Mutational analysis of catecholamine binding in tyrosine hydroxylase

Briggs, Gabrielle D.; Gordon, Sarah L.; Dickson, Phillip W.

Title: Mutational analysis of catecholamine binding in tyrosine hydroxylase
Creator: Briggs, Gabrielle D.; Gordon, Sarah L.; Dickson, Phillip W.
Relation: NHMRC.455547
Relation: Biochemistry Vol. 50, Issue 9, p. 1545-1555
Publisher Link: http://dx.doi.org/10.1021/bi101455b
Publisher: American Chemical Society
Resource Type: journal article
Date: 2011
Description: Tyrosine hydroxylase (TH) performs the first and rate-limiting step in the synthesis of catecholamines, which feed back to regulate the enzyme by irreversibly binding to a high-affinity site and inhibiting TH activity. Phosphorylation of Ser40 relieves this inhibition by allowing dissociation of catecholamine. We have recently documented the existence of a low-affinity catecholamine binding which is dissociable, is not abolished by phosphorylation, and inhibits TH by competing with the essential cofactor, tetrahydrobiopterin. Here, we have substituted a number of active site residues to determine the structural nature of the low- and high-affinity sites. E332D and Y371F increased the IC50 of dopamine for the low-affinity site 10-fold and 7 0-fold, respectively, in phosphorylated TH, indicating dramatic reductions in affinity. Only 2−4-fold increases in IC50 were measured in the nonphosphorylated forms of E332D and Y371F and also in L294A and F300Y. This suggests that while the magnitude of low-affinity site inhibition in wild-type TH remains the same upon TH phosphorylation as previously shown, the active site structure changes to place greater importance on E332 and Y371. Changes to high affinity binding were also measured, including a loss of competition with tetrahydrobiopterin for E332D, A297L, and Y371F and a decreased ability to inhibit catalysis (Vmax) for A297L and Y371F. The common roles of E332 and Y371 indicate that the low- and high-affinity catecholamine binding sites are colocalized in the active site, but due to simultaneous binding, may exist in separate monomers of the TH tetramer.
Subject: tyrosine hydroxylase; catecholamine binding; tetrahydrobiopterin
Identifier: http://hdl.handle.net/1959.13/1325362
Identifier: uon:25252
Identifier: ISSN:0006-2960
Language: eng
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