Functions of the N-terminal region of cyclic nucleotide phosphodiesterase 3 (PDE 3) isoforms

Y Kenan, T Murata, Y Shakur, Eva Degerman, V C Manganiello

Research output: Contribution to journalArticlepeer-review

Abstract

The N-terminal portion of phosphodiesterase (PDE) 3 was arbitrarily divided into region 1 (amino acids 1-300), which contains a large hydrophobic domain with six predicted transmembrane helices, and region 2 (amino acids 301-500), with a smaller hydrophobic domain ( approximately 50 residues). To analyze these regions, full-length human (H)PDE3A and mouse (M)PDE3B and a series of N-terminal truncated mutants were synthesized in Sf9 cells. Activities of HPDE3A, H3A-Delta189, MPDE3B, and M3B-Delta196, which retained all or part of the hydrophobic domain in region 1, were recovered almost entirely in particulate fractions. H3A-Delta321 and M3B-Delta302, containing region 2, were recovered essentially equally in particulate and cytosolic fractions. H3A-Delta397 and H3A-Delta457, lacking both hydrophobic domains, were predominantly cytosolic. H3A-Delta510 and M3B-Delta604, lacking both regions 1 and 2, were virtually completely cytosolic. M3B-Delta196 eluted as a large aggregated complex during gel filtration. With removal of greater amounts of N-terminal sequence, aggregation of PDE3 decreased, and H3A-Delta607, H3A-Delta721, and M3B-Delta604 eluted as dimers. Truncated HPDE3A proteins were more sensitive than full-length HPDE3A to inhibition by lixazinone. These results suggest that the hydrophobic domains in regions 1 and 2 contain structural determinants important for association of PDE3 with intracellular membranes, as well for self-association or aggregation during gel filtration and sensitivity to a specific inhibitor.
Original languageEnglish
Pages (from-to)12331-12338
JournalJournal of Biological Chemistry
Volume275
Issue number16
Publication statusPublished - 2000

Subject classification (UKÄ)

  • Endocrinology and Diabetes

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