Monday, December 8, 2008: 1:30 PM
3002-3004 - West (Moscone Center)
Melanie Percy, PhD1, Paul W Furlow2*, Philip A Beer, BM, MRCP, MRCPath3*, Gavin Campbell4*, Adriaan W. Dekker, MD5, Anthony R. Green, PhD, FRCP, FRCPath6, Xiping Li2*, Scott Sutherland2*, David Oscier7*, M. Glenn Rainey8*, Enid Rivera9*, Richard van Wijk10*, Marion Wood4*, Terence R.J. Lappin, PhD, FRCPath11, Mary Frances McMullin11* and Frank S Lee2*
1Dept. of Haematology, Belfast City Hospital, Belfast, United Kingdom
2Pathology and Laboratory Medicine, University of Pennsylvania School of Medicine, Philadelphia, PA
3Haematology, University of Cambridge, Cambridge, United Kingdom
4Haematology, Colchester Hospital University NHS Foundation Trust, Colchester, United Kingdom
5University Hospital Ultrecht, B02.226, Utrecht, Netherlands
6Dept. of Haematology, University of Cambridge, Cambridge Inst. for Med. Rsch., Cambridge, United Kingdom
7Haematology, Royal Bournemouth Hospital, Bournemouth, United Kingdom
8Haematology, Vale of Leven District General Hospital, Alexandria, United Kingdom
9Pediatric Hematology/Oncology, University of Puerto Rico, San Juan, PR
10Clinical Chemistry and Hematology, University Medical Center, Utrecht, Utrecht, Netherlands
11Haematology, Queen's University Belfast, Belfast
Transcriptionally erythropoietin (Epo) synthesis is tightly regulated by the hypoxia inducible factor (HIF), which is composed of one alpha and one beta subunit that are constitutively expressed. The beta subunit is non-variable, but three different alpha subunits give rise to three isoforms of HIF. The alpha subunit is proteasomally regulated in the presence of oxygen by hydroxylation of the proline in the LXXLAP motif of the oxygen dependent degradation (ODD) domain of HIFalpha, catalysed by members of the prolyl hydroxylase domain (PHD) family of enzymes. This allows the von Hippel Lindau (VHL) protein to associate with the alpha subunit, which is subsequently tagged with ubiquitin and degraded by the proteasome. Any defect in the oxygen sensing pathway that allows the alpha subunit to escape proteasomal regulation leads to elevated expression of HIF target genes.
Recently mutations in both VHL and PHD2 have been identified in a cohort of patients with erythrocytosis, but no mutations were found in the ODD domain of HIF1alpha. Instead, investigation of the homologous region in HIF-2alpha revealed four different mutations, Pro534Leu, Met535Val, Gly537Arg and Gly537Trp in seven individuals/families. Affected individuals presented at a young age with elevated serum Epo. Several individuals have a clinical history of thrombosis, but no evidence of a von Hippel Lindau-like syndrome.
To define how the four mutations relate to the erythrocytosis phenotype functional assays were performed in vitro. Binding of PHD2 to the four HIF-2alpha mutants was impaired to varying degrees, with both the Gly537 mutants showing the greatest reduction. The association of VHL with the hydroxylated Met535Val mutant peptide was similar to wild type HIF-2alpha, but was decreased in the other three HIF-2alpha mutants. Expression of three HIF-2alpha target genes, adrenomedullin, NDRG1 and VEGF, was significantly up-regulated in cells stably transfected with the mutants under normoxia compared to wild type HIF-2alpha.
Mutations in the ODD domain of HIF-2alpha disrupt proteasomal regulation by reducing the association with PHD2 and hence hydroxylation. Furthermore the binding of VHL is also impaired, even when HIF-2alpha is hydroxylated. Examination of the three-dimensional structure of hydroxylated HIF-1alpha bound to VHL confirms that amino acids close to site of hydroxylation (Pro-531 in isoform 2) are important for this association. These observations, together with recent studies utilising murine models of erythrocytosis, support the PHD2-HIF-2alpha-VHL axis as the major regulator of erythropoietin.
Disclosures: Lee: Glaxo Smith Kline: Research Funding.
*signifies non-member of ASH
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