- The PKA regulatory subunit from yeast forms a homotetramer: low-resolution structure of the N-terminal oligomerization domain

BLUMENTHAL , DONALD; MORENOSILVIA; CARAMELO JULIO; GONZALEZ BARDECI, NICOLAS; ROSSI, SILVIA; RINALDI JIMENA.

JOURNAL OF STRUCTURAL BIOLOGY

ACADEMIC PRESS INC ELSEVIER SCIENCE

Lugar: Amsterdam; Año: 2016 vol. 193 p. 141 - 154

1047-8477

The cAMP dependent protein kinase (PKA) is a key enzyme involved in many cellular processes in eukaryotes. In mammals, the regulatory (R) subunit localizes the catalytic (C) subunit to specific subcellular sites through the interaction of its N-terminal homodimeric docking and dimerization (D/D) domain with specific scaffold proteins. The structure of the D/D domain has been extensively studied in mammals, but there is little information from non-mammalian species. In this work, we present the structural analysis of the D/D domain of Bcy1, the R subunit of PKA from Saccharomyces cerevisiae. Using chemical crosslinking experiments and static light scattering measurements we found that this R subunit forms a tetramer in solution, unlike its dimeric mammalian counterparts. We determined that the D/D domain is responsible for this unusual oligomeric state. Using biophysical techniques including size-exclusion chromatography, sucrose gradient sedimentation, small angle X-ray scattering (SAXS), and circular dichroism, we performed a detailed structural characterization of the tetrameric D/D domain of Bcy1. We used homology modelling in combination with computer-aided docking methods and ab initio SAXS modelling methods to develop structural models for the D/D domain tetramer. The models consist of two homodimers with a canonical D/D domain fold that generate a dimer of dimers with novel putative interaction surfaces. These findings indicate that the oligomerization states of PKA R subunits is more diverse than previously thought, and suggest that this might allow some forms of PKA to interact with a wide range of intracellular partners.