Protein kinase A (PKA) regulatory subunit Iβ (RIβ) plays a crucial role in modulating PKA activity through its interaction with the catalytic (C) subunit. Recent studies have identified two variants of RIβ that have not been distinguished until now. The variants differ in a single residue at Position 268 (alanine vs arginine), located within one of two structural motifs known as N3A motifs. Our study reveals distinct biochemical functions of the variants, highlighting the role of the second N3A motif at the N terminus of the cyclic nucleotide binding domain B (CNB-B). We demonstrate an enhanced binding affinity of the A268 variant for cAMP and an altered interaction with the C-subunit. Substitution in the N3AB motif also affects the cooperativity between the cAMP binding sites as well as kinase activity in the absence of cAMP. In HEK293 cells, we demonstrated a reduced cAMP-induced dissociation of RIβ R268 PKA holoenzymes in a time-dependent manner. Gaussian molecular dynamics simulations revealed that the CNB-A domain is more flexible in A268 while the opposite is true for the CNB-B domain, which is more dynamic in the R268 protein. This study underscores the importance of distinguishing between the two RIβ variants, as they exhibit distinct biochemical properties that alter PKA regulation. Comparison of cellular localization showed that both variants form small droplets in the cytoplasm that colocalize with the C-subunit in the presence of cAMP. These findings suggest that both RIβ variants undergo liquid-liquid phase separation, similar to RIα.
Keywords: Surface plasmon resonance spectroscopy; bioluminescence resonance energy transfer (BRET); cAMP signaling; molecular dynamics; protein kinase; protein kinase A (PKA); regulatory subunit Iβ (RIβ).
© 2025 The Author(s). The FEBS Journal published by John Wiley & Sons Ltd on behalf of Federation of European Biochemical Societies.