UMLS:C0027627 - FACTA Search

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Query: UMLS:C0027627 (metastases)
103,950 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The gene encoding firefly luciferase has been used as a reporter gene for the study of gene function. The luciferase catalyzes its substrate and subsequently produces luminescence. In addition, it is not present in mammalian cells. We have therefore explored its use in monitoring the growth of tumors in vivo. The luciferase gene was transfected into two murine tumor lines, i.e. c162 melanoma and M109 lung carcinoma, and the luciferase activity associated with the cells was determined by a rapid chemiluminescent reaction. Luciferase activity was well-correlated with the number of tumor cells in vitro. Luciferase activity also correlated with the tumor burden in vivo, as well as with the effect of an adoptive T cell transfer therapy in the syngeneic C3H/HeN mice experimental tumor model. This assay offers the advantage of being quantitative, rapid, and reliable for the detection of tumor burden and for the evaluation of the effect of antineoplastic therapy.
Clin Exp Metastasis 1994 Mar
PMID:Luciferase activity as a marker of tumor burden and as an indicator of tumor response to antineoplastic therapy in vivo. 830 31

Non-invasive imaging and transcriptional targeting can improve the safety of therapeutic approaches in cancer. Here we demonstrate the ability to identify metastases in a human-prostate cancer model, employing a prostate-specific adenovirus vector (AdPSE-BC-luc) and a charge-coupled device-imaging system. AdPSE-BC-luc, which expresses firefly luciferase from an enhanced prostate-specific antigen promoter, restricted expression in the liver but produced robust signals in prostate tumors. In fact, expression was higher in advanced, androgen-independent tumors than in androgen-dependent lesions. Repetitive imaging over a three-week period after AdPSE-BC-luc injection into tumor-bearing mice revealed that the virus could locate and illuminate metastases in the lung and spine. Systemic injection of low doses of AdPSE-BC-luc illuminated lung metastasis. These results demonstrate the potential use of a non-invasive imaging modality in therapeutic and diagnostic strategies to manage prostate cancer.
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PMID:Visualization of advanced human prostate cancer lesions in living mice by a targeted gene transfer vector and optical imaging. 1213 44

Bisphosphonate (BPs), specific inhibitors of osteoclastic bone resorption, are widely used therapeutic agents for bone metastases in breast cancer patients. Nevertheless, the effects of BPs on visceral metastases are controversial. Here we specifically studied the effects of the BP ibandronate on visceral metastases of breast cancer using two animal models. In the first set of experiments, we examined the effects of ibandronate on lung metastasis using 4T1 mouse mammary tumor that developed pulmonary and bone metastases following orthotopic inoculation in syngeneic female Balb/c mice. In the second set of experiments, we examined the effects of ibandronate on adrenal metastasis using a clone of the MDA-MB-231 (MDA-231) human breast cancer (MDA-231AD cells) that developed adrenal and bone metastases following intracardiac inoculation in female nude mice. These breast cancer cells were stably transfected with a firefly luciferase cDNA to facilitate quantification of the metastatic tumor burden in visceral organs. Ibandronate (4 microg/day, sc, daily) was given either after metastases were established (therapeutic administration) or at the time of tumor cell inoculation (preventative administration). In both models with each protocol, ibandronate reproducibly reduced bone metastases, establishing that BPs are effective pharmacological agents for the treatment of bone metastases in breast cancer. In the 4T1 model, neither the preventative nor therapeutic administration of ibandronate caused any effects on lung metastases. In the MDA-231 model, the preventative administration of ibandronate significantly increased adrenal metastases. However, no increase in the adrenal metastases was observed when an anti-cancer agent doxorubicin was co-administered. Therapeutic administration of ibandronate showed no effects on the adrenal metastases. Our results suggest that BPs cause no adverse effects on visceral metastases when administered in the manners that breast cancer patients usually receive.
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PMID:The effect of the bisphosphonate ibandronate on breast cancer metastasis to visceral organs. 1235 14

Early detection of tumors and their metastases is crucial for the prognosis of cancer treatment. Traditionally, tumor detection is achieved by various methods, including magnetic resonance imaging and computerized tomography. With the recent cloning, cellular expression, and real-time imaging of light-emitting proteins, such as Renilla luciferase (Ruc), bacterial luciferase (Lux), firefly luciferase (Luc), green fluorescent protein (GFP), or Ruc-GFP fusion protein, significant efforts have been focused on using these marker proteins for tumor detection. It has also been demonstrated that certain bacteria, viruses, and mammalian cells (BVMC), when administered systemically, are able to gain entry and replicate selectively in tumors. In addition, many tissue/tumor specific promoters have been cloned which allow transgene expression specifically in tumor tissues. Therefore, when light-emitting protein encoded BVMC are injected systemically into rodents, tumor-specific marker gene expression is achieved and is detected in real time based on light emission. Consequently, the locations of primary tumors and previously unknown metastases in animals are revealed in vivo. In the future it will likely be feasible to use engineered light-emitting BVMC as probes for tumor detection and as gene-delivery vehicles in vivo for cancer therapy.
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PMID:Optical imaging: bacteria, viruses, and mammalian cells encoding light-emitting proteins reveal the locations of primary tumors and metastases in animals. 1287 98

Recently, progress in the development of prostate-specific promoters and high resolution imaging techniques has made real-time monitoring of transgenic expression possible, opening a vista of potentially important in vivo models of prostate disease. Herein, we describe a novel prostate reporter model, called the EZC-prostate model that permits both ex vivo and in vivo imaging of the prostate using a sensitive charge-coupled device. Firefly luciferase and enhanced green fluorescent protein were targeted to the prostate epithelium using the composite human kallikrein 2 (hK2)-based promoter, hK2-E3/P. In EZC-prostate mice, the ventral and dorsal/lateral prostate lobes were brilliant green under fluorescence microscopy, with expression localized to the secretory epithelium. In contrast, enhanced green fluorescent protein was undetectable in the anterior lobes of prostate, seminal vesicles, testes, liver, lung, and brain. The kinetics of luciferase activity in intact and castrated living mice monitored with the IVIS charge-coupled device-based imaging system confirmed that firefly luciferase expression was largely prostate restricted, increased with age up to 24 wk, and was androgen dependent. Decreases in reporter expression after 24 wk may reflect well known, age-related decreases in androgen signaling with age in humans. Ex vivo imaging of microdissected animals further confirmed that the luminescence detected in living mice emanated predominately from the prostate, with minor signals originating from the testes and cecum. These data demonstrate that the hK2-E3/P promoter directs strong prostate-specific expression in a transgenic mouse model. Multigenic models, generated by crosses with various hyperplastic and neoplastic prostate disease models, could potentially provide powerful new tools in longitudinal monitoring of changes in prostate size, androgen signaling, metastases, or response to novel therapies without sacrificing large cohorts of animals.
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PMID:The EZC-prostate model: noninvasive prostate imaging in living mice. 1468 50

Nasopharyngeal carcinoma is intimately associated with the Epstein-Barr virus (EBV), which we have exploited therapeutically by constructing an EBV-specific synthetic enhancer sequence, within an adenoviral vector, denoted as adv.oriP. The achievement of tumor targeting provides therapeutic potential when delivered systemically, which could impact on distant metastases. We demonstrate here the feasibility and potential utility of combined, minimally invasive in vivo bioluminescence and fluorescence imaging to monitor adenoviral infection of subcutaneous C666-1 nasopharyngeal xenograft tumors stably expressing the DsRed2 gene. Fluorescence imaging was used to monitor the location and size of the C6661.DsRed2 tumors, whereas bioluminescence imaging demonstrated the distribution and specificity of a transcriptionally targeted adenoviral vector, adv.oriP.fluc, expressing the firefly luciferase gene. Fluorescence, bioluminescence, and photographic images were aligned using grids to examine colocalization of adenovirus and tumors. Bioluminescence and fluorescence co-localized in 92% (11/12) of tumors at 24 hr and 100% (12/12) at 96 hr after adv.oriP.fluc (10(9) ifu) was administered intravenously. Nonspecific luciferase signal was detected in the liver area. The combined imaging was therefore successful in monitoring the uptake of systemically administered adenovirus in implanted tumors. This may ultimately lead to an effective noninvasive method to monitor the response of metastases to adenoviral gene therapy.
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PMID:Combined in vivo bioluminescence and fluorescence imaging for cancer gene therapy. 1580 52

To develop effective anti-metastatic therapy, targeted or sustained delivery of catalase was examined in mice. We found that mouse lung with metastatic colonies of adenocarcinoma colon26 cells exhibited reduced catalase activity. The interaction of the tumor cells with macrophages or hepatocytes generated detectable amounts of ROS, and increased the activity of matrix metalloproteinases. Hepatocyte-targeted delivery of catalase was successfully achieved by galactosylation, which was highly effective in inhibiting the hepatic metastasis of colon26 cells. PEGylation, which increased the retention of catalase in the circulation, effectively inhibited the pulmonary metastasis of the cells. To examine which processes in tumor metastasis are inhibited by catalase derivatives, the tissue distribution and proliferation of tumor cells in mice was quantitatively analyzed using firefly luciferase-expressing tumor cells. An injection of PEG-catalase just before the inoculation of melanoma B16-BL6/Luc cells significantly reduced the number of the tumor cells in the lung at 24 h. Daily dosing of PEG-catalase greatly inhibited the proliferation of the tumor cells, and increased the survival rate of the tumor-bearing mice. These results indicate that targeted or sustained delivery of catalase to sites where tumor cells metastasize is a promising approach for inhibiting metastatic tumor growth.
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PMID:Inhibition of metastatic tumor growth by targeted delivery of antioxidant enzymes. 1625 38

Hydrogen peroxide may aggravate the peritoneal dissemination of tumor cells by activating the expression of a variety of genes. In this study, we used pegylated catalase (PEG-catalase) to examine whether prolonged retention of catalase activity within the peritoneal cavity is effective in inhibiting peritoneal dissemination in mouse models. Murine B16-BL6 cells or colon 26 cells labeled with firefly luciferase gene were inoculated intraperitoneally into syngeneic mice. Compared with unmodified catalase, PEG-catalase was retained in the peritoneal cavity for a long period after intraperitoneal injection. A single injection of PEG-catalase just before tumor inoculation significantly reduced the number of the tumor cells at 1 and 7 days. The changes in the expression of molecules involved in the metastasis were evaluated by real time quantitative PCR analysis. Inoculation of the tumor cells increased the expression of intercellular adhesion molecule (ICAM)-1 in the greater omentum, which was inhibited by PEG-catalase. An injection of PEG-catalase at 3 days after tumor inoculation also reduced the number of the tumor cells, suggesting that processes other than the adhesion of tumor cells to peritoneal organs are also inhibited. Daily doses of PEG-catalase significantly prolonged the survival time of tumor-bearing mice. These results indicate that intraperitoneal injection of PEG-catalase inhibits the multiple processes of peritoneal dissemination of tumor cells by scavenging hydrogen peroxide in the peritoneal cavity.
Clin Exp Metastasis 2006
PMID:Inhibition of adhesion and proliferation of peritoneally disseminated tumor cells by pegylated catalase. 1708 58

Chemokines and their cognate receptors have key functions in cell growth, survival, and tissue-specific homing of cells. While these functions first were identified in normal immune cells, cancer cells may co-opt chemokine receptor signaling to promote primary tumor growth and metastasis. Our knowledge of signaling by chemokines and chemokine receptors in cancer is lacking, particularly as this signaling occurs in vivo. New insights into chemokine receptor signaling in cancer are needed to understand molecular regulation of primary and metastatic disease and develop targeted therapies to improve patient survival. To meet this need, we have developed a molecular imaging reporter to investigate activation of CXCR4, a chemokine receptor that regulates tumor growth and metastasis in a variety of common cancers. The reporter system uses a firefly luciferase-based protein fragment complementation assay to detect interactions between CXCR4 and beta-arrestin molecules, a common early step in chemokine receptor signaling. In cell-based assays, incubation with the chemokine ligand CXCL12 (SDF-1) produced dose-dependent increases in bioluminescence with >7-fold induction above basal levels of association between these proteins. Reporter activation could be blocked with specific inhibitors of CXCR4 signaling. These reporters enabled in vivo imaging of CXCR4 activation and inhibition in living mice. Overall, this research establishes a new imaging reporter for probing CXCR4 signaling in cancer and other diseases regulated by this chemokine receptor.
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PMID:Imaging CXCR4 signaling with firefly luciferase complementation. 1853 83

Unresectable hepatic colorectal cancer (CRC) metastases are a leading cause of cancer mortality. These tumors and other epithelial tumors often express both cyclooxygenase-2 (COX-2) and carcinoembryonic antigen (CEA). Because adenovirus (Ad) vectors infect the liver and lack tumor tropism, they cannot be used for systemic therapy of hepatic metastases. We used COX-2 transcriptional restriction, in combination with transductional Ad hepatic untargeting and tumor retargeting by a bispecific adapter, sCARhMFE, composed of sCAR [the coxsackie/Ad receptor (CAR) ectodomain] and MFE-23 (a single-chain anti-CEA antibody), to untarget liver after i.v. administration of Ad vectors expressing firefly luciferase and to retarget virus to hepatic colorectal tumor xenografts and non-small cell lung tumor xenografts. To improve both liver untargeting and tumor retargeting, we developed sCARfMFE, a trimerized sCARhMFE adapter. Trimerization greatly improves both untargeting of CAR-dependent Ad infection and CEA-dependent virus retargeting in culture and in vivo. Combining sCARfMFE bispecific adapter transductional liver untargeting and transductional tumor retargeting with COX-2 transcriptional tumor-restricted transgene expression increases systemically administered Ad therapeutic efficacy for hepatic CRC tumors, using herpes virus type 1 thymidine kinase (HSV1-tk) as a therapeutic gene in conjunction with the prodrug ganciclovir (GCV). Both transductional untargeting and COX-2 transcriptional restriction also reduce HSV1-tk/GCV hepatic toxicity. In addition, transductional sCARfMFE untargeting reduces the innate immune response to systemic Ad administration. Combined transductional liver Ad untargeting, transductional tumor retargeting, and transcriptional transgene restriction suggests a means to engineer practical, effective therapeutic agents for hepatic CRC metastases in particular, as well as hepatic metastases of other epithelial cancers.
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PMID:Combined transductional untargeting/retargeting and transcriptional restriction enhances adenovirus gene targeting and therapy for hepatic colorectal cancer tumors. 1914 69

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