Abstract
The role of several reducing systems in the tyrosine hydroxylase reaction has been studied. A significant dependence upon the reducing systems beyond that required to regenerate the oxidized cofactor has been observed. 2-Mercaptoethanol, NADPH, and ascorbate are each effective at reducing the cofactor, but their abilities to stimulate tyrosine hydroxylase vary over a threefold range. NADPH is a suitable reductant for the tyrosine hydroxylase reaction, even in the absence of pteridine reductase. A reducing system containing ascorbate, ferrous ion, and catalase gives unusually high enzyme activity and low blanks. This ascorbate system, in addition to being useful for in vitro enzyme assays, may serve as a model for the in vivo reaction. Ascorbate may play an important role in the hydroxylation of tyrosine in catecholaminergic tissues. This study demonstrates that an efficient reductant for the tyrosine hydroxylase reaction must, in addition to reducing the pterin cofactor, also interact effectively with the enzyme itself.
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