Characterization of the Human Prolyl 4-Hydroxylases That Modify the Hypoxia-inducible Factor

Abstract

The hypoxia-inducible factors (HIFs) play a central role in oxygen homeostasis. Hydroxylation of one or two critical prolines by specific hydroxylases (P4Hs) targets their HIF-alpha subunits for proteasomal degradation. By studying the three human HIF-P4Hs, we found that the longest and shortest isoenzymes have major transcripts encoding inactive polypeptides, which suggest novel regulation by alternative splicing. Recombinant HIF-P4Hs expressed in insect cells required peptides of more than 8 residues, distinct differences being found between isoenzymes. All the HIF-P4Hs hydroxylated peptides corresponding to Pro564 in HIF-1alpha, whereas a Pro402 peptide had 20-50-fold Km values for two isoenzymes but was not hydroxylated by the shortest isoenzyme at all; this difference was not explained by the two prolines being in a -Pro402-Ala- and -Pro564-Tyr-sequence. All the HIF-P4Hs-hydroxylated peptides corresponding to two of three potential sites in HIF-2alpha and one in HIF-3alpha. The Km values for O2 were slightly above its atmospheric concentration, indicating that the HIF-P4Hs are effective oxygen sensors. Small molecule inhibitors of collagen P4Hs also inhibited the HIF-P4Hs, but with distinctly different Ki values, indicating that it should be possible to develop specific inhibitors for each class of P4Hs and possibly even for the individual HIF-P4Hs.