Abstract

The pharmacologie effects of many drugs are enhanced in animals bearing tumors. This apparently stems from a decrease in the microsomal metabolism of these compounds in liver cells, owing to a decrease in either the activities of certain enzymes or in the content of cytochrome P-450 in microsomes, or both. Since impaired drug metabolism may have a direct bearing on the outcome of chemotherapy, a study of the biochemical basis for this alteration was begun. In female Sprague-Dawley rats bearing Walker 256 solid tumors i.m., pentobarbital metabolism was impaired as judged from prolonged sleeping-times. This effect was accompanied by a decrease in the microsomal content of cytochrome P-450. Analysis of hepatic microsomes by sodium dodecylsulfate-polyacrylamide gel electrophoresis revealed that a microsomal protein of ~53,000 daltons was diminished in livers of tumor-bearing animals, when compared to normal controls, as determined by staining with Coomassie Blue. When rats were injected with [ 3H]leucine, although the dpm/100 μg of microsomal protein were the same for both normal and tumor-bearing rats, ~40% less 3H was associated with the microsomal proteins in the cytochrome P-450 region (~43,000 to ~58,000 daltons) of tumor-bearing animals than with those of normal controls. This was attributed to a decrease in the rate of synthesis of these, but not of other, microsomal proteins. Either staining of microsomal proteins with 3,3',5,5'-tetramethyl-benzidine, or labelling of them with δ-[ 14C]aminolevulinic acid, revealed that the overall content of microsomal hemeproteins of tumor-bearing rats was reduced considerably, when compared to normal controls (~70% as judged by the incorporation of 14C). These observations prompted investigations of the apparent rate-limiting synthetic and degradative enzymes of heme. We found that in the livers of 7-day tumor-bearing rats, the activity of δ-aminolevulinic acid synthetase was only 16% of control activity; conversely, the activity of hepatic microsomal heme oxygenase in the tumor-bearing rats was nearly eight-times greater than that of the normal animals. Together, these data indicate that perturbations in heme- and hemeprotein-synthesis cause the reduced content of cytochrome P-450 seen in tumor-bearing rats, and they provide a partial explanation for diminished drug metabolism by hepatic microsomes in the presence of a growing, transplantable, non-hepatic tumor.

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