Abstract
Experiments were designed to test the idea that A kinase anchor proteins (AKAPs) tether regulatory subunits (RII) of protein kinase AII (PKAII) isoforms to surfaces of organelles that are bounded by phospholipid bilayers. S-AKAP84, one of three RII-binding proteins encoded by a single-copy murine gene, was studied as a prototypic organelle-associated AKAP. When S-AKAP84 was expressed in HEK293 cells, the anchor protein was targeted to mitochondria and excluded from other cell compartments. The RII tethering site is located in the cytoplasm adjacent to the mitochondrial surface. Endogenous RII subunits are not associated with mitochondria isolated from control cells. Expression of S-AKAP84 in transfected HEK293 cells triggered a redistribution of 15% of total RII to mitochondria. Thus, the tethering region of the organelle-inserted anchor protein is properly oriented and avidly binds RII (PKAII) isoforms in intact cells. Two critical domains in S-AKAP84 were mapped. Residues 1 to 30 govern insertion of the polypeptide into the outer mitochondrial membrane; amino acids 306-325 constitute the RII-binding site. Properties established for S-AKAP84 in vitro and in situ strongly suggest that a physiological function of this protein is to concentrate and immobilize RII (PKAII) isoforms at the cytoplasmic face of a phospholipid bilayer.
Highlights
Experiments were designed to test the idea that A kinase anchor proteins (AKAPs) tether regulatory subunits (RII) of protein kinase AII (PKAII) isoforms to surfaces of organelles that are bounded by phospholipid bilayers
Transcripts of the Murine S-AKAP84 Gene Encode Three Predicted A Kinase Anchor Proteins—Complementary DNAs encoding proteins homologous with human S-AKAP84 were retrieved from a mouse testis cDNA library in bacteriophage gt11 and characterized
(10), we observed that the positions of hydrophobic, hydroxylated, and charged amino acids in sequences of the N-terminal region of S-AKAP84 and an established N-terminal signal/anchor domain that inserts into the outer mitochondrial membrane in yeast are highly homologous
Summary
Experiments were designed to test the idea that A kinase anchor proteins (AKAPs) tether regulatory subunits (RII) of protein kinase AII (PKAII) isoforms to surfaces of organelles that are bounded by phospholipid bilayers. AKAP121 and S-AKAP84 share amino acid residues 1–525 (Fig. 2A) and contain the same targeting and RII tethering domains. We previously isolated a human testis cDNA [10] that encodes an anchor protein composed of 903 amino acids (AKAP149, Fig. 2B).
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