Abstract

Conformational changes of the cAMP-dependent protein kinase (PKA) catalytic (C) subunit are critical for the catalysis of γ-phosphate transfer from adenosine 5′-triphosphate (ATP) to target proteins. Time-resolved fluorescence anisotropy (TRFA) was used to investigate the respective roles of Mg 2+, ATP, MgATP, and the inhibitor peptide (IP20) in the conformational changes of a 5,6-carboxyfluorescein succinimidyl ester (CF) labeled C subunit ( CFC). TRFA decays were fit to a biexponential equation incorporating the fast and slow rotational correlation times ϕ F and ϕ S. The CFC apoenzyme exhibited the rotational correlation times ϕ F=1.8±0.3 ns and ϕ S=20.1±0.6 ns which were reduced to ϕ F=1.1±0.2 ns and ϕ S=13.3±0.9 ns in the presence of MgATP. The reduction in rotational correlation times indicated that the CFC subunit adopted a more compact shape upon formation of a CFC·MgATP binary complex. Neither Mg 2+ (1–3 mM) nor ATP (0.4 mM) alone induced changes in the CFC subunit conformation equivalent to those induced by MgATP. The effect of MgATP was removed in the presence of ethylenediaminetetraacetic acid (EDTA). The addition of IP20 and MgATP to form the CFC·MgATP·IP20 ternary complex produced rotational correlation times similar to those of the CFC·MgATP binary complex. However, IP20 alone did not elicit an equivalent reduction in rotational correlation times. The results indicate that binding of MgATP to the C subunit may induce conformation changes in the C subunit necessary for the proper stereochemical alignment of substrates in the subsequent phosphorylation.

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