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: UMLS:C0178874 (tumor progression)
40,807 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Tumor progression and metastasis depend on the ability of cancer cells to initiate angiogenesis to ensure delivery of oxygen, nutrients, and growth factors to tumor cells and provide access to the systemic circulation. Hypoxia-inducible factor-1 (HIF-1) can activate expression of a broad range of genes that mediate many of the adaptive responses to decreased oxygen concentration, such as enhanced glucose uptake and formation of new blood vessels. Acting through Plexin-B1 on endothelial cells, Semaphorin 4D (Sema4D) has been shown to promote angiogenesis and enhance invasive growth and proliferation in some tumors. Here we show that the gene for Sema4D, the product of which is elevated in head and neck squamous cell carcinoma (HNSCC) cells, contains upstream hypoxia response elements (HRE) and is strongly induced in hypoxia in a HIF-1-dependent manner. Knocking down Sema4D expression with short hairpin (sh) RNA reduces in vitro endothelial cell migration and growth and vascularity of HNSCC xenografts expressing a degradation resistant HIF-1alpha subunit. We also demonstrate a correlation between HIF-1 activity and Sema4D expression in HNSCC specimens. These findings indicate that Sema4D is induced by hypoxia in a HIF-1-dependent manner and influences endothelial cell migration and tumor vascularity. Expression of Sema4D may be a strategy by which carcinomas promote angiogenesis and therefore could represent a therapeutic target for these malignancies.
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PMID:Hypoxia-inducible factor-1-mediated regulation of semaphorin 4D affects tumor growth and vascularity. 1976 74

HIF-1 is a heterodimeric transcription factor that mediates adaptive responses to hypoxia and plays critical roles in cancer progression. Using a cell-based screening assay we have identified acriflavine as a drug that binds directly to HIF-1alpha and HIF-2alpha and inhibits HIF-1 dimerization and transcriptional activity. Pretreatment of mice bearing prostate cancer xenografts with acriflavine prevented tumor growth and treatment of mice bearing established tumors resulted in growth arrest. Acriflavine treatment inhibited intratumoral expression of angiogenic cytokines, mobilization of angiogenic cells into peripheral blood, and tumor vascularization. These results provide proof of principle that small molecules can inhibit dimerization of HIF-1 and have potent inhibitory effects on tumor growth and vascularization.
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PMID:Acriflavine inhibits HIF-1 dimerization, tumor growth, and vascularization. 1980 92

Pigment epithelium-derived factor (PEDF), an angiogenesis inhibitor with multiple other functions, balances angiogenesis in the eye and blocks tumor progression. Retinoblastoma, an angiogenesis-dependent tumor, is the most common ocular cancer in children without effective treatment. It has been reported that PEDF can induce neuronal differentiation of retinoblastoma cells; however, its anti-angiogenic potential for inhibition of retinoblastoma growth in vivo has not been elucidated. The present study was designed to investigate the effect of PEDF on growth of retinoblastoma and the possible molecular mechanism. Soluble and non-fusion recombinant PEDF were generated in E. coli. Recombinant PEDF dose-dependently inhibited proliferation and induced apoptosis of endothelial cells. PEDF had no effects on the proliferation and apoptosis of retinoblastoma cell line SO-Rb50. Intraperitoneal injection of PEDF resulted in growth inhibition of heterotopic retinoblastoma xenografts at 68.78%. MVD in tumor tissues treated with PEDF was significantly decreased. These results suggested that PEDF suppressed tumor growth by blocking angiogenesis instead of a direct cytotoxic effect on tumor cells. Vascular endothelial growth factor (VEGF), a major angiogenic stimulator, was down-regulated by PEDF in both SO-Rb50 cells and retinoblastoma xenografts. Hypoxia-inducible factor (HIF)-1alpha, a crucial transcriptional factor for VEGF expression, was also down-regulated by PEDF both in vitro and in vivo. PEDF reduced HIF-1alpha nuclear translocation, which may be responsible for the down-regulation of VEGF. Down-regulation of VEGF expression in tumor cells through inhibiting HIF-1alpha, thus attenuating the paracrine effect of VEGF on endothelial cell proliferation and vascular permeability in tumor tissues, may represent a mechanism for the anti-angiogenic activity of PEDF.
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PMID:PEDF inhibits growth of retinoblastoma by anti-angiogenic activity. 1983 43

Cancer is a disease of genomic aberration. The hypoxic microenvironment is believed to promote tumor progression via the induction of genetic instability. To understand how hypoxia drives tumor progression, we have shown recently that the hypoxia-inducible transcription factor, HIF-1alpha, is critical for transcriptional repression of DNA repair genes by a noncanonical mode of action referred to as the "HIF-1alpha-c-Myc axis." HIF-1alpha action via the HIF-1alpha-c-Myc axis is independent of its DNA-binding and transactivation domains; instead it requires the PAS-B domain to displace the transcription activator c-Myc from the target gene promoter for gene repression. Owing to the functional compromise on DNA repair, tumor cells with activated HIF-1alpha-c-Myc axis display persistent DNA damage, genetic alterations, and malignant progression. However, apoptosis-proficient cells are resistant to such changes. These findings argue that the hypoxic microenvironment plays a critical role in driving genetic alterations especially in apoptosis-deficient cells for malignant progression.
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PMID:An essential role of the HIF-1alpha-c-Myc axis in malignant progression. 1984 22

Selective blockade of hypoxia-inducible gene expression by designed small molecules would prove valuable in suppressing tumor angiogenesis, metastasis and altered energy metabolism. We report the design, synthesis, and biological evaluation of a dimeric epidithiodiketopiperazine (ETP) small molecule transcriptional antagonist targeting the interaction of the p300/CBP coactivator with the transcription factor HIF-1alpha. Our results indicate that disrupting this interaction results in rapid downregulation of hypoxia-inducible genes critical for cancer progression. The observed effects are compound-specific and dose-dependent. Controlling gene expression with designed small molecules targeting the transcription factor-coactivator interface may represent a new approach for arresting tumor growth.
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PMID:Direct inhibition of hypoxia-inducible transcription factor complex with designed dimeric epidithiodiketopiperazine. 2000 Aug 59

Angiogenesis is an important mediator of tumor progression. As tumors expand, diffusion distances from the existing vascular supply increases, resulting in hypoxia in the cancer cells. Sustained expansion of a tumor mass requires new blood vessel formation to provide rapidly proliferating tumor cells with an adequate supply of oxygen and nutrients. The key regulator of hypoxia-induced angiogenesis is the transcription factor known as hypoxia-inducible factor (HIF)-1. HIF-1alpha is stabilized by hypoxia-induced reactive oxygen species (ROS) and enhances the expression of several types of hypoxic genes, including that of the angiogenic activator known as vascular endothelial cell growth factor (VEGF). In this study, we found that melatonin, a small lipophilic molecule secreted primarily by the pineal gland, destabilizes hypoxia-induced HIF-1alpha protein levels in the HCT116 human colon cancer cell line. This destabilization of HIF-1alpha resulted from the antioxidant activity of melatonin against ROS induced by hypoxia. Moreover, under hypoxia, melatonin suppressed HIF-1 transcriptional activity, leading to a decrease in VEGF expression. Melatonin also blocked in vitro tube formation and invasion and migration of human umbilical vein endothelial cells induced by hypoxia-stimulated conditioned media of HCT116 cells. These findings suggest that melatonin could play a pivotal role in tumor suppression via inhibition of HIF-1-mediated angiogenesis.
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PMID:Melatonin suppresses tumor angiogenesis by inhibiting HIF-1alpha stabilization under hypoxia. 2044 75

Hypoxia and acidosis are microenvironmental selection forces during somatic evolution in breast carcinogenesis. The effect of cobalt chloride (CoCl(2))-induced hypoxia on the expression of hypoxia-inducible factor (HIF)-1alpha, glucose transporter 1 (GLUT1), and carbonic anhydrase IX (CAIX) was assessed in breast cancer cells derived from primary sites (HCC1395 and HCC1937) and metastatic sites (MCF-7 and MDA-MB-231) by reverse transcriptase-polymerase chain reaction and immunoblotting. We analyzed these proteins' expression in tissue samples from normal breast tissue, usual ductal hyperplasia (DH), atypical ductal hyperplasia (ADH), ductal carcinoma in situ (DCIS), and invasive ductal carcinoma (IDC) using immunohistochemistry. CAIX mRNA was expressed constitutively in MDA-MB-231 cells but not in the other three cell lines. CAIX mRNA expression was increased after CoCl(2)-induced hypoxia in all four breast cancer cell lines. The expression of HIF-1alpha and GLUT1 proteins was increased after CoCl(2)-induced hypoxia in all breast cancer cell lines tested. Hypoxia significantly increased CAIX protein expression in primary cancer cells but not in metastatic ones. HIF-1alpha was not expressed in benign breast tissue, whereas it was significantly expressed in DH, ADH, DCIS, and IDC (p < 0.001). GLUT1 and CAIX were expressed only in DCIS (56.8% and 25.0%) and IDC (44.1% and 30.5%), with higher expression in high grade DCIS than low/intermediate grade DCIS (79.2% vs. 30.0%, p = 0.001 and 37.5% vs. 10.0%, p = 0.036, respectively). High CAIX expression was significantly associated with poor histological grade of IDC (p = 0.005). During breast carcinogenesis, the role of HIF-1alpha changes from response to proliferation to tumor progression. GLUT1 expression (glycolytic phenotype) and CAIX expression (acid-resistant phenotype) may result in a powerful adaptive advantage and represent an aggressive phenotype.
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PMID:Hypoxia and metabolic phenotypes during breast carcinogenesis: expression of HIF-1alpha, GLUT1, and CAIX. 2052 21

During tumor progression, malignant cells must repeatedly survive microenvironmental stress. Hypoxia-inducible factor-1 (HIF-1) signaling has emerged as one major pathway allowing cellular adaptation to stress. Recent findings led to the hypothesis that HIF-1alpha may enhance the metastatic potential of tumor cells by a survival-independent mechanism. So far it has not been shown that HIF-1alpha also directly regulates invasive processes during metastasis in addition to conferring a survival advantage to metastasizing tumor cells. In a hypoxia-tolerant tumor cell line (L-CI.5s), which did not rely on HIF-1 signaling for viability in vitro and in vivo, knockdown of Hif-1alpha reduced invasiveness of the tumor cells in vitro as well as extravasation and secondary infiltration in vivo. Liver metastases associated induction of proinvasive receptor tyrosine kinase Met phosphorylation as well as gelatinolytic activity were Hif-1alpha-dependent. Indeed, promoter activity of the matrix metalloproteinase-9 (mmp-9) was shown to be Hif-1alpha-dependent. This study uncovers a new survival-independent biological function of HIF-1alpha contributing to the efficacy of metastases formation.
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PMID:Identification of a survival-independent metastasis-enhancing role of hypoxia-inducible factor-1alpha with a hypoxia-tolerant tumor cell line. 2056 31

Sunitinib (SU11248, Sutent) is a class III/V receptor tyrosine kinase (RTK) inhibitor that exhibits potent anti-angiogenic and anticancer activities. Preclinical studies demonstrated that the sunitinib effects are attributed to inhibition of VEGFR and PDGFR phosphorylation. However, even in colon cancer cells lacking sunitinib-targeted RTKs, sunitinib effectively inhibits tumor growth in a xenograft model, and this raises a question about the mechanism underlying the in vivo anticancer action of sunitinib. Since hypoxia is a critical microenvironment that tumors face, we addressed the possibility that sunitinib deregulates tumor adaptation to hypoxia. First we found that sunitinib limits the colony growth of HT-29, which is a colon adenocarcinoma cell line lacking the RTKs, and that HIF-1alpha in the colonies is decreased by sunitinib. In cultured HT-29 cells, sunitinib suppressed HIF-1alpha under hypoxic conditions. Moreover, sunitinib repressed the activity of HIF-1alpha and subsequently decreased the expressions of HIF-1 downstream genes. Mechanistically, sunitinib blocked the 5'-UTR-dependent translation of HIF-1alpha. The HIF-1alpha suppression by sunitinib was also reproduced in a VHL-null renal cell carcinoma cell line, where HIF-1alpha is not degradable. In conclusion, the sunitinib inhibition of HIF-1 signaling could restrain tumor progression in hypoxic regions, which may contribute to anticancer effect of sunitinib.
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PMID:Sunitinib deregulates tumor adaptation to hypoxia by inhibiting HIF-1alpha synthesis in HT-29 colon cancer cells. 2059 38

Malignant tumors are characterized by regions of low oxygen concentration (hypoxia). The hypoxic tumor microenvironment contributes to tumor progression by activating a set of adaptive responses via the key transcriptional regulators HIF-1alpha and HIF-2alpha. These factors have been traditionally linked to an aggressive tumor phenotype by promoting processes essential for tumor growth, such as angiogenesis, glycolysis, metastasis and invasion, as well as differentiation and self renewal. Notably, the complex HIF pathway also initiates anti-tumorigenic mechanisms that lead to cell cycle arrest or cell death, indicating the need for a stringent control of the extent and the direction of the hypoxia response. The importance of this control for tumor cell survival is illustrated by the intricate regulation of HIF activity at the mRNA, protein and epigenetic level by a complex network of positive and negative feedback regulators. We propose that these feedback regulators help to flexibly adjust and adapt HIF activated responses to the fluctuating oxygen concentrations within tumors during acute and chronic hypoxia and to curtail the tumor-suppressing components of the HIF pathway. Moreover, feedback regulation of HIF induces a switch from HIF-1alpha to HIF-2alpha driven responses under chronic hypoxia which may have essential functions in the regulation of tumor cell differentiation and tumor stem cell maintenance. Given their central role in cancer biology, HIF feedback regulators may represent an attractive and novel anti-tumor therapy target to overcome cell death resistance in tumors.
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PMID:Feedback regulators of hypoxia-inducible factors and their role in cancer biology. 2060 1


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