Abstract
Two aspects of the aerobic metabolism of nitroimidazole markers for hypoxia were investigated. Several normal murine tissues which are likely to be well oxygenated bind misonidazole at rates comparable to those of hypoxic regions in tumours. The possibility that this aerobic activation occurs via an oxygen independent process such as an initial two electron reduction was studied. Binding to the oesophageal mucosa of mice which occurred under hypoxia in vitro was inhibited by at least 95% in the presence of 10% oxygen. Dicoumarol, an inhibitor of DT-diaphorase, was shown to cause only small reductions in misonidazole binding to oesophageal epithelium and smooth muscle in vitro and to EMT6 tumours, liver, oesophageal and tracheal epithelium, parotid gland and smooth muscle in vivo. Thus an oxygen-insensitive process is not a major cause of the high binding rate in oesophageal mucosa, and may not contribute significantly to the observed binding in other normal tissues. It has been suggested that metabolism of nitroimidazoles by aerobic cells in tumours might be sufficient to minimise access of these compounds to hypoxic regions, particularly at the micromolar concentrations currently in use clinically. The uptake of 125I-iodoazomycin arabinoside by RIF-1 and EMT6 tumours was found to be directly proportional to injected dose over concentrations between 0.5 and 50 microM. Labelling of hypoxic regions in EMT6 tumours by high specific activity 3H-misonidazole at 1 microM was found to be similar to that obtained at 50 microM.
Highlights
It is conceivable that if misonidazole were a substrate for such an enzyme, the production of reactive metabolites could occur independently of the oxygen concentration
The chambers were held in an ice-water bath to minimize misonidazole metabolism during degassing
Fragments of oesophagus labelled in vitro in nitrogen showed substantial differences in misonidazole binding between mucosa and smooth muscle and among different layers of mucosal cells (Table I)
Summary
It is conceivable that if misonidazole were a substrate for such an enzyme, the production of reactive metabolites could occur independently of the oxygen concentration. We investigated the latter possibility in two ways. Portions of esophagus were labelled with 3H-misonidazole in vitro under conditions which produced an oxygen gradient along the mucosa, to determine whether the elevated binding rate in this tissue is oxygen sensitive. The potent DTdiaphorase inhibitor, dicoumarol (Ernster, 1967) was used to investigate any possible inhibitory effect on the binding of 3H-misonidazole to oesophageal tissues in vitro and to EMT6 tumour cells and several normal murine tissues in vivo
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