Structure of smAKAP and its regulation by PKA-mediated phosphorylation

Publication date

2016-06

Authors

Burgers, P.P.ISNI 000000039673801X
Bruystens, Jessica
Burnley, Rebecca J
Nikolaev, Viacheslav O
Keshwani, Malik
Wu, Jian
Janssen, Bert J.C.ISNI 0000000419421614
Taylor, Susan S
Heck, Albert J RORCID 0000-0002-2405-4404ISNI 0000000393921118
Scholten, A.ISNI 0000000391775161

Editors

Advisors

Supervisors

Document Type

Article
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taverne

Abstract

The A-kinase anchoring protein (AKAP) smAKAP has three extraordinary features; it is very small, it is anchored directly to membranes by acyl motifs, and it interacts almost exclusively with the type I regulatory subunits (RI) of cAMP-dependent kinase (PKA). Here, we determined the crystal structure of smAKAP's A-kinase binding domain (smAKAP-AKB) in complex with the dimerization/docking (D/D) domain of RIα which reveals an extended hydrophobic interface with unique interaction pockets that drive smAKAP's high specificity for RI-subunits. We also identify a conserved PKA phosphorylation site at Ser66 in the AKB domain which we predict would cause steric clashes and disrupt binding. This correlates with in vivo co-localization and fluorescence polarization studies where Ser66 AKB phosphorylation ablates RI-binding. Hydrogen/deuterium exchange studies confirm that the AKB helix is accessible and dynamic. Furthermore, full-length smAKAP as well as the unbound AKB is predicted to contain a break at the phosphorylation site, and circular dichroism measurements confirm that the AKB domain loses its helicity following phosphorylation. Since the active site of PKA's catalytic subunit does not accommodate α-helices, we predict that the inherent flexibility of the AKB domain enables its phosphorylation by PKA. This represents a novel mechanism, whereby activation of anchored PKA can terminate its binding to smAKAP affecting the regulation of localized cAMP-signaling events. This article is protected by copyright. All rights reserved.

Keywords

AKAP, inhibition, phosphorylation, PKA, structure, Taverne

Citation

Burgers, P P, Bruystens, J, Burnley, R J, Nikolaev, V O, Keshwani, M, Wu, J, Janssen, B J C, Taylor, S S, Heck, A J R & Scholten, A 2016, 'Structure of smAKAP and its regulation by PKA-mediated phosphorylation', The FEBS journal, vol. 283, no. 11, pp. 2132-2148. https://doi.org/10.1111/febs.13726