Oxygen binding and redox properties of the heme in soluble guanylate cyclase: implications for the mechanism of ligand discrimination.
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ABSTRACT: Soluble guanylate cyclase is an NO-sensing hemoprotein that serves as a NO receptor in NO-mediated signaling pathways. It has been believed that this enzyme displays no measurable affinity for O(2), thereby enabling the selective NO sensing in aerobic environments. Despite the physiological significance, the reactivity of the enzyme-heme for O(2) has not been examined in detail. In this paper we demonstrated that the high spin heme of the ferrous enzyme converted to a low spin oxyheme (Fe(2+)-O(2)) when frozen at 77 K in the presence of O(2). The ligation of O(2) was confirmed by EPR analyses using cobalt-substituted enzyme. The oxy form was produced also under solution conditions at -7 °C, with the extremely low affinity for O(2). The low O(2) affinity was not caused by a distal steric protein effect and by rupture of the Fe(2+)-proximal His bond as revealed by extended x-ray absorption fine structure. The midpoint potential of the enzyme-heme was +187 mV, which is the most positive among high spin protoheme-hemoproteins. This observation implies that the electron density of the ferrous heme iron is relatively low by comparison to those of other hemoproteins, presumably due to the weak Fe(2+)-proximal His bond. Based on our results, we propose that the weak Fe(2+)-proximal His bond is a key determinant for the low O(2) affinity of the heme moiety of soluble guanylate cyclase.
SUBMITTER: Makino R
PROVIDER: S-EPMC3091176 | biostudies-literature | 2011 May
REPOSITORIES: biostudies-literature
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