UMLS:C0178874 - FACTA Search

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

Human papillomaviruses (HPV) are the known cause for a variety of cancers including cervical and epithelial cancers. The cottontail-rabbit papillomavirus (CRPV) serves as a suitable animal model to study the development of these cancers in vivo. We have previously demonstrated that CRPV-induced skin carcinomas express high levels of MMP-9, a metalloproteinase contributing to cancer progression by extracellular matrix remodelling. Based on our previously reported finding that CRPV early protein 2 can activate a truncated human 670bp MMP-9 promoter fragment, we hypothesized that MMP-9 expression in the rabbit carcinomas is a consequence of activation of the rabbit MMP-9 promoter in-trans by CRPV early protein 2. Further elucidation of the mechanism revealed the requirement for both a proximal and distal AP-1 transcription factor binding site in the rabbit MMP-9 promoter and the AP-1 complex as demonstrated by the inhibitory effect of TAM67, a trans-activation deficient c-jun mutant. The characterization of signal-transduction requirements revealed predominantly ERK1 to be required for CRPV early protein 2-dependent MMP-9 promoter activation, but not JNK nor p38. In summary CRPV early protein 2 activates the expression of MMP-9 in-trans through AP-1 and ERK1 and may contribute to cancer development and progression via this mechanism within the animal model.
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PMID:AP-1 and ERK1 but not p38 nor JNK is required for CRPV early protein 2-dependent MMP-9 promoter activation in rabbit epithelial cells. 1895 30

Previous studies have demonstrated that gamma-synuclein is overexpressed in a variety of human malignancies. Overexpression of gamma-synuclein in human breast cancer cells leads to an increase in cell motility, resistance to chemotherapeutic drugs, and mitotic checkpoint dysfunction. We report in this study that gamma-synuclein is up-regulated by endoplasmic reticulum stress. The up-regulation of gamma-synuclein expression by endoplasmic reticulum stress is mediated, at least in part, by activation transcription factor (ATF) 4. Knockdown of gamma-synuclein sensitized human breast cancer cells to endoplasmic reticulum stress-induced apoptosis. Induction of apoptosis by endoplasmic reticulum stress when gamma-synuclein was inhibited was dependent on JNK or caspase activation, with caspase-3 and caspase-7 being involved. Treatment with the JNK or caspase-3 and caspase-7 inhibitor partially blocked endoplasmic reticulum stress-induced apoptosis in breast cancer cells transfected with or without the siRNA against gamma-synuclein. Taken together, these data suggest that gamma-synuclein may promote cancer progression by suppressing endoplasmic reticulum stress-induced apoptosis.
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PMID:Up-regulation of gamma-synuclein contributes to cancer cell survival under endoplasmic reticulum stress. 1900 86

Studies in mice and humans have demonstrated a role for the immune system in preventing the growth of tumors. Deciphering the mechanisms involved in the immune response to tumors is essential to our understanding of immune recognition and cancer progression. Here we report an innate immune response to tumors in Drosophila melanogaster. We found that circulating blood cells, termed hemocytes, adhere to tumors upon detection of basement membrane disruption, and subsequently counter their growth. Basement membrane components are remarkably conserved throughout the animal kingdom, providing a unique structure for the immune system to sense tissue integrity. Further, we show that tissue damage activates JNK signaling in both tumors and aseptic wounds, causing expression of JAK/STAT-activating cytokines. Cytokine secretion from the injured tissue is amplified into a systemic response through the induction of additional cytokine expression in the hemocytes and the fat body, resulting in hemocyte proliferation. Our findings reveal common mechanisms in the response to tumors and wounds in flies. A similar innate reaction may underlie the response to tumors and tissue damage in vertebrates and humans.
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PMID:An innate immune response of blood cells to tumors and tissue damage in Drosophila. 1904 77

The role of erythropoietin receptor (EpoR) expression in tumor cells and the potential of EpoR-mediated signaling to contribute to cellular proliferation and invasiveness require further characterization. To determine whether EpoR expression and activation in tumor cells modulates intracellular signal transduction to promote cellular proliferation and migration, we employed a novel experimental model using human breast cancer cells engineered to stably express a constitutively active EpoR-R129C variant. EpoR-R129C expression resulted in increased cellular proliferation and migration of breast cancer cells and these effects were associated with significantly increased Epo-induced phosphorylation of ERK1/2, AKT and c-Jun-NH2-kinase (SAPK/JNK) proteins. Expression of the constitutively active EpoR-R129C receptor promoted the proliferation and migration of breast cancer cells via activation of ERK- and SAPK/JNK-dependent signaling pathways, respectively. These findings suggest that EpoR over-expression and activation in breast cancer cells has the potential to contribute to tumor progression by promoting the proliferation and invasiveness of the neoplastic cells.
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PMID:Constitutively active erythropoietin receptor expression in breast cancer cells promotes cellular proliferation and migration through a MAP-kinase dependent pathway. 1913 31

Adrenomedullin is a secreted peptide hormone with multiple functions. Although a number of reports have indicated that adrenomedullin may be involved in tumor progression, its mechanism of action remains obscure. In this study, we have analysed the signal transduction pathway activated by adrenomedullin in human glioma cells. Our results revealed that adrenomedullin induced the phosphorylation of both c-Jun and JNK in glioblastoma cells. Silencing JNK expression with siRNA reversed the phosphorylation of c-Jun induced by adrenomedullin, indicating that JNK is responsible of c-Jun activation. In addition, electrophoretic mobility-shift assays showed that the increase in phosphorylation of c-Jun was associated with increased AP-1 DNA binding activity. Supershift assays and co-immunoprecipitation demonstrated that c-Jun and JunD are part of the AP-1 complex, indicating that activated c-Jun is dimerized with JunD in response to adrenomedullin. Furthermore, adrenomedullin was shown to promote cell transit beyond cell cycle phases with a concomittant increase in cyclin D1 protein level, suggesting that adrenomedullin effects cell proliferation through up-regulation of cyclin D1. The inhibition of JNK activation or the suppression of c-Jun or JunD expression with siRNA impaired the effects of adrenomedullin on cell proliferation and on cyclin D1. Taken together, these data demonstrate that activation of cJun/JNK pathway is involved in the growth regulatory activity of adrenomedullin in glioblastoma cells.
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PMID:Adrenomedullin promotes cell cycle transit and up-regulates cyclin D1 protein level in human glioblastoma cells through the activation of c-Jun/JNK/AP-1 signal transduction pathway. 1916 30

The acquisition of terminal cell fate and onset of differentiation are instructed by cell type-specific master control genes. Loss of differentiation is frequently observed during cancer progression, but the underlying causes and mechanisms remain poorly understood. We tested the hypothesis that master regulators of differentiation may be key regulators of tumor formation. Using loss- and gain-of-function analyses in Drosophila, we describe a critical anti-oncogenic function for the atonal transcription factor in the fly retina, where atonal instructs tissue differentiation. In the tumor context, atonal acts by regulating cell proliferation and death via the JNK stress response pathway. Combined with evidence that atonal's mammalian homolog, ATOH1, is a tumor suppressor gene, our data support a critical, evolutionarily conserved, function for ato in oncogenesis.
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PMID:The atonal proneural transcription factor links differentiation and tumor formation in Drosophila. 1924 20

Scutellaria barbata (SB) has been used in Chinese medicine to treat various cancers. This study investigated the effects of SB on prostate cancer prevention. Male TRansgenic Adenocarcinoma Mouse Prostate (TRAMP) mice at 9 weeks were randomly divided into four groups and given daily oral feedings of 8, 16, or 32 mg SB or sterilized water. In the control group, palpable tumors initially appeared at 19 weeks of age and were present in all mice by 32 weeks. In the respective treatment groups, palpable tumor development was delayed by 2, 4, and 7 weeks and 22, 30, and 38% of the mice were free of palpable tumors. Palpable tumor development in 50% of the mice occurred at 25 weeks in the placebo group, 29 weeks in the low-dose and mid-dose treatment groups, and 33 weeks in the high-dose group (log rank, P = 0.0211). Histological assessment further showed that the SB treatment (32 mg) delayed prostate tumor progression in the TRAMP mice. Caspase 3 activation was observed in SB-treated prostate tissue. Positive TUNEL assay results were detected in TRAMP-C1 and LNCaP cells treated with SB (1 mg/ml), which indicated significant apoptosis induction. Western blotting of SB-treated LNCaP cells also showed elevated expression of Bax, p53, Akt, and JNK. In-vivo data showed that the SB delayed tumor development in TRAMP mice. Complementary in-vitro data indicated that SB might exert this function by upregulating the apoptotic pathway and downregulating the survival pathway in prostate cancer cells, thus suggesting that SB possesses chemopreventive properties and has potential for cancer treatment.
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PMID:Chinese medicinal herb Scutellaria barbata modulates apoptosis and cell survival in murine and human prostate cancer cells and tumor development in TRAMP mice. 1944 25

Tumor necrosis factor-alpha-related apoptosis-inducing ligand (TRAIL) has recently emerged as a cancer therapeutic agent because it preferentially induces apoptosis in human cancer over normal cells. Most tumor cells, including lung cancer cell line A549, unfortunately, are resistant to TRAIL treatment even at high dose. Recent studies indicated that TRAIL-resistant cancer cells could be sensitized to TRAIL by combination therapy. Stress and heat shock proteins such as HSP90, HSP70 and HSP27 are induced in response to a wide variety of physiological environmental insults including heat, reactive oxygen species or anticancer drugs. Their elevated expressions facilitate cells to survive in stress circumstances. The HSP27 expression is enhanced in many tumor cells, implying that it is involved in tumor progression and the development of treatment resistance in various tumors, including lung cancer. This fact suggests a novel strategy for the treatment of cancer via inhibiting the function of HSP27. In this study, we investigated the inhibitory effect of a small interfering (si) RNA on the expression of HSP27 gene in the TRAIL-resistant human lung adenocarcinoma cell line A549, and the effect of HSP27 siRNA on drug sensitization of A549 cells to TRAIL treatment. The results showed that treatment of A549 cells with HSP27 siRNA down-regulated HSP27 expression but did not induce significant apoptosis. However, combination of HSP27 siRNA with TRAIL-induced significant apoptosis in TRAIL-resistant A549 cells. In addition to inducing caspases activation and apoptosis, combined treatment with HSP27 siRNA and TRAIL also increased JNK and p53 expression and activity. Collectively, these findings provide a conclusion that siRNA targeting of the HSP27 gene specifically down-regulated HSP27 expression in A549 cells, and sensitized the cells to TRAIL-induced apoptosis.
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PMID:Down-regulation of HSP27 sensitizes TRAIL-resistant tumor cell to TRAIL-induced apoptosis. 3195 11

Death receptors are a subset of the tumor necrosis factor receptor (TNFR) family of proteins and share a characteristic cytoplasmic motif called the "death domain". In addition to mediating cell death, these receptors regulate cell proliferation, inflammatory responses, and tumor progression. Receptor occupancy triggers the assembly of several cytoplasmic molecules into distinct complexes, each initiating separate signaling events leading to different biological responses. Post-translational modifications involving ubiquitin, a peptide of 76 amino acids, regulate events at nearly all stages of signaling. All ubiquitin chains function as docking platforms for molecules with specific recognition motifs that either propagate the signal or target the protein for proteasomal degradation. Moreover, enzymes with ubiquitin thioesterase activity (deubiquitinating enzymes, or DUBs) reverse modifications by removing the ubiquitin chains, allowing ubiquitin editing at the molecular level. Ubiquitin protein ligases (E3s), DUBs, and signaling molecules with ubiquitin recognition motifs control TNFR1 mediated cell death and activation of NF-kappaB and JNK. Here, we discuss the current understanding of how these proteins regulate TNFR1 signaling.
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PMID:Ubiquitination and TNFR1 signaling. 1958 9

Transforming growth factor-beta (TGF-beta) is involved in actin cytoskeleton reorganization and tumor progression. Fascin1, an actin-binding protein, increases cell invasiveness and motility in various transformed cells. To determine whether fascin1 is an important mediator of the tumor response to TGF-beta, we applied the small interfering RNA (siRNA) technique to silence fascin1 in gastric cancer (GC) cells MKN45. Results showed that the effects of TGF-beta1 on GC cells invasion and metastasis were mediated by tumor production of fascin1; furthermore, it was found that TGF-beta1- induced fascin1 expression was suppressed by the specific inhibitors of JNK and ERK pathways, SP6001125 and PD98059, respectively, but not by transient transfection of Smad2 and Smad4 siRNA. Our data for the first time demonstrated that fascin1 is an important mediator of TGF-beta1-induced invasion and metastasis of GC cells, which involves JNK and ERK signaling pathways.
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PMID:TGF-beta promotes invasion and metastasis of gastric cancer cells by increasing fascin1 expression via ERK and JNK signal pathways. 1965 66

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