Title
cAMP‐dependent protein kinase (PKA) complexes probed by complementary Differential Scanning Fluorimetry and Ion Mobility‐Mass Spectrometry
Author
Dominic P. Byrne , Matthias Vonderach , Samantha Ferries, Philip J. Brownridge, Claire E. Eyers, Patrick A. Eyers
Year
2016
Journal
Biochemical Journal
Abstract
cAMP‐dependent protein kinase (PKA) is an archetypal biological signaling module and a model for understanding the regulation of protein kinases. In this study, we combine biochemistry with differential scanning fluorimetry (DSF) and ion mobility‐ mass spectrometry (IM‐MS) to evaluate effects of phosphorylation and structure on the ligand binding, dynamics and stability of components of heteromeric PKA protein complexes in vitro. We uncover dynamic, conformationally‐distinct populations of the PKA catalytic subunit with distinct structural stability and susceptibility to the physiological protein inhibitor PKI. Native MS of reconstituted PKA R2C2 holoenzymes reveals variable subunit stoichiometry and holoenzyme ablation by PKI binding. Finally, we find that although a ‘kinase‐dead’ PKA catalytic domain cannot bind to ATP in solution, it interacts with several prominent chemical kinase inhibitors. These data demonstrate the combined power of IM‐MS and DSF to probe PKA dynamics and regulation, techniques that can be employed to evaluate other complexes, with broad implications for cellular signaling.
Instrument
J-1100
Keywords
Circular dichroism, Secondary structure, Ligand binding, Biochemistry