may transmit this message through posttranslational modification and oxidation-induced conformational changes as cGMP-independent NO signaling pathways. Toxicity of NO seems to be linked to both apoptosis and necrosis, depending on the chemistry of NO it undergoes in a given biological milieu. Toxicity manifests as a relative excess of NOx, metal-NO interactions, and ONOO- formation in relation to cellular defense systems. Although accumulation of the tumor-suppressor gene product p53 in response to NO opens a regulatory mechanism known to be involved in apoptotic cell death, cGMP-independent signaling pathways remain to be elucidated. As NO-dependent modification of GAPDH would imply down-regulation of glycolysis and concomitant energy production followed by cell death, our data so far do not support this assumption. In recent years, NO has proved to be a beneficial messenger with a potentially toxic activity. It will be challenging to investigate NO biochemistry in closer detail and to elucidate how NO targets biological systems, especially in relation to its pathophysiological role.
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PMID:Protein thiol modification and apoptotic cell death as cGMP-independent nitric oxide (NO) signaling pathways. 853 7

p53/56lyn and other src family tyrosine kinases become activated in monocytes treated with LPS. In a variety of systems, phosphatidylinositol 3-kinase (PI 3-kinase) is believed to be a downstream effector of tyrosine kinases, and activation of PI 3-kinase results in increased levels of D3-phosphorylated metabolites of phosphatidylinositol (PtdIns). To examine whether LPS activates PI 3-kinase, freshly isolated human, peripheral blood monocytes were labeled in vitro with [32P]orthophosphate, and inositol phospholipids were detected after extraction and separation of lipids by TLC. Levels of PtdIns 3,4,5-trisphosphate (PtdIns 3,4,5-P3) were elevated within minutes of exposure of cells to LPS. Analysis of 32P-labeled lipid extracts of U937 cells by HPLC confirmed that levels of PtdIns 3,4,5-P3 increased rapidly following LPS treatment. Increased levels of PtdIns 3,4,5-P3 in LPS-treated cells resulted from an increase in the specific activity of PI 3-kinase. Thus, anti-PI 3-kinase immunoprecipitates prepared from unlabeled monocytes and assayed in an in vitro phosphorylation assay, using PtdIns as substrate, showed higher enzymatic activity when these were prepared from lysates of LPS-treated cells as compared with control cells. PI 3-kinase activity in immunoprecipitates was elevated as early as 2 min after LPS exposure and was dose dependent, with increased activity being observed at LPS concentrations as low as 10 pg/ml. Activation of PI 3-kinase involved signaling through the monocyte cell surface molecule CD14, since pretreatment of cells with Abs to CD14 abrogated LPS-induced increases in PtdIns 3,4,5-P3. Immunoprecipitates of p53/56lyn from LPS-treated cells showed a time-dependent and transient increase in PI 3-kinase activity assayed in vitro, coordinate with activation of p53/56lyn, indicating that LPS induces the association and simultaneous activation of these two enzymes in vivo. These findings indicate that monocytes respond to LPS with the rapid activation of PI 3-kinase, resulting in transient increases in levels of PtdIns 3,4,5-P3. This process is CD14 dependent and involves the physical association of PI 3-kinase with activated p53/56lyn.
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PMID:Bacterial lipopolysaccharide induces the association and coordinate activation of p53/56lyn and phosphatidylinositol 3-kinase in human monocytes. 855 93

Nitric oxide causes apoptotic cell death in RAW 264.7 macrophages. The cellular response to the NO donor S-nitrosoglutathione (GSNO) comprises an apoptotic morphology and DNA fragmentation, which largely depends on the accumulation of the tumor suppressor gene product p53. Pre-treatment of macrophages with LPS, IFN-gamma in the presence of NG-monomethyl-L-arginine (NMMA) imparts resistance to apoptotic cell death, normally elicited by exogenously-supplied GSNO. Similarly, pre-treatment with low-dose GSNO (25-200 microM) conferred resistance from a second exposure to a higher dose of GSNO (1 mM). Protection is comprehended at the level of blocked p53 accumulation. Upregulation of protective mechanisms in response to non-lethal NO concentrations or by LPS, cytokine pre-stimulation may redirect the ability of nitric oxide to upregulate p53 and to initiate macrophage apoptosis, thereby modulating cellular susceptibility towards NO-intoxication.
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PMID:Cytokine and low-level nitric oxide prestimulation block p53 accumulation and apoptosis of RAW 264.7 macrophages. 895 10

Laboratory data indicate that morphine decreases the numbier of peritoneal and alveolar macrophages (Mphi) and compromises their phagocytic capability for immune complexes and bacteria. We hypothesize that morphine decreases the number of, as well as compromises the phagocytic capability of, Mphi by programming their death. We studied the effect of morphine on Mphi apoptosis in vivo as well as in vitro. Peritoneal Mphi harvested from morphine-treated rats showed DNA fragmentation. Morphine enhanced murine Mphi (J 774.16) apoptosis in a dose-dependent manner. Human monocytes treated with morphine showed a classic ladder pattern in gel electrophoretic and end-labeling studies. Morphine promoted nitric oxide (NO) production both under basal and LPS-activated states. N(G)-nitro-L-arginine methyl ester (L-NAME) and N(G)-monomethyl-L-arginine monoacetate (L-NMMA), inhibitors of NO synthase, attenuated the morphine-induced generation of NO by Mphi. Morphine also enhanced Mphi mRNA expression of inducible NO synthase (iNOS). Since morphine-induced Mphi apoptosis was inhibited by L-NAME and L-NMMA, it appears that morphine-induced Mphi apoptosis may be mediated through the generation of NO. Morphine promoted the synthesis of Bax and p53 proteins by Mphi. Moreover, IL-converting enzyme (ICE)-1 inhibitor attenuated morphine-induced Mphi apoptosis. These studies suggest that morphine activates the induction phase of the apoptotic pathway through accumulation of p53. The effector phase of morphine-induced apoptosis appears to proceed through the accumulation of Bax and activation of ICE-1. The present study provides a basis for a hypothesis that morphine may be directly compromising immune function by promoting Mphi apoptosis in patients with opiate addiction.
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PMID:Morphine enhances macrophage apoptosis. 946 50

Following a hemorrhagic event, damage to the highly metabolic intestinal tissue induces loss of barrier function leading to bacterial escape and LPS contamination of the host. Orally administered IL-6 restores intestinal barrier function following hemorrhage in both rat and mouse models. IL-6 prevents apoptosis in a variety of lymphoid cells and lines, through the activation of the proto-oncogene bcl-2. This communication elucidates the role of the IL-6-bcl-2 interaction in intestinal apoptosis following hemorrhagic shock. Terminal deoxynucleotidyl-transferase-mediated dUTP nick end labeling (TUNEL) and p53 immunohistochemical staining were used to examine intestines from mice hemorrhaged and fed saline or IL-6 and enterocytes (IEC-6) exposed to hypoxia and LPS alone or LPS and IL-6 in vitro. In situ hybridization for bcl-2 expression was performed on intestines or enterocytes. Intestinal sections from mice hemorrhaged and fed IL-6 showed reduction in apoptosis and increases in bcl-2 gene expression relative to sections taken from mice hemorrhaged and fed saline. IEC-6 cells exposed to hypoxia and LPS had high numbers of TUNEL staining cells. Subsequent exposure to IL-6 after hypoxia and LPS reduced apoptotic cell numbers and increased bcl-2 gene expression. The data show that exposure of intestinal epithelial cells to IL-6 either by oral administration in hemorrhaged mice or by coculture following hypoxia and LPS treatment results in increased bcl-2 gene expression and reduced damage from apoptosis.
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PMID:IL-6 rescues enterocytes from hemorrhage induced apoptosis in vivo and in vitro by a bcl-2 mediated mechanism. 983 90

Interferons are a family of cytokines that exerts antiviral, antitumor and immunomodulatory actions by inducing a complex set of proteins. One of the best known IFN-induced protein is the dsRNA-dependent protein kinase (PKR), that mediates both antiviral and anticellular activities. PKR inhibits translation initiation through the phosphorylation of the alpha subunit of the initiation factor eIF-2 (eIF-2 alpha) and also controls the activation of several transcription factors such as NF-kappa B, p53, or STATs. In addition, PKR mediates apoptosis induced by many different stimuli, such as treatment with LPS, TNF-alpha, viral infection, or serum starvation. The mechanism of apoptosis induction by PKR involves phosphorylation of eIF-2 alpha and activation of NF-kappa B. In this way, expression of different genes is regulated by PKR. Among the genes upregulated in response to PKR are Fas, Bax and p53. The pathway of PKR-induced apoptosis involves FADD activation of caspase 8 by a mechanism independent of Fas and TNFR. Since IFNs are used as drugs for different disorders such as viral infection and cancer, understanding the pathway of apoptosis induction triggered by PKR should be useful in the rational design of IFN therapies.
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PMID:Induction of apoptosis by the dsRNA-dependent protein kinase (PKR): mechanism of action. 1123 38

RON is a receptor tyrosine kinase activated by macrophage-stimulating protein. We demonstrate here that RON activation inhibits LPS-induced apoptosis of mouse peritoneal macrophages and Raw264.7 cells expressing RON or a constitutively active RON mutant. The antiapoptotic effect of RON was accompanied with the inhibition of LPS-induced production of nitric oxide (NO), a molecule responsible for LPS-induced cell apoptosis. This conclusion is supported by experiments using a chemical NO donor GSNO, in which RON activation directly blocked GSNO-induced apoptotic death of Raw264.7 cells and inhibited LPS-induced p53 accumulation. Furthermore, we showed that treatment of cells with wortmannin, which inhibits phosphatidylinositol (PI)-3 kinase, prevents the inhibitory effect of RON on LPS-induced macrophage apoptosis. These results were confirmed further by expression of a dominant inhibitory PI-3 kinase p85 subunit. These data suggest that by activating PI-3 kinase and inhibiting p53 accumulation, RON protects macrophage from apoptosis induced by LPS and NO. The antiapoptotic effect of RON might represent a novel mechanism for the survival of activated macrophages during inflammation.
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PMID:Activation of the RON receptor tyrosine kinase protects murine macrophages from apoptotic death induced by bacterial lipopolysaccharide. 1181 58

Endothelial injury is a major manifestation of septic shock induced by LPS. Recently, LPS was shown to induce apoptosis in different types of endothelial cells. In this study, we observed that pretreatment with vascular endothelial growth factor (VEGF), a known cell survival factor, blocked LPS-induced apoptosis in endothelial cells. We then further defined this LPS-induced apoptotic pathway and its inhibition by VEGF. We found that LPS treatment increased caspase-3 and caspase-1 activities and induced the cleavage of focal adhesion kinase. LPS also augmented expression of the pro-apoptotic protein Bax and the tumor suppressor gene p53. The pro-apoptotic Bax was found to translocate to the mitochondria from the cytosol following stimulation with LPS. Pretreatment of endothelial cells with VEGF inhibited the induction of both Bax and p53 as well as the activation of caspase-3. These data suggest that VEGF inhibits LPS-induced endothelial apoptosis by blocking pathways that lead to caspase activation.
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PMID:Lipopolysaccharide-induced apoptosis of endothelial cells and its inhibition by vascular endothelial growth factor. 1202 90

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