Effect of structural modification at carbon atom 1 of leukotriene B4 on the chemotactic and metabolic response of human neutrophils.

Human neutrophils biosynthesize the chemoattractant leukotriene B4 (LTB4) and metabolize LTB4 to omega oxidative products 20-hydroxy-LTB4 (20-OH-LTB4) and 20-carboxy-LTB4 (20-COOH-LTB4). In this study, we prepared the C-1 methyl ester and N-methyl amide of LTB4 and then examined neutrophil chemotaxis and metabolism of these derivatives of LTB4. The results show that chemical modification of LTB4 at carbon atom 1 dramatically affects metabolism of the lipid molecule. The free acid form of LTB4 was taken up and metabolized by human neutrophils, while the methyl ester and N-methyl amide derivatives were poor substrates for omega oxidation. Although human neutrophils were poorly attracted to the methyl ester of LTB4, the amide derivative was a complete agonist of the neutrophil chemotactic response and displayed an ED50 for chemotaxis identical to that of LTB4. Therefore, we concluded that omega oxidation is not a requirement for the neutrophil chemotactic response induced by LTB4. These results also indicate that the N-methyl amide of LTB4 may be a useful ligand for the elucidation of molecular mechanisms operative in neutrophil chemotaxis to LTB4, since the C-1 derivative is not further metabolized. Two separate responses of human neutrophils are elicited by LTB4, resulting in both cellular activation and generation of omega oxidation products. It appears that putative receptors on the neutrophils can distinguish between LTB4 and certain derivatives that are structurally identical except for modification at the C-1 position (i.e., the methyl ester). LTB4 derivatives modified at the C-1 position do not undergo conversion to omega oxidation products by the neutrophil.