R. Stein, S. Englard
Aug 1, 1982
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Influential Citations
16
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Journal
Archives of biochemistry and biophysics
Abstract
Abstract Hydroxylation of 6-N-trimethyl- l -lysine(lys(Me3)) to 3-hydroxy-6-N-trimethyl- l -lysine(3-HO-lys(Me3)) by several rat tissues has been examined and compared. The kidney enzyme, which previously was shown to require molecular oxygen and α-ketoglutarate as cosubstrates, ferrous iron and ascorbate as cofactors, and to be stimulated by catalase, has a broad pH optimum ranging between 6.5 to 7.5 at 37 °C. As determined with crude tissue extracts from kidney, liver, heart, and skeletal muscle, similar apparent Km values were obtained for substrate, cosubstrates, and cofactors. In view of similar kinetic parameters among the several lys(Me3) hydroxylases examined in rat tissues, and the fact that the level of skeletal muscle lys(Me3) hydroxylase activity is comparable to that of heart, liver, and kidney, because of its large total mass, skeletal muscle may contribute significantly to the biosynthesis of l -carnitine from lys(Me3). The most effective inhibitors found, competitive with lys(Me3), were 2-N-acetyl-6-N-trimethyl- l -lysine, 6-N-monomethyl- l -lysine, and 6-N-dimethyl- l -lysine. l -2-Amino-6-N-trimethylammonium-4-hexynoate, d -2-amino-6-N-trimethylammonium-4-hexynoate, and dl 2-amino-6-N-trimethylammonium-cis-4-hexenoate, also inhibited hydroxylase activity but by a yet undetermined mechanism. Oxalacetate, succinate, and citrate inhibited the hydroxylation reaction by competing with α-ketoglutarate. The binding of ferrous iron to the enzyme was competitively inhibited by ions of “soft metals” (e.g., Cd2+, Zn2+) but not by those of “hard metals” (e.g., Ca2+, Mg2+). Preincubation of the crude kidney enzyme for 15 min at 37 °C with mercuriphenylsulfonate, N-ethylmaleimide, iodoacetate, or iodoacetamide resulted in considerable inhibition of 3-HO-lys(Me3) formation. The degree of inhibition by N-ethylmaleimide could be reduced by including Zn (II) during preincubation of the enzyme. The effects of “soft” metals and sulfhydryl reagents on the enzyme suggest that sulfhydryl groups are required for ferrous iron binding in the active site.