Germline VHL mutations predispose to hemangioblastomas of the retina, cerebellum, and spinal cord; clear cell renal cell carcinomas (ccRCCs); and paragangliomas. Consistent with the Knudson two-hit model, somatic biallelic VHL mutations are common in sporadic ccRCCs. The VHL gene product nucleates an ubiquitin ligase that targets the alpha subunits of the heterodimeric transcription factor HIF (hypoxia-inducible factor) for proteasomal degradation when oxygen is plentiful. The recognition of HIF↑ by pVHL requires that HIF↑ be hydroxylated on one (or both) of two conserved prolyl residues by the oxygen-dependent EglN (also called PHD) prolyl hydroxylases. HIF↑, bound to HIF↓ (also called ARNT), transcriptionally activates genes that promote adaptation to hypoxia such as VEGF and EPO. Deregulation of HIF, and particularly HIF2, drives pVHL-defective tumorigenesis. EglN inhibitors are being developed for the treatment of anemia and ischemic diseases, whereas HIF2 inhibitors are being developed for the treatment of pVHL-defective tumors. The thalidomide-like drugs ("IMiDs") bind to cereblon, which is the substrate recognition subunit of another ubiquitin ligase that loosely resembles the pVHL ubiquitin ligase. The IMiDs kill multiple myeloma cells by reprogramming the cereblon ligase to earmark the transcription factors IKZF1 and IKZF3 for destruction. This discovery has galvanized interest in developing drugs that degrade otherwise undruggable proteins.
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