CGC Bibliography Paper 3087
Molecular characterization of an anchor protein (AKAP(CE)) that binds the RI subunit (R(CE)) of type I protein kinase A from Caenorhabditis elegans.
Angelo R,
Rubin CS
- Medline:
- 98269136
- Citation:
- Journal of Biological Chemistry 273: 14633-14643 1998
- Type:
- ARTICLE
- Genes:
- kap-1
- Abstract:
- Classical A kinase anchor proteins (AKAPs) preferentially tether type II protein kinase A (PKAII) isoforms to sites in the cytoskeleton and organelles. It is not known if distinct proteins selectively sequester regulatory (R) subunits of type I PKAs, thereby diversifying functions of these critical enzymes. In Caenorhabditis elegans, a single type I PKA mediates all aspects of cAMP signaling. We have discovered a cDNA that encodes a binding protein (AKAP(CE)) for the regulatory subunit (R-CE) of C. elegans PKAI(CE). AKAP(CE) is a novel, highly acidic RING finger protein composed of 1,280 amino acids. It binds RI-like R-CE with high affinity and neither RII alpha nor RII beta competitively inhibits formation of AKAP(CE).R-CE complexes. The R-CE-binding site was mapped to a segment of 20 amino acids in an N-terminal region of AKAP(CE). Several hydrophobic residues in the binding site align with essential Leu and Re residues in the RII-selective tethering domain of prototypic mammalian AKAPs. However, the R-CE-binding region in AKAP(CE) diverges sharply from consensus RII-binding sites by inclusion of three aromatic amino acids, exclusion of a highly conserved Leu or Ile at position 8 and replacement of C-terminal hydrophobic amino acids with basic residues. AKAP(CE). R-CE complexes accumulate in intact cells.