Characterization of the novel human prolyl 4-hydroxylases and asparaginyl hydroxylase that modify the hypoxia-inducible factor

Abstract

<div lang="en" class="abs"><p class="abs_header">Abstract</p><p>HIF prolyl 4-hydroxylases (HIF-P4Hs) and HIF asparaginyl hydroxylase (FIH) are novel members of the 2-oxoglutarate dioxygenase family that play key roles in the regulation of the hypoxia-inducible transcription factor (HIF). They hydroxylate specific proline and asparagine residues in HIF-α, leading to its proteasomal degradation and inhibition of its transcriptional activity, respectively. These enzymes are inhibited in hypoxia, and as a consequence HIF-α becomes stabilized, forms a dimer with HIF-β, attains its maximal transcriptional activity and induces expression of many genes that are important for cell survival under hypoxic conditions.</p><p>The three HIF-P4Hs and FIH were expressed here as recombinant proteins in insect cells and purified to near homogeneity. All these enzymes were found to require long peptide substrates. The three HIF-P4Hs and FIH acted differently on the various potential hydroxylation sites in the HIF-α isoforms. The HIF-P4Hs acted well on sequences with cores distinctly different from the core motif -Leu-X-X-Leu-Ala-Pro-, suggested based on sequence analysis studies, the alanine being the only relatively strict requirement in addition to the proline itself. Acidic residues around the hydroxylation site also played a distinct role. These results together with those of others provide evidence that there is no conserved core motif for the hydroxylation by HIF-P4Hs.</p><p>The K_m values of the HIF-P4Hs for O₂ were slightly above its atmospheric concentration, while the K_m of FIH was about one-third of these values but still 2.5 times that of the type I collagen P4H. The HIF-P4Hs are thus effective oxygen sensors, as even small decreases in the amount of O₂ affect their activities, while a more severe decrease is required to inhibit FIH activity. Small molecule inhibitors of the collagen P4Hs also inhibited the HIF-P4Hs and FIH but with distinctly different K_i values, indicating that it should be possible to develop specific inhibitors for the HIF-P4Hs and FIH.</p><p>The HIF-P4Hs were found to bind the iron cosubstrate more tightly than FIH and the collagen P4Hs, and the chelator desferrioxamine was an ineffective inhibitor of the HIF-P4Hs <em>in vitro</em>. Several metals were effective competitive inhibitors of FIH but they were ineffective inhibitors of the HIF-P4Hs. The well-known stabilization of HIF-1α by cobalt and nickel is thus not due to a simple competitive inhibition of the HIF-P4Hs, and is probably at least in part due to HIF-P4H-independent mechanisms. The effective inhibition of FIH by these metals nevertheless indicates that the stabilized HIF-1α is transcriptionally fully active.</p></div>