Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Macrophage migration inhibitory factor (MIF) is a mediator of host immunity and functions as a high, upstream activator of cells within the innate and the adaptive immunological systems. Recent studies have suggested a potentially broader role for MIF in growth regulation because of its ability to antagonize p53-mediated gene activation and apoptosis. To better understand MIF's activity in growth control, we generated and characterized a strain of MIF-knockout (MIF-KO) mice in the inbred, C57BL/6 background. Embryonic fibroblasts from MIF-KO mice exhibit p53-dependent growth alterations, increased p53 transcriptional activity, and resistance to ras-mediated transformation. Concurrent deletion of the p53 gene in vivo reversed the observed phenotype of cells deficient in MIF. In vivo studies showed that fibrosarcomas induced by the carcinogen benzo[alpha]pyrene are smaller in size and have a lower mitotic index in MIF-KO mice relative to their WT counterparts. The data provide direct genetic evidence for a functional link between MIF and the p53 tumor suppressor and indicate an important and previously unappreciated role for MIF in carcinogenesis.
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PMID:The p53-dependent effects of macrophage migration inhibitory factor revealed by gene targeting. 1287 30

Rheumatoid arthritis is characterised by the interaction of multiple mediators, among the most important of which are cytokines. In recent years, extensive data demonstrates a pivotal role for one cytokine, macrophage migration inhibitory factor (MIF), in fundamental events in innate and adaptive immunity. MIF has now been demonstrated to be involved in the pathogenesis of many diseases, but in the case of RA the evidence for a role of MIF is very strong. MIF is abundantly expressed in the serum of RA patients, and in RA synovial tissue where it correlates with disease activity. MIF induces synoviocyte expression of key proinflammatory genes including TNF, IL-1, IL-6, IL-8, cPLA2, COX2 and MMPs. MIF also regulates the function of endothelial cells and B cells. Moreover, MIF is implicated in the control of synoviocyte proliferation and apoptosis via direct effects on the expression of the tumor suppressor protein p53. In multiple rat and mouse models of RA, anti-MIF antibodies or genetic MIF deficiency are associated with significant inhibition of disease. MIF -/- mice further demonstrate increases in synovial apoptosis. That the human Mif gene is encoded by different functional alleles in subjects with inflammatory disease also provides evidence for the role of MIF in RA. The mechanism of action of MIF is becoming better understood. MIF appears to interact with cell surface CD74, with consequent activation of MAP kinases but possibly not NFkappaB intracellular signal transduction. This apparent selectivity may be implicated in the ability of MIF to antagonise the effects of glucocorticoids. As MIF expression is induced by glucocorticoids, inhibition of its antagonistic effects may permit enhanced therapeutic effect of glucocorticoids, or "steroid sparing". To date there are no clinical trials of MIF antagonism in any disease, but exploitation of antibody, soluble receptor, or small molecule approaches enabled by the unique crystal structure of MIF, may soon lead to the ability to test in the clinic the importance of this cytokine in human RA.
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PMID:Macrophage migration inhibitory factor in rheumatoid arthritis. 1557 36

Macrophage migration inhibitory factor (MIF) is implicated in the regulation of inflammation and cell growth. We previously showed that MIF is a potent modulator of p53- and E2F-dependent pathways that are activated in response to oncogenic signaling. Here, we characterize the functional link between MIF and E2F transcription factors. Our results demonstrate that MIF-deficient cells exhibit E2F-dependent growth alterations and reduced susceptibility to oncogenic transformation. The basis for this transformation resistance is a perturbed function of the C-terminal Rb binding region of E2F4. However, inactivation of Rb or substitution of the E2F4 C-terminal domain by the E2F1 C-terminal region rescues the transformation defect. Importantly, the involvement of E2F factors in DNA replication rather than in regulation of transcription determines their oncogenic properties in the context of MIF deficiency. A proinflammatory molecule interfering with tumor suppression and DNA replication provides a compelling molecular link for the association of chronic inflammation and tumorigenesis.
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PMID:Macrophage migration inhibitory factor MIF interferes with the Rb-E2F pathway. 1566 92

Macrophage migration inhibitory factor (MIF) is a potent regulator of inflammation and cell growth. Using the Emu-Myc lymphoma mouse model, we demonstrate that loss of MIF markedly delays the onset of B-cell lymphoma development in vivo. The molecular basis for this MIF-loss-induced phenotype is the perturbed DNA-binding activity of E2F factors and the concomitantly enhanced tumor suppressor activity of the p53 pathway. Accordingly, premalignant MIF-null Emu-Myc B-cells are predisposed to delayed S-phase progression and increased apoptosis. MIF-deficient lymphomas that do arise under these conditions contain frequent ARF deletions and p53 inactivating mutations. Conversely, MIF expression is retained in tumors developed by wild-type Emu-Myc animals, and the presence of one or both MIF alleles is sufficient to accelerate the development of Myc-induced lymphomas. Collectively, these results indicate that MIF promotes Myc-mediated tumorigenesis, at least in the B-lymphoid compartment, and implicate MIF as a mediator of malignant cell growth in vivo.
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PMID:MIF loss impairs Myc-induced lymphomagenesis. 1594 93

The cytokine macrophage migration inhibitory factor (MIF) participates in fundamental events in innate and adaptive immunity. The profile of activities of MIF in vivo and in vitro is strongly suggestive of a role for MIF in the pathogenesis of many inflammatory diseases, including rheumatoid arthritis (RA), and hence antagonism of MIF is suggested as a potential therapeutic strategy in inflammatory disease. The best developed case for therapeutic antagonism of MIF is in RA. In RA, MIF is abundantly expressed in serum and synovial tissue. MIF induces synovial expression of key pro-inflammatory genes, regulates the function of endothelial cells and leucocytes, and is implicated in the control of synoviocyte proliferation and apoptosis via direct effects on the expression of the tumour suppressor protein p53. In animal models of RA, anti-MIF antibodies or genetic MIF deficiency are associated with significant inhibition of disease. A similar case has been made, for example using MIF-deficient mice, in models of atheroma, colitis, multiple sclerosis and other inflammatory diseases. The relationship with p53 also means MIF may be important in the link between inflammatory disease and cancer, such as is seen in RA or colitis. MIF also has a unique relationship with glucocorticoids, in that despite antagonizing their effects, the expression of MIF is in fact induced by glucocorticoids. Thus, MIF functions as a physiological counter-regulator of the anti-inflammatory effects of glucocorticoids. This may be entrained by selective activation of mitogen-activated protein kinases rather than nuclear factor kappa B. Therapeutic MIF antagonism may therefore provide a specific means of 'steroid sparing'. Exploitation of antibody, soluble receptor or small molecule technologies may soon lead to the ability to test in the clinic the importance of MIF in human inflammatory diseases.
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PMID:New therapeutic target in inflammatory disease: macrophage migration inhibitory factor. 1595 13

Macrophage migration inhibitory factor (MIF), a member of the cytokine family, is beginning to be recognized as a pleiotropic proinflammatory molecule. MIF exerts function via antagonistic regulation of glucocorticoids, inhibition to apoptosis-mediated p53, influence on vasodilator gas NO and inducible nitric oxide synthase (iNOS), feedback counter-regulation of complement C5a controlling MIF release, and interaction with major cations as well. Interestingly, aforementioned glucocorticoids, apoptosis, NO, iNOS, C5a, Ca2+, Mg2+, Na+, K+, and H+ that are greatly associated with vascular tone or vasomotion. Nevertheless, the elevated serum and cytosolic concentrations of MIF exactly affect all above facets in septic shock models and patients, during which vasodilation of the peripheral resistance vessels occurs, and accompanied with decreased responsiveness to vascular pressors. Thus MIF may bring into play as one of point-controlling proteins in the onset of sustained vascular hypo-reactivity during the process of septic shock.
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PMID:Is macrophage migration inhibitory factor (MIF) the "control point" of vascular hypo-responsiveness in septic shock? 1612 29

Apoptotic and inflammatory processes occur in human arteriosclerotic lesions. We examined the hypothesis whether both processes are possibly associated by studying the colocalization of corresponding markers. In 11 human arteriosclerotic carotid arteries, proapoptotic markers (CPP32 (caspase-3), poly(ADP-ribose) polymerase, apoptosis-inducing factor, c-Jun/AP-1, and p53) and proinflammatory markers (macrophage migration inhibitory factor (MIF) and cyclooxygenase-2) were found in macrophages (MPhi) evaluated by computer-assisted immunohistomorphometry. Double-labeling studies demonstrated a colocalization of, both, proapoptotic and proinflammatory markers in these MPhi. Moreover, these MPhi also contained oxidized low-density lipoproteins (oxLDL). Exposure of cultured human MPhi to oxLDL, C6-ceramide, and tumor necrosis factor-alpha or H2O2 resulted in a significant increase of the apoptosis rate as well as of the MIF protein expression. Our study of MPhi in arteriosclerotic carotid arteries and in vitro experiments provide evidence that markers of apoptosis and inflammation are not only significantly increased but are also coexpressed. We conclude there are reciprocal modulatory interactions between apoptotic and inflammatory pathways in human plaque MPhi, which might importantly modify plaque progression or stability.
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PMID:Colocalization of oxidized low-density lipoprotein, caspase-3, cyclooxygenase-2, and macrophage migration inhibitory factor in arteriosclerotic human carotid arteries. 1613 50

This study was performed to add clinical data, to introduce new markers, and to perform syntactic structural analysis on localized fibrous tumors (LFTs) of the pleura. The material comprised clinical data and processed sections obtained from 36 patients. The results achieved from quantitative imaging techniques and syntactic structure analysis were correlated with clinical data, including patients' habits (smoking), asbestos exposure, survival, and tumor recurrence. The disease caused increasing chest pain and dyspnea in 47% of patients. Exposure to asbestos was noted in 13 out of 36 patients, whereas smoking posed no major risk factor. Two patients developed a recurrent tumor after 8 and 42 months, respectively; none of the other patients died of this tumor disease within the follow-up period of maximal 212 months. The cases were clearly discriminated from mesotheliomas by the marker profile. Frequent expression of accessible ligands for endogenous lectins galectins-1 and -3, the expression of the angiogenic macrophage migration inhibitory factor (MIF), and the dense vascularization intimate a functional relationship. The proliferation index (Nv) was computed to be 1.6% in line with the balance of galectin expression. Abnormal p53 was expressed in only 19.4% of the cases. The diagnosis of LFT can be aided by quantitative assessment of vimentin, CD34, MIF, vascularization, and proliferation. Considering the galectin network, differential expression was noted with preference to effectors limiting growth and aggressiveness.
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PMID:Localized fibrous tumors (LFTs) of the pleura: clinical data, asbestos burden, and syntactic structure analysis applied to newly defined angiogenic/growth-regulatory effectors. 1630 4

Rheumatoid arthritis (RA) is a debilitating disease of unknown etiology. Although the pathogenesis of RA is multifactorial, the contribution of cytokines is undoubtedly pivotal in the progression of the inflammatory process. One cytokine gaining recognition for its importance in inflammation is macrophage migration inhibitory factor (MIF). Initially described as a biological activity, a broad range of functions of MIF has emerged including induction of proinflammatory mediators as well as demonstrated roles in both innate and adaptive immunity. In RA, increased MIF levels have been demonstrated in serum, synovial fluid and tissue with the latter correlating with disease activity. In vitro, MIF induces production of key proinflammatory genes operative in arthritis, including IL-1, TNF, IL-6, IL-8, COX-2, PLA2, and MMPs. In addition, MIF regulates proliferation and apoptosis via direct effects on the tumor suppressor protein p53 implicating a role for MIF in synovial hyperplasia. In vivo, MIF antagonism or MIF deficiency result in decreased disease severity in animal models of RA further confirming a role for MIF in joint inflammation. Interestingly, MIF is induced by glucocorticoids and MIF in turn antagonises glucocorticoid effects. This unique relationship presents antagonism of MIF as a potentially effective steroid-sparing therapy.
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PMID:The role of macrophage migration inhibitory factor in the inflammatory immune response and rheumatoid arthritis. 1646 10

Cholesteatoma is a benign disease characterized by the presence of an unrestrained growth and the accumulation of keratin in the middle ear cavity. Due to roles in cell proliferation, apoptosis and differentiation members of the protein kinase C (PKC) family could be involved in disease progression. This study focuses on the expression of protein kinase C-alpha, -delta, -eta, -gamma and -zeta in the epithelial tissues of 56 human cholesteatomas and their correlations with those of previously characterized distributions of p53, galectin-3, retinoic acid receptor-beta (RARbeta) and macrophage migration inhibitory factor (MIF). We have previously reported this marker set to be correlated with keratinocyte differentiation in human cholesteatomas. Our present data clearly show that the percentage of PKC-alpha (but not PKC-delta, -gamma, -eta and -zeta)-immunopositive cells in epithelial tissue fro recurrent cholesteatomas was significantly higher than in non-recurrent cases. Correlations between the PKC isoenzymes and the biological markers were non-uniform. PKC-alpha (but not PKC-delta, -gamma, -eta and -zeta) expression in epithelial cholesteatoma cells correlated significantly and positively with the percentages of p53-immunopositive cells. The patterns of PKC-alpha and -delta expression, but not of PKC-gamma, -eta and -zeta, correlated significantly and positively with galectin-3 expression. In addition, the correlation levels between the expression of PKC-alpha and -delta and that of galectin-3 varied depending on the infection and recurrence status. Presence of RARbeta correlated significantly (and positively) with the expression of PKC-gamma and -zeta and also in relation to the infection and recurrence status. MIF correlated presence significantly (and positively) with that of the five PKCs under study, depending on whether the cholesteatomas were non-infected or infected as well as non-recurrent or recurrent. In conclusion, the present study suggests that modifications occurring at the level of keratinocyte differentiation in human cholesteatomas involve distinct effectors, to which the activation of PKC-alpha, -delta, -eta, -gamma and -zeta can be added.
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PMID:Characterization of patterns of expression of protein kinase C-alpha, -delta, -eta, -gamma and -zeta and their correlations to p53, galectin-3, the retinoic acid receptor-beta and the macrophage migration inhibitory factor (MIF) in human cholesteatomas. 1651 4


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