Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027627 (metastases)
 103,950 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We investigated effects of endostatin (ES) in the prometastatic microenvironment of inflammation occurring during the microvascular phase of cancer cell infiltration in the liver. We used a model of intrasplenic injection of B16 melanoma (B16M) cells leading to hepatic metastasis through vascular cell adhesion molecule-(VCAM-1)-mediated capillary arrest of cancer cells via interleukin-18 (IL-18)-dependent mechanism. We show that administration of 50 mg/kg recombinant human (rh) ES 30 min before B16M, plus repetition of same dose for 3 additional days decreased metastasis number by 60%. A single dose of rhES before B16M injection reduced hepatic microvascular retention of luciferase-transfected B16M by 40% and inhibited hepatic production of tumor necrosis factor alpha (TNF-alpha) and IL-18 and VCAM-1 expression by hepatic sinusoidal endothelia (HSE). Consistent with these data, rhES inhibited VCAM-1-dependent B16M cell adhesion to primary cultured HSE receiving B16M conditioned medium, and it abolished the HSE cell production of TNF-alpha and IL-18 induced by tumor-derived vascular endothelial cell growth factor (VEGF). rhES abrogated recombinant murine VEGF-induced tyrosine phosphorylation of KDR/flk-1 receptor in HSE cells, preventing the proinflammatory action of tumor-derived VEGF on HSE. rhES also abolished hepatic production of TNF-alpha, microvascular retention of luciferase-transfected B16M, and adhesion of B16M cells to isolated HSE cells, all of them induced in mice given 5 micro g/kg recombinant murine VEGF for 18 h. This capillary inflammation-deactivating capability constitutes a nonantiangiogenic antitumoral action of endostatin that decreases cancer cell arrest within liver microvasculature and prevents metastases promoted by proinflammatory cytokines induced by VEGF.
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PMID:Inhibition of cytokine-induced microvascular arrest of tumor cells by recombinant endostatin prevents experimental hepatic melanoma metastasis. 1472 38

Imaging reporter gene expression in living subjects with various imaging modalities is a rapidly accelerating area of research. Applications of these technologies to cancer research, gene therapy, and transgenic models are rapidly expanding. We report construction and testing of several triple fusion reporter genes compatible with bioluminescence, fluorescence and positron emission tomography (PET) imaging. A triple fusion reporter vector harboring a bioluminescence synthetic Renilla luciferase (hrl) reporter gene, a reporter gene encoding the monomeric red fluorescence protein (mrfp1), and a mutant herpes simplex virus type 1 sr39 thymidine kinase [HSV1-truncated sr39tk (ttk); a PET reporter gene] was found to preserve the most activity for each protein component and was therefore investigated in detail. After validating the activities of all three proteins encoded by the fusion gene in cell culture, we imaged living mice bearing 293T cells transiently expressing the hrl-mrfp-ttk vector by microPET and using a highly sensitive cooled charge-coupled device camera compatible with both bioluminescence and fluorescence imaging. A lentiviral vector carrying the triple fusion reporter gene was constructed and used to isolate stable expressers by fluorescence-activated cell sorting. These stable 293T cells were further used to show good correlation (R(2) approximately 0.74-0.85) of signal from each component by imaging tumor xenografts in living mice with all three modalities. Furthermore, metastases of a human melanoma cell line (A375M) stably expressing the triple fusion were imaged by microPET and optical technologies over a 40-50-day time period in living mice. Imaging of reporter gene expression from single cells to living animals with the help of a single tri-fusion reporter gene will have the potential to accelerate translational cancer research.
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PMID:Imaging tri-fusion multimodality reporter gene expression in living subjects. 1497 78

We have shown that bacteria injected intravenously into live animals entered and replicated in solid tumors and metastases. The tumor-specific amplification process was visualized in real time using luciferase-catalyzed luminescence and green fluorescent protein fluorescence, which revealed the locations of the tumors and metastases. Escherichia coli and three attenuated pathogens (Vibrio cholerae, Salmonella typhimurium, and Listeria monocytogenes) all entered tumors and replicated. Similarly, the cytosolic vaccinia virus also showed tumor-specific replication, as visualized by real-time imaging. These findings indicate that neither auxotrophic mutations, nor vaccinia virus deficient for the thymidine kinase gene, nor anaerobic growth conditions were required for tumor specificity and intratumoral replication. We observed localization of tumors by light-emitting microorganisms in immunocompetent and in immunocompromised rodents with syngeneic and allogeneic tumors. Based on their 'tumor-finding' nature, bacteria and viruses may be designed to carry multiple genes for detection and treatment of cancer.
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PMID:Visualization of tumors and metastases in live animals with bacteria and vaccinia virus encoding light-emitting proteins. 1499 Sep 53

Skeleton is the most common organ targeted by breast cancer cells, especially from estrogen receptor alpha (ER)-positive neoplasms. Metastatic cells can stimulate directly or indirectly osteoclast-mediated bone resorption. Tumor-induced osteolysis is often extensive and leads to the release of large quantities of calcium. Metastatic cancer cells can be thus exposed to high calcium concentrations (40 mM has been reported at the resorption site). However, the effects of Ca2+ on breast cancer cells have been minimally examined. We showed that 20-mM extracellular Ca2+ induced a downregulation of ER protein in MCF-7 cells and caused ER-mediated transactivation of a reporter gene by 55 +/- 10% (mean +/- SD) in MVLN cells (MCF-7 cells stably transfected with ERE and luciferase reporter gene). Moreover, 3 mM Ca2+ increased progesterone receptor (PgR) expression by 45 +/- 8%. Mg2+ tested at up to 20 mM did not exert any effects, while 17beta-estradiol downregulated ER, transactivated the reporter gene, and enhanced PgR expression. The pure antiestrogen ICI 182,780 was able to abrogate the transactivation of the reporter gene and the increase in PgR levels induced by Ca2+, indicating that Ca2+ may exert a weak and specific estrogenic effect in MCF-7 cells. Ca2+ effects on ER probably start at the cell membrane level since a large Ca2+ influx caused by the ionophore A23187 failed to activate ER. We have thus studied the involvement of the membrane calcium-sensing receptor (CaR) that is known to be expressed notably in MCF-7 cells. We first tested the effects of a specific activator of CaR. Exposure to 10(-4) M calcimimetic NPS R-467 mirrored the changes observed with extracellular Ca2+ by inducing a marked decrease in ER protein levels, increasing the transcriptional activity of ER (67 +/- 12%) and stimulating PgR expression (41 +/- 4%). As expected, the NPS S-467 isomer was less effective. Furthermore, a highly selective CaR antagonist partly suppressed the downregulation of ER as well as transactivation of the reporter gene induced by Ca(2+). Our results suggest that the effects of extracellular Ca2+ on ER expression and activity are mediated, at least in part, by the CaR. In summary, calcium released during the process of metastatic bone destruction could modulate the functions of the estrogen receptor, a key receptor involved in breast cancer cells growth and function, and thus participate in the pathogenesis of tumor-induced osteolysis.
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PMID:Extracellular calcium downregulates estrogen receptor alpha and increases its transcriptional activity through calcium-sensing receptor in breast cancer cells. 1526

We hypothesized that the development of the most resistant cells during metastasis is favored by anti-apoptotic proteins, leading to the acquisition of an adaptive phenotype crucial to drug resistance at the metastatic foci. In order to test it, we induced metastasis in nude mice, injecting orthotopicaly 435/Bcl-x(L) or 435/Neo cells, transfected previously with the luciferase gene to use it as a tumor marker, and treated them with a therapeutic dose of docetaxel. We monitored metastasis in mice by calculating tumor cell equivalents (TCEs) present in tissues. Between docetaxel-treated and non-treated 435/Bcl-x(L).luc mice significant differences in the metastatic burden of lymph nodes (P = 0.02) and viscera (P = 0.02) were observed. However, treatment did not significantly decrease metastatic burden in bones (P = 0.19). Additionally, we analyzed the clonality of metastasis from lung, bone and lymph node by genomic DNA fingerprinting. Bcl-x(L) enhanced cell genetic instability in terms of gain and loss fractions (GF = 0.18 and LF = -0.21) when compared with the control 435/Neo (GF = 0.15 and LF = -0.14). Thus, genetic instability might be a molecular mechanism favored by Bcl-x(L) evolved in the selection process of breast cancer progression, which results in different genetic changes among metastases from lung, bone or lymph node, favoring organ-selective chemoresistance.
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PMID:Organ-selective chemoresistance in metastasis from human breast cancer cells: inhibition of apoptosis, genetic variability and microenvironment at the metastatic focus. 1534 99

Osteosarcoma (OS), a malignant bone neoplasia in childhood, has poor prognosis if metastases appear in the lung. A novel therapeutic approach could consist in a gene therapeutic treatment of OS metastases. However, if promiscuous viral vectors are applied for the delivery of potentially toxic transgenes, their misdelivery into normal tissues could cause severe complications. This problem could be circumvented by application of OS-specific promoters for transgene expression control. We analysed the function of promoters described to be tumour-, osteosarcoma- or osteoblast-specific. Expression rates driven by osteoblast- specific fragments from the collagen1A1-promoter, the human Osteocalcin-promoter, the bone-sialoprotein promoter and the beta-catenin promoter depending on vitamin supplementation were analysed in five OS cell lines, in normal lung fibroblasts and in a non-osteoblastic prostate cancer cell line (LNCaP) by dual luciferase assays. In addition, an unspecific but doxycyclin-repressible promoter construct (pAd.3r-luc) was examined. We found that all constructs were active in OS cell lines to varying extents. The complete human Osteocalcin promoter and the bone-sialoprotein promoter were partially induced by vitamin D3 or C respectively while the pAd.3r-luc activity could be shut down by doxycyclin. In contrast, the human Osteocalcin-promoter was not activated by vitamin D3 in LNCaP cells; its action remained relatively low. Interestingly, excepting the beta-catenin promoter, we measured strong activities of all promoters in lung fibroblast cells. Our study demonstrates that promoter activity should be evaluated not only for the target cells of the gene therapeutic approaches, but also for neighbouring normal tissues. Unspecific but repressible promoters could represent an alternative.
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PMID:Limited specificity of promoter constructs for gene therapy in osteosarcoma. 1537 10

Lymph node metastasis are the first prognostic factor in breast cancer diagnosis and an early event in metastatic spread. To assess the role of anti-apoptotic proteins in lymph node metastatic progression of human breast cancer cells we analyzed the metastatic activity of MDA-MB-435 cells transfected with the Bcl-xL gene, after orthotopic inoculation in Nude Balb/c and in SCID mice. The luciferase gene was introduced by permanent transfection in the 435/Bcl-xL and 435/Neo cells and used as a tumor marker to measure the number of tumor cells lodged in lymph nodes. We found that 435/Bcl-xL tumor cells had enhanced organ-specific metastatic activity, preferentially lodging in peripheral lymph nodes, where at 45 days post-implantation we found 7 x 10(6) +/- 6 x 10(6) 435/Bcl-xL.luc and 2 +/- 1.1 435/Neo.luc luciferase tagged tumor cell equivalents (TCEs). Metastases were abrogated in mice in which orthotopic tumors were induced with 435/Bcl-xL-antisense cells. Additionally, in vitro experiments show that in 435 cells Bcl-xL-antisense can override the emergence of resistance to apoptosis induced by TNF- alpha and TGF- beta in cells overexpressing Bcl-xL, increasing also adhesion to extracellular matrix proteins. These results point to the relevance of Bcl-xL overexpression inducing lymph node metastasis of breast cancer cells, and to the value of this gene as a target for therapy in order to prevent metastasis.
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PMID:Overexpression of Bcl-xL in human breast cancer cells enhances organ-selective lymph node metastasis. 1537 49

Cancer metastasis is infrequently evaluated in vivo, probably because of the few available models and the technical challenges associated with the detection of metastases. Here we show that the growth and metastases of HT1080 fibrosarcoma, A549 lung adenocarcinoma, and RENCA murine renal cancer cell lines in five different in vivo models can be successfully monitored by labeling the cells with luciferase prior to their implantation and then detecting their bioluminesence after injecting luciferin. We also used this in vivo imaging system to successfully demonstrate that YM529, a third generation bisphosphonate, inhibited the growth of sarcoma metastases in bone. We believe the models we have established in combination with the in vivo imaging system will be highly useful for future studies of metastasis and the testing of anti-metastatic therapies.
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PMID:Monitoring luciferase-labeled cancer cell growth and metastasis in different in vivo models. 1561 43

Bone metastasis is a common untreatable complication associated with prostate cancer. Metastatic cells seed in skeletal sites under active turnover containing dense marrow cellularity. We hypothesized that differences in these skeletal-specific processes are among the critical factors that facilitate the preferential localization of metastatic prostate cancer in bone. To test this, athymic mice were administered PTH to induce bone turnover and increase marrow cellularity daily 1 wk before and after intracardiac inoculation of luciferase-tagged PC-3 cells. Tumor localization was monitored by bioluminescence imaging weekly for 5 wk. At the time of tumor inoculation, PTH-treated mice demonstrated significant increases in serum levels of bone turnover markers such as osteocalcin and tartrate-resistant acid phosphatase 5b and in the number of tartrate-resistant acid phosphatase-positive osteoclasts per millimeter of bone when compared with the other groups. Likewise, PTH treatment stimulated a qualitative increase in marrow cellular proliferation as determined by 5-bromo-2'-deoxyuridine immunostaining. Skeletal metastases formed in the hind limb and craniofacial regions of young mice with no difference between groups. In adult mice, however, bioluminescent signals in the hind limb and craniofacial regions were 3-fold higher in PTH-treated mice vs. controls. Fluorochrome labeling revealed increased bone formation activity in trabecular bone adjacent to tumors. When zoledronic acid, a nitrogen-containing bisphosphonate that inhibits osteoclast-mediated bone resorption, was administered concurrently with PTH, a significant reduction in the incidence of bone tumors was observed. Overall, these studies provide new evidence that skeletal sites rich in marrow cellularity under active turnover offer a more congenial microenvironment to facilitate cancer localization in the skeleton.
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PMID:Bone turnover mediates preferential localization of prostate cancer in the skeleton. 1563 91

1A6/DRIM (Down-regulated in Metastasis) has been reported to express at a high level in the gastric cancer tissues and the premalignant lesions implicating the involvement of 1A6/DRIM in cell transformation. Although the information regarding the putative functions and distribution of the 1A6/DRIM in different tissues and cell lines has been increasing recently, its promoter and promoter-regulating factors remain unknown. In this study, the transcription initiation site of 1A6/DRIM was confirmed to be located at 147 bp upstream of the ATG codon using the primer extension analysis. The minimal promoter region of the 1A6/DRIM is located between -47 and +42 of the transcription initiation site measured by luciferase reporter assays using a set of deletion constructs. In addition, an E-box is shown to be an essential element for transcriptional regulation of 1A6/DRIM demonstrated by luciferase assay with different deletion and mutation constructs. Finally, a transcription factor, upstream stimulatory factor 2 (USF2) was found to be an activator of the 1A6/DRIM through binding to the E-box demonstrated by luciferase reporter assay, electrophoretic mobility shift assay, and chromatin immunoprecipitation (ChIP) assay. The structural analysis of the 1A6/DRIM promoter and the identification of its potential regulatory effecter may help us to understand its biological functions in regulating cancer development.
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PMID:Characterization of the promoter of 1A6/DRIM, a novel cancer-related gene and identification of its transcriptional activator. 1565 82


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