UMLS:C0006142 - FACTA Search

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Query: UMLS:C0006142 (breast cancer)
160,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

High-grade gliomas are characterized by a rapid proliferation rate, invasiveness and angiogenesis. Our previous data indicated that the combination of ligands for peroxisome proliferator-activated receptor gamma (PPARgamma) and retinoic acid receptor (RAR) induces apoptosis of breast cancer cells in vitro and in a murine model. In this study, we have shown that 11 glioblastoma cell lines and nine fresh glioblastoma tissue samples from patients expressed high-levels of PPARgamma. In contrast, glia from nine healthy human brains expressed very low levels of PPARgamma. No mutations or polymorphisms of the PPARgamma gene were observed in these cell lines. The effect of the PPARgamma ligand Pioglitazone (PGZ) either in the absence or in the presence of a RAR ligand [all-trans retinoic acid (ATRA)] on the proliferation and apoptosis of glioblastoma cells was examined using two glioblastoma cell lines (N39 and DBTRG05MG). PGZ and/or ATRA inhibited significantly the proliferation of both cell lines. Flow cytometry analysis showed that G1 cell cycle arrest was induced by these ligands. In addition, apoptosis occurred in both cell lines treated with either PGZ or ATRA, which was associated with a downregulation of bcl-2 and an upregulation of bax proteins. An enhanced effect was observed when PGZ and ATRA were combined. Furthermore, treatment of fresh glioblastoma tissue from patients with PGZ, either alone or in combination with ATRA, induced a significant level of tumor cell apoptosis together with a downregulation of bcl-2 protein level as compared with untreated control brain tissue. Taken together, our data demonstrated that PGZ, either alone or in combination with ATRA, induced apoptosis and inhibited proliferation of glioblastoma cells, and more interestingly, induced apoptosis of fresh glioblastoma cells from patients. Therefore, we conclude that these ligands may possess adjuvant therapeutic potential for patients with glioblastoma.
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PMID:Ligands for PPARgamma and RAR cause induction of growth inhibition and apoptosis in human glioblastomas. 1468 29

Motexafin gadolinium [gadolinium (III) texaphyrin, gadolinium texaphyrin, Gd-Tex, GdT2B2, PCI 0120] is a radiosensitising agent developed for use in cancer therapy. It is cytotoxic in haematological malignancies by selectively localising in cancer cells that have high rates of metabolism. Motexafin gadolinium inhibits cellular respiration resulting in the production of reactive oxygen species and inducing apoptosis. It is being developed by Pharmacyclics in the US. Bulk motexafin gadolinium is supplied to Pharmacyclics by the US company, Celanese, through a manufacturing and supply agreement between the two companies. In June 2003, at the 39th Annual Meeting of the American Society of Clinical Oncology (ASCO-2003), the importance of having an agent for the treatment of brain metastases from lung cancer was highlighted. Results of a phase III study were presented that showed that motexafin gadolinium treatment was associated with a delay in time to neurological and neurocognitive progression in lung cancer patients. This was an important finding, as 46.6% of lung cancer patients already have brain metastases at the time of initial diagnosis, compared with only 2.7% of breast cancer patients. Brain metastases are also often the only site of metastatic disease in patients with lung cancer. In December 2002, Pharmacyclics began a phase III trial of motexafin gadolinium in patients with brain metastases (brain cancer in phase table) from lung cancer in the US, Europe, Canada and Australia. The trial is known as the Study of neurologic progression with Motexafin gadolinium And Radiation Therapy (SMART) and will compare whole-brain irradiation with whole-brain irradiation plus motexafin gadolinium in 550 patients. The primary efficacy endpoint is time to neurological progression and the secondary endpoints are survival and neurocognitive function. In January 2003, the US FDA completed its Special Protocol Assessment (SPA) of the SMART trial with a positive result and by June 2003, enrollment had begun. In addition, phase I trials are underway in children with intrinsic pontine glioma and adults with head and neck, lung and pancreatic cancers. A phase II trial is also being conducted in the US in patients with glioblastoma multiforme. Enrollment in this trial has been completed and preliminary results have been reported. Pharmacyclics has completed enrollment and follow-up of adults in its pivotal phase III trial of motexafin gadolinium as a radiation sensitiser for the treatment of brain metastases. The trial was conducted at 35 centres in Europe, Canada and the US. Full results from this initial phase III trial were presented at the annual meeting of the American Society of Clinical Oncology (ASCO) in Orlando, Florida, USA, held in May 2002. Pharmacyclics also announced in October 2002, at the 44th Annual Meeting of the American Society for Therapeutic Radiology and Oncology (ASTRO), that motexafin gadolinium significantly prolonged time to neurological progression when added to whole brain radiation therapy and reduced the number of deaths in patients with brain tumour. Pharmacyclics announced in September 2000 that it has initiated two NCI-sponsored phase I trials conducted under a Cooperative Research and Development Agreement (CRADA) between Pharmacyclics and the NCI. The first trial, conducted in patients with stage IIIA non-small cell lung cancer, was designed to determine the safety of two different dosing regimens of motexafin gadolinium during preoperative radiotherapy after induction chemotherapy. The second study was designed to examine the use of motexafin gadolinium in combination with stereotactic Gamma Knife radiosurgery in patients with primary glioblastoma mutiforme. Two phase I clinical trials have also been conducted for the treatment of newly diagnosed glioblastoma multiforme at the UCLA Jonsson Comprehensive Cancer Center, USA. These phase I studies were sponsored by the NCI and were conducted under a CRADA with the NCI. Pharmacyclics has also completed multicentre US phase II clinical trials of motexafin gadolinium fin gadolinium in patients with metastatic tumours of the brain who require whole brain radiotherapy. Motexafin gadolinium is in a phase II trial in patients with lymphomas and multiple myeloma in the US.
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PMID:Motexafin gadolinium: gadolinium (III) texaphyrin, gadolinium texaphyrin, Gd-Tex, GdT2B2, PCI 0120. 1472 95

The September2003 COM. A 79-year-old woman with prior history of breast cancer and meningioma presented with headache, memory changes and sleep disturbance for four months. CT and MRI revealed a large cystic mass in the right frontal lobe with heterogeneity and an enhancing border. She had a craniotomy and resection of tumor. The tumor was histologically consistent with gliosarcoma. Gliosarcomas exhibit clinical features and genetic profiles similar to primary (de novo) glioblastoma. Gliosarcomas have the same as prognosis as glioblastoma multiforme.
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PMID:September 2003: a 79-year-old female with right frontal lobe mass. 1499 45

Pre-clinical trials of novel drugs for the treatment of glioblastoma often use apoptosis as a measure of anti-tumor effect. Presently, there is no single reliable method to determine whether a cell is apoptotic in glioblastoma. The currently used methods for detecting apoptosis, including terminal deoxynucleotidyl transferase nick-end-labeling, nuclear morphology, DNA laddering, Annexin-V binding, and Western blotting, are subjective, difficult to perform or difficult to quantify in glioblastoma. Cytomeric bead array analysis for active caspase-3 is a recently developed technique, which may allow rapid quantitation of apoptosis in glioblastoma. Tamoxifen (TAM), a drug used in treating breast cancer and more recently for brain tumors, was used to induce apoptosis in human glioblastoma cell lines. This study showed that TAM induced apoptosis via caspase-3 activation. The results also revealed a time- and dose-dependent response of TAM induced caspase-3 activity in glioblastoma. Cytometric bead array provides a rapid technique for measuring apoptosis and the kinetics of caspase-3 activity in glioblastoma.
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PMID:Measurement of tamoxifen-induced apoptosis in glioblastoma by cytometric bead analysis of active caspase-3. 1507 42

A subset of stem cells, termed the "side population" (SP), has been identified in several tissues in mammalian species. These cells maintain a high efflux capability for antimitotic drugs. We have investigated whether functionally equivalent stem cells also may be detected in human cancers. We initially examined primary tumor cells from 23 patients with neuroblastoma and cell lines derived from a range of other tumors. A distinct SP was found in neuroblastoma cells from 15 of 23 patients (65%). The SP was capable of sustained expansion ex vivo and showed evidence for asymmetric division, generating both SP and non-SP progeny. These cells also expressed high levels of ABCG2 and ABCA3 transporter genes and had a greater capacity to expel cytotoxic drugs, such as mitoxantrone, resulting in better survival. A SP also was detected in breast cancer, lung cancer, and glioblastoma cell lines, suggesting that this phenotype defines a class of cancer stem cells with inherently high resistance to chemotherapeutic agents that should be targeted during the treatment of malignant disease.
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PMID:A distinct "side population" of cells with high drug efflux capacity in human tumor cells. 1538 73

EGF-receptors (EGFR) are overexpressed in gliomas, as well as in tumors of breast, lung, and urinary bladder. For this reason, EGFR may be an attractive target for both visualization and therapy of malignant tumors using radioactive nuclides. Natural ligand of EGFR, epidermal growth factor (EGF) is a small 53-amino-acid protein. Low molecular weight of EGF may enable better intratumoral penetration in comparison to antibodies. [111In]DTPA-EGF was proposed for the targeting of glioblastoma and breast cancer, and its tumor-seeking properties were confirmed in animal studies. The aim of this study was to evaluate how the substitution of heptadentate DTPA for octadentate benzyl-DTPA (Bz-DTPA) effects the biodistribution of indium-labeled human EGF (hEGF) in normal NMRI mice. [111In]DTPA-hEGF and [111In]Bz-DTPA-hEGF, obtained by the coupling of ITC-benzyl-DTPA to hEGF, were injected into the tail vein. At 0.5, 1, 4, and 24 hours postinjection, the animals were sacrificed, and radioactivity in different organs was measured. The blood clearance of both conjugates was fast. The uptake of both conjugates in the liver, spleen, stomach, pancreas, intestines, and submaxillary gland was most likely receptor-mediated. The uptake in a majority of organs was similar. However, indium uptake in the case of [111In]DTPA-hEGF was significantly higher in the kidneys and bones. In conclusion, [111In]Bz-DTPA-hEGF seems to have more favourable in vivo distribution in comparison to [111In]DTPA-hEGF.
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PMID:Comparative biodistribution of potential anti-glioblastoma conjugates [111In]DTPA-hEGF and [111In]Bz-DTPA-hEGF in normal mice. 1545 64

Molecular imaging is a powerful tool that has the ability to elucidate biochemical mechanisms and signal the early onset of disease. Overexpression of the peripheral benzodiazepine receptor (PBR) has been observed in a variety disease states, including glioblastoma, breast cancer, and Alzheimer's disease. Thus, the PBR could be an attractive target for molecular imaging. In this paper, the authors report cellular uptake and multimodal (MRI and fluorescence) imaging of PBR-overexpressing C6 glioblastoma (brain cancer) cells using a cocktail administration approach and a new PBR targeted lanthanide chelate molecular imaging agent.
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PMID:Targeted molecular imaging agents for cellular-scale bimodal imaging. 1554 19

We have identified an 85 kb BAC clone, 346J21, that carries a cell senescence gene (SEN16), previously mapped to 16q24.3. Transfer and retention of 346J21 in breast cancer cell lines leads to growth arrest after 8-10 cell doublings, accompanied by the appearance of characteristic senescent cell morphology and senescence-associated acid beta-galactosidase activity. Loss of transferred BAC results in reversion to the immortal growth phenotype of the parental cancer cell lines. BAC 346J21 restores senescence in the human breast cancer cell lines, MCF.7 and MDA-MB468, and the rat mammary tumor cell line LA7, but not in the human glioblastoma cell line T98G. We postulate that inactivation of both copies of SEN16 is required for the immortalization of breast epithelial cells at an early stage of tumorigenesis. Positional mapping of 346J21 shows that SEN16 is distinct from other candidate tumor suppressor genes reported at 16q24.
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PMID:Functional identification of a BAC clone from 16q24 carrying a senescence gene SEN16 for breast cancer cells. 1555 27

S-phase kinase associated protein (Skp) 2 is an F-box protein required for substrate recognition of the SCF(Skp2) ubiquitin ligase complex. Skp2 is often overexpressed in transformed cells and in various types of tumors. Downregulation or inhibition of Skp2 inhibits growth of breast cancer cells and small-cell lung carcinoma cells. We downregulated Skp2 in T98G glioblastoma cells using small interfering RNA (siRNA). Downregulation induced p27 and caused growth arrest and apoptosis. Downregulation of both Skp2 and p27 increased apoptosis synergistically. Cyclin E levels and cyclin E-CDK2 kinase activity increased dramatically when both Skp2 and p27 were downregulated. Coincidently, Bcl-2 but not Bcl-xL expression decreased, and caspase-3 was activated. Inhibition of cyclin E-CDK2 kinase activity by forced expression of p21 reversed these effects. Moreover, stable expression of Bcl-2 also abrogated apoptosis induced by downregulation of Skp2 and p27. We suggest that Skp2 in tumor cells suppresses apoptosis through Bcl-2 expression, potentially through regulation of cyclin E-CDK2 activity.
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PMID:Downregulation of Skp2 and p27/Kip1 synergistically induces apoptosis in T98G glioblastoma cells. 1560 73

Bacterial DNA and synthetic oligodeoxynucleotides containing CpG motifs (CpG-ODN) are the ligands for the Toll-like receptor 9 (TLR9), which is expressed by B-lymphocytes and a subset of dendritic cells. CpG-ODN are strong activators of both innate and specific immunity, and drive the immune response towards the Th1 phenotype. Given the promising results obtained in several experimental models of allergies or infections, CpG-ODN are now entering clinical trials for these diseases. In cancer, promising approaches combined CpG-ODN with tumor antigens, monoclonal antibodies or dendritic cells. When no relevant tumor antigen is known, CpG-ODN can be used alone to activate locally the innate immunity and trigger a tumor-specific immune response, overcoming the need for the identification of a tumoral antigen. Preclinical models have shown impressive results and several clinical trials are on-going worldwide in melanoma, lymphoma, renal carcinoma, breast cancer and glioblastoma.
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PMID:[Cancer immunotherapy with CpG-ODN]. 1563 24

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