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)

Recent progress in localized proton NMR spectroscopy has been utilized to improve the spatial resolution and the metabolic specificity in a study of 19 patients with intracranial tumors. Selected examples demonstrate that short echo time stimulated echo acquisition mode sequences are able (a) to account for macroscopic tissue heterogeneity by reducing the volume of interest to 2-8 ml and (b) to facilitate a reasonable characterization of tumor metabolism by increasing the number of accessible metabolites. Proton NMR spectra were acquired within measuring times of 6.5 min on a 2.0 T whole-body system using the imaging headcoil.
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PMID:Localized proton NMR spectroscopy of brain tumors using short-echo time STEAM sequences. 193 68

An efficient method for measuring in vivo 13C NMR spectra of tumors has been developed and employed to monitor glucose metabolism in radiation-induced fibrosarcomas (RIF-1) subcutaneously implanted in C3H/HeN mice. [1-13C]Glucose was injected directly into the tumors at a dose of 1 g/kg body wt. Spectra were obtained with a Bruker AM 360-WB spectrometer (8.4 T/8.9 cm bore) employing a homebuilt probe equipped with a four-turn solenoidal coil (1.5 cm outer diameter) for detection of 13C signals and a Helmholtz coil (two 3-cm turns separated by a 3-cm gap, oriented orthogonally to the 13C coil) for 1H decoupling. In addition to the natural abundance 13C resonances of the tumors, signals were detected from the alpha- and beta-anomers of labeled glucose. Within 15 min following injection of labeled glucose [3-13C]lactate and [3-13C]alanine were detected. Lactate labeling approached steady state levels within about 50 min after glucose injection: in contrast, alanine labeling increased continuously over the duration of the experiment (70 min). Sixty minutes after glucose injection, the ratio of the intensity of [3-13C]lactate to the principal lipid methylene resonance (30 ppm from external tetramethylsilane), which served as an internal intensity reference, was correlated with tumor size, whereas the corresponding ratio of the [3-13C]alanine resonance was not. Labeling of glutamate was below the level of detection in the in vivo spectra; however, labeling of C4-glutamate at a level approximately 50-fold lower than the level of [3-13C]lactate was detected in perchloric acid extracts. Incorporation of 13C label into C2- and C3-glutamate and C2-lactate was also observed.
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PMID:In vivo 13CNMR spectroscopy of glucose metabolism of RIF-1 tumors. 194 58

In vivo 31P NMR spectroscopy and pH microelectrodes were employed to measure the energy metabolism and pH of a mammary carcinoma in the flank of the C3H mouse before and serially up to a week after various hyperthermia treatments. Water bath hyperthermia was used to treat the tumor at 43.5 degrees C for 30 min (TCD0/30, NMR measurement only), 1 h (TCD10/30), and 2 h (TCD60/30), respectively. The data indicate that, except at 4 h after TCD60/30 treatment, all pH values measured by NMR (pHn) were significantly higher (P less than or equal to 0.001) compared to pH values measured by microelectrodes (pHe) at all treatment levels and times. The magnitude of the difference between pHn and pHe (delta pH) was significantly decreased from the pretreatment level only at 4 h after hyperthermia treatment (0.51 pH units for TCD60/30 and 0.21 pH units for TCD10/30). The ratio of beta-nucleoside triphosphate to inorganic phosphate (beta-NTP/Pi) and pHn were more sensitive to hyperthermia treatment than pHe. The beta-NTP/Pi ratio failed to recover to the pretreatment ratio after 1 or 2 h hyperthermia treatment, while a total recovery was observed within 72 h for 30 min hyperthermia treatment. Our data suggest that the temporal profile of beta-NTP/Pi, pHn, and delta pH may be indicative of the biological outcome of hyperthermia treatment.
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PMID:Dose-dependent thermal response of tumor pH and energy metabolism evaluated by in vivo 31P NMR spectroscopy and microelectrodes. 194 2

It is demonstrated that the stimulated echo technique for proton magnetic resonance spectroscopy (MRS) can be used to study metabolites in volumes of interest (VOIs) as small as 1 mL localized within superficial human tumors. Access to these small VOIs is important for characterization of tissue regions within a tumor, before, during and after treatment. Spectral appearance resembles that from studies on extracts, and cell suspensions and perfused cells of several tumor types. For the first time proton MRS was used to study cancer treatment in vivo in humans, for a case of radiation treatment of squamous cell carcinoma. No spectral evidence of changed metabolism prior to reduction in tumor size was found. However, after the first period of radiation (39 Gy, 4 weeks), complete disappearance of the metabolite resonances from the spectrum was observed, while a considerable mass still remained, suggesting effective cell destruction upon treatment. Needle aspiration cytology of this mass showed absence of malignant cells, supporting this result.
NMR Biomed 1990 Oct
PMID:Proton magnetic resonance spectroscopy of small regions (1 mL) localized inside superficial human tumors. A clinical feasibility study. 196 74

A scheme has been designed to synthesize a homologous series of new bifunctional chelating agents (BFCAs), which may increase the thermodynamic stability of metal chelates and conjugate at the specific sites on the monoclonal antibody molecule (MoAb) permitting us to analyze the structure-activity relationships of the series of compounds. Four such compounds have been prepared and characterized by FT-i.r. and NMR spectroscopy. One of them has been used to label an antibody with 111In, the stability and distribution of which has been examined in tumor-bearing mice and compared to that of the 111In-MoAb prepared using cyclic anhydride of DTPA. Enhanced tumor/blood ratios (9 vs 6.5), tumour to muscle ratios (7 vs 3), and decreased liver uptake (4 vs 12%) have been obtained.
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PMID:Preparation and evaluation of new bifunctional chelating agents: a preliminary report. 197 Dec 66

31P NMR spectra of perfused lymphocytes, embedded in alginate capsules and activated by interleukin-2, were remarkably different from those of control lymphocytes. The main differences were the appearance and gradual increase in phosphodiester signals, glycerophosphocholine and glycerophosphoethanolamine. These metabolic changes also occurred following perfusion with phorbol ester and after incubation with phytohemagglutinin (PHA) and were not dependent on a special growth medium. Nifedipine, a calcium channel blocking drug, inhibited the effects of phytohemagglutinin, but not of interleukin-2. There were no NMR spectral differences between peripheral lymphocytes, stimulated for 3 weeks, and tumor-infiltrating lymphocytes. Thus, sustained accelerated turnover of phosphatidylcholine and phosphatidylethanolamine is an inherent feature of the activation process. 31P NMR spectra of lymphocytes are characterized by a low signal of phosphocholine. Perfusion studies with high concentrations of choline and the use of dapsone, an inhibitor of cytidylyltransferase, indicated that choline kinase plays a key role in regulating phosphaditylcholine synthesis in human lymphocytes.
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PMID:Lymphocyte activation and phospholipid pathways. 31P magnetic resonance studies. 199 23

A set of structurally distinct o-substituted tetraphenylporphyrins, the picket fence porphyrins, were evaluated for their ability to photosensitize tumor mitochondria in vitro, in vivo-in vitro, and tumor implants in situ. Differential photosensitized inactivation efficiencies toward mitochondrial enzymes in vitro are reported for the 12 compounds studied as a function of side chain length and isomer structure. Fluorescence studies in aqueous solution coupled with mitochondrial uptake studies indicate that the observed range of inactivation efficiencies are due to different inherent solubilization properties for the picket fence porphyrins. Studies with the most soluble compound, 3,1-meso-tetrakis(o-propionamidophenyl)porphyrin, using an in vivo-in vitro protocol indicate that a more effective photosensitization can be obtained by using an interval of 4 h between photosensitizer administration and irradiation as compared to 24 h for Photofrin II. Irradiation of tumors in vivo 4 h following administration of 3,1-meso-tetrakis(o-propionamidophenyl)porphyrin, resulted in a mean tumor doubling time more than eight times longer than that observed for untreated tumors. 31P NMR spectroscopy in situ indicated that photodynamic therapy using 3,1-meso-tetrakis(o-propionamidophenyl)porphyrin induced a rapid and significant reduction in high energy phosphate metabolites.
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PMID:Photosensitizing activities of picket fence porphyrins in vitro and in vivo. 200 67

The potential importance of hypoxic cells in cancer treatment response has been debated since their presence in human tumors was inferred by the classical studies of Thomlinson and Gray. Tumor cells which contain low concentrations of molecular oxygen display resistance to high energy photon irradiation and some chemotherapy regimens, in both in vitro and animal tumor studies. No diagnostic procedure is currently available for measuring the oxygenation status of human tumors at the time of diagnosis or throughout treatment. Recent studies with oxygen electrodes and sensitizer-adducts indicate a wide heterogeneity of oxygen levels within solid human tumors, even for tumors of similar histology and size. These studies suggest that to determine the relative importance of tumor hypoxia in treatment resistance, a "predictive assay" for monitoring tumor oxygenation status in individual patients will be required. Recently, several sophisticated techniques for measuring tumor oxygen levels and tumor metabolism have indicated both intertumor and intratumor heterogeneity of tumor oxygen levels and other metabolites. While providing useful information about human tumor biology, most of the invasive procedures are not appropriate as a standard diagnostic tool. Non-invasive measurements of 1) sensitizer-adducts by nuclear medicine procedures and 2) tumor energetics by 31P NMR spectroscopy might be developed as routine predictors of tumor oxygenation and possible treatment outcome.
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PMID:Measurement of tumor hypoxia by invasive and non-invasive procedures: a review of recent clinical studies. 202 Jul 62

Glycolipid extracts from various human cancer tissues and cell lines showed the presence of a slow-migrating glycolipid component which was strongly reactive with monoclonal antibody (mAb) NCC-ST-421 (raised against human gastric adenocarcinoma) and weakly cross-reactive with anti-Lea mAbs. The slow-migrating glycolipid was isolated from human colonic adenocarcinoma cell line Colo205 grown in nude mice, and was purified by high-performance liquid chromatography followed by preparative thin-layer chromatography. Its structure was elucidated by sequential enzymatic degradation and thin-layer chromatography immunostaining of the degradation products with various mAbs, 1H NMR spectroscopy, positive-ion fast atom bombardment mass spectrometry, and methylation analysis. The major slow-migrating component reacting with mAb ST-421 was identified as dimeric Lea, with the structure as follows. [formula: see text] Antigens containing this structure and various analogous structures (including enzymatically synthesized Lea/Lex hybrid antigen) were tested with ST-421. While the mAb was equally reactive with dimeric Lea and Lea/Lex, only the former was chemically detectable as the slow-migrating glycolipid from the tumor extract. ST-421 showed less reactivity with simple Lea (III4FucLc4) or extended Lea (V4FucLc6, and/or IV3Gal beta 1----3[Fuc alpha 1----4]GlcNAcnLc4), and was not reactive with Lex/Lex (dimeric Lex). It was concluded, therefore, that the major tumor-associated slow-migrating glycolipid reacting with ST-421 has the dimeric Lea structure shown above. Since extension of lacto-series structure has been shown to be limited to type 2 chain in normal cells and tissues, extended elongation of type 1 chain as shown in this structure represents a novel tumor-associated epitope.
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PMID:Extended type 1 chain glycosphingolipids: dimeric Lea (III4V4Fuc2Lc6) as human tumor-associated antigen. 202 59

The relationship between intracellular and extracellular pH was investigated in a murine tumor and normal tissue, prior to and following glucose injection. Isotransplants of the murine tumor FSa-II in the dorsum of the hind foot and leg muscle, were investigated in nonanesthetized mice. Extracellular pH was measured with a glass microelectrode, with a tip diameter of approximately 80 microns. Intracellular pH was evaluated by 31P-NMR spectroscopy, using a wide-bore NT-150 spectrometer operating at 60.75 MHz. Five grams per kilogram intraperitoneal glucose led to small changes in extracellular pH of muscle (-0.13 unit) measured with a microelectrode, and no change in intracellular pH measured by NMR. In contrast, tumor intracellular pH decreased by 0.34 units and tumor extracellular pH by 1.13 units. The differential effect of glucose on tumor vs normal tissue, and pronounced pH gradient which develops in tumor cells should markedly affect the intracellular:extracellular distribution of drugs which are weak acids or bases.
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PMID:Regulation of pH in murine tumor and muscle. 202 90


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