RENAL CYTOCHROME-P-450S - ELECTROPHORETIC AND ELECTRON-PARAMAGNETIC RESONANCE STUDIES

The cytochrome P-450's of the microsomal mixed function oxidase systems from the rabbit renal cortex, outer medulla, inner medulla, and the liver were compared. Sodium dodecyl sulfate-(SDS) gel electrophoresis and electron paramagnetic resonance (EPR) studies detected cytochrome P-450 proteins in the liver, renal cortex, and outer medulla but not the inner medulla of normal animals. Two cytochrome P-450 peptides, which had molecular weights of 54,500 and 58,900 and which comigrated with known hepatic cytochrome P-450's on SDS gels, were identified in the cortex and outer medulla. Treatment of animals with 3-methylcholanthrene (MC) enhanced the 54,500 and 58,900 peptides in the liver and cortex but produced little change in outer medulla. MC treatment induced faint cytochrome P-450 bands in the inner medulla. The EPR studies detected low spin heme iron absorption lines at g = 2.42, 2.26, and 1.92 in liver, cortex, and outer medulla from untreated animals. The amplitude of the low spin absorption lines was increased by ethanol, a reverse type I compound, and reduced by chloroform, a type I compound, in these tissues. MC treatment increased the amplitude of the heme absorption lines in these tissues, and it induced a barely detectable heme spectrum in the inner medulla. Differences in exogenous substrate binding between hepatic and renal microsomes from MC-treated animals were detected by EPR and optical difference spectroscopy. Acetone, 1-butanol, and 2-propanol gave evidence of binding to the hepatic cytochrome P-450's but no evidence of binding to renal cortical microsomes. These results, along with previous enzymatic studies, suggest that the liver and each area of the kidney contain different substrate specificities and pathways for the metabolism of organic compounds. © 1979.