Leukotriene B4 omega-hydroxylase in rat liver microsomes: identification as a cytochrome P-450 that catalyzes prostaglandin A1 omega-hydroxylation, and participation of cytochrome b5

Abstract

The omega-hydroxylation of leukotriene B4 (LTB4) by rat liver microsomes requires NADPH and molecular oxygen, suggesting that the hydroxylation is catalyzed by a cytochrome P-450 (P-450)-linked monooxygenase system. The reaction is inhibited by CO, and the inhibition is reversed by irradiation of light at 450 nm in a light-intensity-dependent manner. The extent of the reversal is strongly dependent on the wavelength of the light used, the 450-nm light is most efficient. The finding provides direct evidence for the identification of the LTB4 omega-hydroxylase as a P-450. The P-450 seems to be also responsible for prostaglandin A1 (PGA1) omega-hydroxylation, but not for lauric acid omega-hydroxylation. The LTB4 omega-hydroxylation is competitively inhibited by PGA1, but not affected by lauric acid. The Ki value for PGA1 of 38 microM agrees with the Km value for PGA1 omega-hydroxylation of 40 microM. LTB4 inhibits the PGA1 omega-hydroxylation by rat liver microsomes in a competitive manner with the Ki of 43 microM, which is consistent with the Km for the LTB4 omega-hydroxylation of 42 microM. An antiserum raised against rabbit pulmonary PG omega-hydroxylase (P-450p-2) inhibits slightly the omega-hydroxylations of LTB4 and PGA1, while it has stronger inhibitory effect on lauric acid omega-hydroxylation. In addition to NADPH-cytochrome P-450 reductase, cytochrome b5 appears to participate in the LTB4 omega-hydroxylating system, since the reaction is inhibited by an antibody raised against the cytochrome b5 as well as one raised against the reductase.