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:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Fluoride-stimulated adenylate cyclase is demonstrated inisolated tumor cells of transplantable rat pituitary tumor MtT-F4 in vitro. The intracellular cyclic adenosine 3':5'-monophosphate is lowered in the cells incubated in the presence of synthetic somatostatin. Contrary to the findings reported for normal pituitary, however, the immunoreactive growth hormone release does not change when either somatostatin or phosphodiesterase inhibitors are present in the incubation medium. The presence of dibutyryl cyclic adenosine 3':5'-monophosphate (5 mM) in the incubation medium does not change the rate of growth hormone release by isolated tumor cells.
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PMID:Effect of somatostatin on growth hormone release by MtT-F4 rat pituitary tumor in vitro. 19 84

Successful heterotransplantation of ovarian cancer in the mouse mutant, nude is described, with serial transmission, in one case to date. Light and electron microscopic examination of this tumour, a poorly differentiated adenocarcinoma, has not revealed any alteration in its morphology after six passages. Tumour-bearing mice have been treated with ThioTEPA or 5-Fluoro-Uracil, in an attempt to see if they show a similar effect to that seen in the patient. ThioTEPA resulted in a marked regression, whilst there was no effect from 5-Fluoro-Uracil, on tumour growth--confirming the ThioTEPA effect seen in the patient.
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PMID:Heterologous growth of human ovarian cancer. A new in vivo testing system. 40 84

A fluorine-18 labeled analogue of D-talose, 2-deoxy-2-[18F]fluoro-D-talose ([18F]FDT), was synthesized via nucleophilic fluorination with [18F]fluoride ion and its biodistributions in animals were examined. Radiofluorination of benzyl 3,5,6-tri-O-benzyl-2-O-(trifluoromethanesulfonyl)-alpha-D-galac tof uranoside (5) with aminopolyether supported potassium [18F]fluoride (K18F/Kry222) in acetonitrile followed by deprotection of the [18F]fluorinated intermediate (6) with boron tribromide in CH2Cl2 gave [18F]FDT in an average radiochemical yield of 29% with a radiochemical purity greater than 98%. Biodistribution studies of [18F]FDT in mice bearing fibrosarcoma showed the highest uptake of radioactivity in the liver (34.9% dose/g), followed by the kidney (15.9%dose/g), the small intestine (12.9%dose/g) and fibrosarcoma (5.7%dose/g), at 30 min after i.v. administration. Although the radioactivity in the kidney and small intestine decreased with time, the uptake in the liver and the tumor slightly increased until 120 min. The high liver uptake of [18F]FDT was also observed in normal rats and this uptake was strongly inhibited by co-administration of D-galactose. These preliminary results suggest that [18F]FDT might be metabolized through the galactose metabolic pathway as analogously observed with 2-deoxy-2-[18F]fluoro-D-galactose which is an isomer with respect to carbon-2 of [18F]FDT, and that it may be another candidate for studying liver function by positron emission tomography.
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PMID:Synthesis and biodistribution of a fluorine-18 labeled analogue of D-talose: 2-deoxy-2-[18F]fluoro-D-talose. 132 21

The metabolism and mutagenic activity of 4-fluorobenzo[j]fluoranthene (4F-B[j]F) and 10-fluorobenzo[j]fluoranthene (10F-B[j]F) were evaluated and compared with benzo[j]fluoranthene (B[j]F) using an identical rat liver homogenate preparation. Previous studies have shown that the major genotoxic metabolites of B[j]F are the 4,5- and 9,10-dihydrodiol. The 9,10-dihydrodiol was the principal metabolite formed in the case of 4F-B[j]F, while the 4,5-dihydrodiol was the principal metabolite formed in the metabolism of 10F-B[j]F. Studies on the relative genotoxicity of these fluorinated derivatives were performed to indirectly determine the possible contribution of the 4,5- and 9,10-dihydrodiol in the activation of B[j]F to a genotoxic agent. In the presence of microsomal activation, both of these fluorinated derivatives of B[j]F were more mutagenic in S. typhimurium TA97a, TA98 and TA100 than B[j]F. However, differences in mutagenic potency were observed between 4F- and 10F-B[j]F. 10F-B[j]F had similar mutagenic potency to 4F-B[j]F in TA97a and TA98 at doses associated with the linear portion of the dose response curve. However, a slightly higher mutagenic response was observed with 10F-B[j]F in TA98 at doses above 5 nmol. In contrast, 4F-B[j]F was more active than 10F-B[j]F as a mutagen in TA100. The tumor-initiating activity of these analogs on mouse skin was assessed at doses of 2.0, 1.0 and 0.3 mumol. Skin irritation was observed with the fluorinated B[j]F derivatives at doses above 0.3 mumol. At a dose of 0.3 mumol, 4F-B[j]F exhibited tumorigenic activity which was similar to B[j]F. In contrast, 10F-B[j]F was less active than B[j]F at all three doses assayed. Both fluorinated derivatives of B[j]F formed higher levels of DNA adducts in vivo in mouse skin than B[j]F. A modified 32P-postlabeling method was required to detect fast migrating B[j]F:DNA adducts that went undetected in previous studies. The level of DNA adducts formed from 4F-B[j]F was considerably greater than the levels observed with 10F-B[j]F. This is consistent with the greater mutagenic activity in S. typhimurium TA100 and tumor-initiating activity exhibited by 4F-B[j]F. These studies suggest that fluorine substitution may significantly alter the intrinsic genotoxicity of the 4,5- and 9,10-dihydrodiol of B[j]F. These data also imply that B[j]F may be primarily activated via the formation of the 9,10-dihydrodiol metabolite. This pathway of activation is inconsistent with our previous studies which indicate that the 4,5-dihydrodiol is the most important pathway of activation.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Effect of fluorine substitution on benzo[j]fluoranthene genotoxicity. 139 15

While 2-deoxy-2-[18F]fluoro-D-glucose ([18F]FDG) is a useful tumor imaging agent, its intratumoral distribution has not been described well at the cellular level. In order to demonstrate cellular localization of [18F]FDG and 2-deoxy-D-[3H]glucose (3H-DG) uptake by the tumor in vivo, C3H/He mice transplanted subcutaneously with FM3A tumors were studied 1 hr after intravenous injection of [18F]FDG or 3H-DG using micro- and macro-autoradiography. Fluorine-18-FDG and 3H-DG showed the same distribution pattern in the tumor with both autoradiographic methods. The newly formed granulation tissue around the tumor and macrophages, which were massively infiltrating the marginal areas surrounding necrotic area of the tumor showed a higher uptake of [18F]FDG than the viable tumor cells. A maximum of 29% of the glucose utilization was derived from nontumor tissue in this tumor. The comparison of double-tracer autoradiographic distribution patterns of [18F]FDG and [6-3H]-thymidine showed the differences and the similarities between glucose utilization and the DNA synthesis. Whole proliferating tissue metabolizes [18F] FDG but not vice versa. High accumulation of [18F]FDG in the tumor is believed to represent high metabolic activity of the viable tumor cells. Our results showed that one should consider not only the tumor cells proper but also the non-neoplastic cellular elements, which appear in association with growth or necrosis of the tumor cells, for precise analysis of [18F]FDG uptake in tumor-bearing subjects, especially after anti-neoplastic treatment.
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PMID:Intratumoral distribution of fluorine-18-fluorodeoxyglucose in vivo: high accumulation in macrophages and granulation tissues studied by microautoradiography. 143 58

Brain tumor metabolism was studied with hydrogen-1 magnetic resonance spectroscopy and positron emission tomography with fluorine-18 fluorodeoxyglucose in 50 patients. N-acetylaspartate (NAA) was generally decreased in tumors and radiation necrosis but was somewhat preserved at neoplasm margins. Choline was increased in most solid tumors. Solid high-grade gliomas had higher normalized choline values than did solid low-grade gliomas (P < .02), but the normalized choline value was not a discriminator of tumor grade, since necrotic high-grade lesions had reduced choline values. Serial studies in one case showed an increase in choline as the glioma underwent malignant degeneration. Choline values were lower in chronic radiation necrosis than in solid anaplastic tumors (P < .001). In two cases studied before and after treatment, clinical improvement and a reduction in choline followed therapy. Lactate is more likely to be found in high-grade gliomas, but its presence is not a reliable indicator of malignancy.
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PMID:Mapping of brain tumor metabolites with proton MR spectroscopic imaging: clinical relevance. 143 44

Direct labeling of proteins with radionuclides of iodine will continue to be the method of choice to answer questions addressed in many future studies. However, it seems likely that a increasing number of applications of radiohalogenated proteins will require, or benefit from, conjugate labeling. While many radiohalogen conjugates have been studied, a large proportion of them have only undergone preliminary studies to date, leaving a question of their overall utility. Phenolic conjugates give good radioiodination labeling yields, but mixtures of radiohalogenated products and problems with in vivo stability can be expected. This fact, along with the fact that phenolic compounds do not have a general application to radiohalogens, makes them less attractive than other alternatives. Radiohalogen labeling through the use of organometallic intermediates has proven to be facile, resulting in high yields of high specific activity labeled small-molecule conjugates. Although the choice of which organometallic intermediate to use may depend somewhat on the radionuclide employed, arylstannanes appear to have the most general applicability. Fluorine-18 labeling of small-molecule conjugates has been best accomplished by ipso aromatic nucleophilic substitution (exchange) reactions. Radiohalogenated small molecules have been prepared which can be conjugated with specific functional groups (e.g. amines, sulfhydryl groups, and carbohydrates) or conjugated nonspecifically with groups in the proximity of the conjugate when it is photolyzed. On the basis of previous studies, good conjugation yields (i.e. 60-90%) can be expected for reactions with specific groups, whereas low yields (i.e. 1-5%) can be expected for conjugations with reactive nitrenes and carbenes. However, recent developments in the chemistry of conjugates that produce nitrenes and carbenes will likely improve the radiolabeling yields. There have been too few comparative studies to readily assess which is the best approach to take when beginning a study involving radiohalogenation of a protein or peptide. However, it is clear that radiohalogenated conjugates of proteins can offer an advantage over direct labeling in that conjugates may be designed which provide some control over in vivo stability and secondary distribution of metabolites. Conjugates can be prepared which are designed to utilize in vivo biochemical processes to release a radiohalogenated small molecule from a tissue (i.e. kidney or liver) or retain the radioactivity at the target tissue (e.g. tumor). Aside from the designing of conjugates with linking molecules for desired biological effects, the ultimate future goal for the radiolabeling chemical should be to prepare protein conjugates which can be radiohalogenated in a single one-step procedure.
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PMID:Radiohalogenation of proteins: an overview of radionuclides, labeling methods, and reagents for conjugate labeling. 146 75

1-(2-Fluoro-4-iodo-2,4-dideoxy-beta-L-xylopyranosyl)-2-nitroimidazole (FIAZP) has been synthesized and labeled with radioiodine (125I). Radioiodinated FIAZP is one of a series of sugar-coupled 2-nitroimidazoles developed in our laboratory as probes for noninvasive scintigraphic assessment of tumor hypoxia. An in vivo biodistribution study with [125I]FIAZP in the murine BALB/c EMT-6 tumor model showed a tumor-to-blood ratio of 6, 24 h after injection, with 0.5% of the injected dose present per gram of tumor. These values are several times higher than the respective ratios and distribution values in any of the organs, with the exception of liver. Radioactivity from tissues other than tumor and liver declined with time, following the decline of blood radioactivity. Rapid whole-body elimination of radioactivity was observed (> 96% in 24 h). The thyroid showed little uptake of radioactivity, indicating minimal in vivo deiodination. 1-(2-Fluoro-4-iodo-2,4-dideoxy-beta-L-xylopranosyl)-2-nitroimidazo le appears to undergo hypoxia-dependent binding in tumor tissue at levels comparable to those of other sugar-coupled 2-nitroimidazoles. The potential for imaging with this compound is discussed.
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PMID:Radioiodinated 1-(2-fluoro-4-iodo-2,4-dideoxy-beta-L-xylopyranosyl)-2-nitroimidazole: a novel probe for the noninvasive assessment of tumor hypoxia. 147 60

The positron-emitter-labeled glucose analogue 2-[fluorine-18]-fluoro-2-deoxy-D-glucose (FDG) accumulates into many cancers after intravenous injection, but the effect of serum glucose levels on FDG uptake in the tumor has not been extensively studied. In vitro, elevated media glucose levels markedly diminished FDG and FDG 6-phosphate uptake and retention in human adenocarcinoma cells, while insulin had no effect. Mammary cancers were established subcutaneously in 12 rats. Six control rats with mammary tumors were fasted overnight. Hyperglycemia was established in six rats by means of continuous glucose infusion (glucose clamp). All animals were then intravenously administered 50 microCi of FDG. Serum glucose levels were 87 mg/dL (4.83 mmol/L) in the control animals and more than 900 mg/dL (49.9 mmol/L) in the hyperglycemic animals. One hour after injection of FDG, mean F-18 uptake in the tumor, brain, small bowel, and ovaries was 2.7-9.7 times lower in the hyperglycemic animals (P less than .02). Mean F-18 activity in the kidneys tended to be somewhat higher in the hyperglycemic animals. FDG uptake in other tissues was comparable between the control and hyperglycemic groups. These data suggest that high serum glucose levels may substantially impair visceral tumor imaging with FDG positron emission tomography.
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PMID:Serum glucose: effects on tumor and normal tissue accumulation of 2-[F-18]-fluoro-2-deoxy-D-glucose in rodents with mammary carcinoma. 158 12

Perfluorocarbons such as perfluoroctylbromide (PFOB) can be used as contrast agents in the vascular system for fluorine-19 magnetic resonance imaging or as synthetic oxygen carriers. F-19 imaging has been proposed for studying the vascular system, capillary flow, tissue perfusion, and tumor oxygenation. A major difficulty is that F-19 compounds often have complex multipeak spectra. These peaks result in chemical shift artifacts, lower signal-to-noise ratios, and blurred images. Each peak also excites a different section when a section-select gradient is applied. Direct inverse filtering is the simplest deconvolution method for correcting such artifacts; however, two major difficulties present themselves: functional singularity and noise amplification at high frequencies. The use of a new reblurred deconvolution (RED) method appears to overcome these problems. Although this method is based on iterative deconvolution in the spatial domain, the computational overhead is negligible. Since the point spread function and object data are already available in the time domain as FID data, RED appears to be useful for eliminating chemical shift artifacts and suppressing noise amplification while restoring the original image without loss of resolution.
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PMID:Reblurred deconvolution method for chemical shift removal in F-19 (PFOB) MR imaging. 162 81


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