Radiolabeled fluoromisonidazole has been characterized as a probe for hypoxic cells in vitro and in vivo. The uptake and retention of [3H]fluoromisonidazole and [3H]misonidazole were compared in V-79 cell monolayers and spheroids by varying incubation time and O2 levels in contact with the medium. The two labeled drugs were retained similarly in cell populations isolated from different depths in spheroids, and the amount of each drug bound in cells at the spheroid periphery increased with decreasing O2 level. The labeling patterns in autoradiographs were similar for spheroids incubated with the two labeled drugs, with most silver grains located over a zone of viable and presumed hypoxic cells intermediate between the necrotic center and the periphery of the spheroid. Biodistribution of the two tritiated drugs was compared in C3H mice bearing KHT tumors with 15% radiobiologically hypoxic cells. Tumor:blood and tumor:muscle ratios greater than 5.0 were achieved in mice sacrificed 4 h after the last of three injections of 5 or 20 mumol/kg of [3H]fluoromisonidazole. These ratios are compatible with imaging and are higher than those obtained with 50 mumol/kg misonidazole in a similar administration protocol. TLC analysis of plasma from mice injected with [3H]fluoromisonidazole indicated that the drug was stable in vivo for up to 2 h and that the metabolites formed were too polar to be dehalogenation products. Fluoromisonidazole labeled with 18F at the end of the alkyl side chain would retain the label on metabolites that bind in hypoxic cells in vivo. Fluoromisonidazole binds stably in the same populations of hypoxic cells as does misonidazole, and we conclude that [18F]fluromisonidazole has potential use as a hypoxia imaging agent in vivo.
Radiolabeled fluoromisonidazole (FMISO) is being investigated as an imaging agent for hypoxia in tumors and nonmalignant tissues in myocardial infarct or stroke. In this study in vitro cell cultures were used to characterize the oxygen dependency of FMISO uptake and to examine other modifying factors. The uptake of [3H]FMISO was measured in four cell lines in vitro: V-79, EMT-6(UW), RIF-1, and CaOs-1. The modifying effects of different O2 levels as well as cell growth state and concentration of glucose and nonprotein sulfhydryls were examined. In these cell types an O2 level between 720 and 2300 ppm inhibited FMISO binding by 50%, relative to binding under anoxic conditions. These values bracket the O2 level which confers full radiobiologic hypoxia, about 1000 ppm. Some bound label was released from cells in the first 1 to 3 h after a 3-h anoxic labeling with [3H]FMISO, but this does not represent tritium loss from the parent molecule. Cells from unfed plateau-phase cultures took up less [3H]FMISO than did exponentially growing cells incubated at comparable O2 levels. Reducing glucose to 1/10 or 1/100 of the usual concentration in medium had little effect on binding of micromolar levels of FMISO, except in V-79 cells, where reduced glucose levels were associated with increased FMISO accumulation. Adding cysteamine to the culture medium moderately increased FMISO uptake. We conclude that cell growth state, glucose, and nonprotein sulfhydryl concentrations affect FMISO binding, albeit less than varying O2 levels: anoxic/oxic binding ratios vary from 12.6 to 28 for the four cell types examined. Nonetheless these factors must be considered in evaluating the oxygen-dependent binding of this nitroimidazole in tumors or tissues.
a racemic conglomerate (a mixture of individual d crystals and 1 crystals in equal proportions) such as may result from ordinary nonvital chemical reactions.It is only necessary that the individual crystals be separated far enough from each other so that their solutions do not mix when the crystals dissolve. If the crystals are dissolved under these conditions, each optically active crystal will provide a small amount of an optically active solution.The process might well occur in nature. If a solution of a racemic mixture formed as the result of an ordinary chemical reaction were to crystallize as a racemic conglomerate, and then evaporate to dryness, the crystals might easily be scattered by the wind or some other disturbance. This process would fulfil the required conditions, and each individual crystal, separated from the others, would supply an optically active solution. In this way an optically active solution would be made available for the first vital reaction.
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