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)

The initiation, growth, and development of new blood vessels through angiogenesis are essential for tumor growth. Tumor masses require access to blood vessels for a sufficient supply of oxygen and nutrients to maintain growth and metastasis. Inhibiting tumor blood vessel formation as proposed by Judah Folkman in the early 1970s, therefore, offers promising therapeutic approaches for treating tumor afflicted patients. The blood vessel growth in normal tissues is regulated though a delicate and complex balance between the collective action of proangiogenic factors (e.g., vascular endothelial growth factor, VEGF) and the collective action of angiogenic inhibitors (e.g., thrombospondin-1). In pathological angiogenesis, the angiogenic switch is shifted toward the proangiogenic factors, and if the imbalance continues, irregular tumor vessel growth is the result. Despite intense research, the mechanism of the angiogenic switch is not fully understood. Many factors, however, have been shown to be involved in regulating the equilibrium between angiogenic stimulants and inhibitors. VEGFR tyrosine kinase, methionine aminopeptidase-2 (MetAP-2), p53, tubulin, cyclooxygenase-2 (COX-2), and matrix metalloproteinases (MMPs) all directly and/or indirectly influence the angiogenic switch. This review will describe some of the advances in inhibitor design and the mechanisms of action for the aforementioned factors (targets) involved in angiogenesis regulation. Our discussion reveals that a diaryl group separated by various connecting modules is one of the most common features for antiangiogenesis drug design. This idea has been a working pharmacophore hypothesis for our own antiangiogenic drug design endeavors over the years. The recent advances of combination therapy (angiogenesis inhibitors with other chemotherapy/radiation) are also discussed.
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PMID:Antiangiogenesis drug design: multiple pathways targeting tumor vasculature. 1661 Oct 71

Human adenocarcinomas commonly harbor mutations in the KRAS and MYC proto-oncogenes and the TP53 tumor suppressor gene. All three genetic lesions are potentially pro-angiogenic, as they sustain production of vascular endothelial growth factor (VEGF). Yet Kras-transformed mouse colonocytes lacking p53 formed indolent, poorly vascularized tumors, whereas additional transduction with a Myc-encoding retrovirus promoted vigorous vascularization and growth. In addition, VEGF levels were unaffected by Myc, but enhanced neovascularization correlated with downregulation of anti-angiogenic thrombospondin-1 (Tsp1) and related proteins, such as connective tissue growth factor (CTGF). Both Tsp1 and CTGF are predicted targets for repression by the miR-17-92 microRNA cluster, which was upregulated in colonocytes coexpressing K-Ras and c-Myc. Indeed, miR-17-92 knockdown with antisense 2'-O-methyl oligoribonucleotides partly restored Tsp1 and CTGF expression; in addition, transduction of Ras-only cells with a miR-17-92-encoding retrovirus reduced Tsp1 and CTGF levels. Notably, miR-17-92-transduced cells formed larger, better-perfused tumors. These findings establish a role for microRNAs in non-cell-autonomous Myc-induced tumor phenotypes.
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PMID:Augmentation of tumor angiogenesis by a Myc-activated microRNA cluster. 1687 33

The targeted inactivation of oncogenes offers a rational therapeutic approach for the treatment of cancer. However, the therapeutic inactivation of a single oncogene has been associated with tumor recurrence. Therefore, it is necessary to develop strategies to override mechanisms of tumor escape from oncogene dependence. We report here that the targeted inactivation of MYC is sufficient to induce sustained regression of hematopoietic tumors in transgenic mice, except in tumors that had lost p53 function. p53 negative tumors were unable to be completely eliminated, as demonstrated by the kinetics of tumor cell elimination revealed by bioluminescence imaging. Histological examination revealed that upon MYC inactivation, the loss of p53 led to a deficiency in thrombospondin-1 (TSP-1) expression, a potent antiangiogenic protein, and the subsequent inability to shut off angiogenesis. Restoration of p53 expression in these tumors re-established TSP-1 expression. This permitted the suppression of angiogenesis and subsequent sustained tumor regression upon MYC inactivation. Similarly, the restoration of TSP-1 alone in p53 negative tumors resulted in the shut down of angiogenesis and led to sustained tumor regression upon MYC inactivation. Hence, the complete regression of tumor mass driven by inactivation of the MYC oncogene requires the p53-dependent induction of TSP-1 and the shut down of angiogenesis. Notably, overexpression of TSP-1 alone did not influence tumor growth. Therefore, the combined inactivation of oncogenes and angiogenesis may be a more clinically effective treatment of cancer. We conclude that angiogenesis is an essential component of oncogene addiction.
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PMID:Sustained regression of tumors upon MYC inactivation requires p53 or thrombospondin-1 to reverse the angiogenic switch. 1705 17

Bevacizumab, a monoclonal antibody to vascular endothelial growth factor, was approved in 2004 for use in combination with intravenous 5-fluorouracil-based chemotherapy for the treatment of metastatic colorectal cancer. Bevacizumab is the first approved agent that targets tumor angiogenesis. The pivotal phase III trial showed significantly greater overall and progression-free survival with the addition of bevacizumab to irinotecan, 5-fluorouracil, and leucovorin. These outcomes were observed irrespective of patients' pretreatment characteristics (age >/=65 years, >/=1 site of metastasis, or location of primary tumor). Furthermore, there was a significant survival benefit regardless of pretreatment biomarkers, including plasma vascular endothelial growth factor level, tumor thrombospondin and p53 expression, and mutational status in k-ras, b-raf, and p53. Analysis of data in responders and nonresponders showed a response-independent survival benefit, indicating that even those in whom there was not an objective tumor response by standard criteria benefited from the addition of bevacizumab. Preliminary data on the addition of bevacizumab to oxaliplatin- and capecitabine-based regimens for the first-line treatment of metastatic colorectal cancer show that these regimens are well tolerated, with consistent increases in objective response rates, time to progression, and overall survival. The survival advantages in patients with metastatic colorectal cancer with the addition of bevacizumab to chemotherapy support the use of this agent in first-line treatment.
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PMID:Bevacizumab in combination with chemotherapy: first-line treatment of patients with metastatic colorectal cancer. 1714 25

Secondary metabolites from plants serve as defense against herbivores, microbes, viruses, or competing plants. Many medicinal plants have pharmacological activities and may, thus, be a source for novel treatment strategies. During the past 10 years, we have systematically analyzed medicinal plants used in traditional Chinese medicine and focused our interest on Artemisia annua L. (qinhao, sweet wormwood). We found that the active principle of Artemisia annua L., artemisinin, exerts not only antimalarial activity but also profound cytotoxicity against tumor cells. The inhibitory activity of artemisinin and its derivatives towards cancer cells is in the nano- to micromolar range. Candidate genes that may contribute to the sensitivity and resistance of tumor cells to artemisinins were identified by pharmacogenomic and molecular pharmacological approaches. Target validation was performed using cell lines transfected with candidate genes or corresponding knockout cells. The identified genes are from classes with diverse biological functions; for example, regulation of proliferation (BUB3, cyclins, CDC25A), angiogenesis (vascular endothelial growth factor and its receptor, matrix metalloproteinase-9, angiostatin, thrombospondin-1) or apoptosis (BCL-2, BAX, NF-kappaB). Artesunate triggers apoptosis both by p53-dependent and -independent pathways. Antioxidant stress genes (thioredoxin, catalase, gamma-glutamylcysteine synthetase, glutathione S-transferases) as well as the epidermal growth factor receptor confer resistance to artesunate. Cell lines overexpressing genes that confer resistance to established antitumor drugs (MDR1, MRP1, BCRP, dihydrofolate reductase, ribonucleotide reductase) were not cross-resistant to artesunate, indicating that artesunate is not involved in multidrug resistance. The anticancer activity of artesunate has also been shown in human xenograft tumors in mice. First encouraging experience in the clinical treatment of patients suffering from uveal melanoma calls for comprehensive clinical trials with artesunate for cancer treatment in the near future.
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PMID:Willmar Schwabe Award 2006: antiplasmodial and antitumor activity of artemisinin--from bench to bedside. 1735 63

Glioblastoma multiforme is the most common malignant brain tumor in adults, and it is among the most lethal of all cancers. Recent studies have shown that pigment epithelium-derived factor (PEDF) can induce differentiation and inhibit angiogenesis of several tumors. This study was designed to determine whether gliomas angiogenesis and tumor growth could be inhibited by PEDF. We found that PEDF down-regulated expression levels of vascular endothelial growth factor and up-regulated the expression of thrombospondin-2 and augmented apoptosis in a dose-dependent manner in both A172 and U87 glioma cells lines after 48 h of treatment. Analysis of the cell cycle showed arrest in the G(1) phase and block in S phase of the cell cycle. Meanwhile PEDF induced apoptosis was associated with increases of p53 and Bax and inhibition of Bcl-2. Conditioned medium with PEDF showed a significantly reductive effect on migration in vitro accompanied with a significant reduction of matrix metalloproteinase-9 expression. PEDF suppressed glioma cell migration in vitro and tumor burden in athymic nude mice. These results demonstrate for the first time inhibitory effects of PEDF on the growth and migration of human gliomas via induction of apoptosis and blocking of migratory-related factors. PEDF activation can be a novel approach for future therapeutic purposes against gliomas.
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PMID:Pigment epithelium-derived factor inhibits glioma cell growth in vitro and in vivo. 1791 63

We examined whether and how peritubular capillary (PTC) loss in the renal cortex contributes to the development of deoxycorticosterone acetate (DOCA)/salt-induced tubulointerstitial fibrosis. Uninephrectomized rats provided with 0.9% NaCl/0.3% KCl drinking solution ad libitum were divided into control, DOCA, and spironolactone groups, which were administered vehicle, DOCA alone, and DOCA plus spironolactone for 1 (initial phase) and 4 weeks (delayed phase), respectively. Exposure to DOCA initiated a sequence of events that initially involved reduced PTC density, followed by a delayed response that involved further reduced PTC density, development of tubulointerstitial fibrosis and hypertension, enhanced expression of transforming growth factor-beta1 and connective tissue growth factor, and impaired renal function. Concomitant with the reduced PTC density, the 2 hypoxia-responsive angiogenic factors (vascular endothelial growth factor and hypoxia-inducible factor-1alpha) and the antiangiogenic factor (thrombospondin-1) were upregulated in cortical tubular cells of the DOCA group during the 2 phases and only in the delayed phase, respectively. In the DOCA group, PTC endothelial cell apoptosis was enhanced during the 2 phases, and PTC endothelial cell proliferation was inhibited in the delayed phase. In accordance with upregulation of thrombospondin-1, p53 expression was enhanced in the DOCA group in the delayed phase. The initial and delayed effects of DOCA were blocked in the spironolactone group. We conclude that exposure to DOCA initially caused the reduced PTC density associated with enhanced apoptosis independent of thrombospondin-1, which induced tubulointerstitial fibrosis via p53-mediated thrombospondin-1 activation, and spironolactone conversely corrected the effects of DOCA to prevent fibrosis.
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PMID:Spironolactone suppresses peritubular capillary loss and prevents deoxycorticosterone acetate/salt-induced tubulointerstitial fibrosis. 1825 Mar 61

Nitric oxide (NO) has been invoked in nearly every normal and pathological condition associated with human physiology. In tumor biology, nitrogen oxides have both positive and negative affects as they have been implicated in both promoting and preventing cancer. Our work has focused on NO chemistry and how it correlates with cytotoxicity and cancer. Toward this end, we have studied both concentration- and time-dependent NO regulation of specific signaling pathways in response to defined nitrosative stress levels that may occur within the tumor microenvironment. Threshold levels of NO required for activation and stabilization of key proteins involved in carcinogenesis including p53, ERK, Akt and HIF have been identified. Importantly, threshold NO levels are further influenced by reactive oxygen species (ROS) including superoxide, which can shift or attenuate NO-mediated signaling as observed in both tumor and endothelial cells. Our studies have been extended to determine levels of NO that are critical during angiogenic response through regulation of the anti-angiogenic agent thrombospondin-1 (TSP-1) and pro-angiogenic agent matrix metalloproteinase-9 (MMP-9). The quantification of redox events at the cellular level has revealed potential mechanisms that may either limit or potentiate tumor growth, and helped define the positive and negative function of nitric oxide in cancer.
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PMID:Molecular mechanisms for discrete nitric oxide levels in cancer. 1847 20

The p53 tumour suppressor protein has long been recognized as the central factor protecting humans from cancer. In this study we evaluated the associations of p53 status and vessel density (angiogenesis) in a set of diffuse low-grade astrocytomas. Immunohistochemistry was performed on 23 diffuse low-grade astrocytomas for CD31 and p53. Mutations in the TP53 gene were identified by PCR amplification of genomic DNA extracted from the indicated tumour tissues. Microvessel counts were done by computer analyses. Intratumoural or peritumoural microvascular hot spots were assessed and analysed from an image taken with a 200x fold magnification. Statistical analysis was performed with Pearson correlation coefficient and Student's t-test. We found that 9/23 (39%) of the astrocytomas stained positive for p53 in the immunohistochemistry. We identified TP53 mutations in 11/23 (47%) of the astrocytomas. No association between micro vessel density (MVD) and p53 immunohistochemical status was found. However, the MVD was significantly increased in p53 mutated low-grade astrocytomas. Furthermore, the absolute vessel number was significantly higher in p53 mutated than in p53 wild-type low-grade astrocytomas. To analyse the molecular background for that epiphenomenon LN229 glioma cells which harbour a TP53 mutation were transfected with a plasmid encoding p53 wild-type and an angiogenesis protein array was performed. We detected a significant increase for thrombospondin-1, coagulation factor III and serpin E1 and a significant decrease of MMP-9 in wild-type p53 transfected LN229 cells. The higher microvessel density and the increased absolute vessel number in p53 mutated tumours supports the importance of p53 for tumour angiogenesis in diffuse low-grade astrocytomas. Our results support the hypothesis that p53 regulates angiogenesis in low-grade astrocytomas.
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PMID:p53-mediated inhibition of angiogenesis in diffuse low-grade astrocytomas. 1942 89

The eleven-nineteen lysine-rich leukemia (ELL) gene undergoes translocation and fuses in-frame to the multiple lineage leukemia gene in a substantial proportion of patients suffering from acute forms of leukemia. Studies show that ELL indirectly modulates transcription by serving as a regulator for transcriptional elongation as well as for p53, U19/Eaf2, and steroid receptor activities. Our in vitro and in vivo data demonstrate that ELL could also serve as a transcriptional factor to directly induce transcription of the thrombospondin-1 (TSP-1) gene. Experiments using ELL deletion mutants established that full-length ELL is required for the TSP-1 up-regulation and that the transactivation domain likely resides in the carboxyl terminus. Moreover, the DNA binding domain may localize to the first 45 amino acids of ELL. Not surprisingly, multiple lineage leukemia-ELL, which lacks these amino acids, did not induce expression from the TSP-1 promoter. In addition, the ELL core-response element appears to localize in the -1426 to -1418 region of the TSP-1 promoter. Finally, studies using zebrafish confirmed that ELL regulates TSP-1 mRNA expression in vivo, and ELL could inhibit zebrafish vasculogenesis, at least in part, through up-regulating TSP-1. Given the importance of TSP-1 as an anti-angiogenic protein, our findings may have important ramifications for better understanding cancer.
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PMID:Elongation factor ELL (Eleven-Nineteen Lysine-rich Leukemia) acts as a transcription factor for direct thrombospondin-1 regulation. 1944 90


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