Different SUMO Paralogs Determine the Fate of WT and Mutant CFTRs: Biogenesis vs. Degradation

A pathway for CFTR degradation is initiated by Hsp27 which cooperates with Ubc9 and binds to the common F508del mutant to modify it with SUMO-2/3. These SUMO paralogs form poly-chains, which are recognized by the ubiquitin ligase, RNF4, for proteosomal degradation. Here, protein array analysis identified the SUMO E3, PIAS4, which increased WT and F508del CFTR biogenesis in CFBE airway cells. PIAS4 increased immature CFTR three-fold and doubled expression of mature CFTR, detected by biochemical and functional assays. In cycloheximide chase assays, PIAS4 slowed immature F508del degradation 3-fold and stabilized mature WT CFTR at the PM. PIAS4 knockdown reduced WT and F508del CFTR expression by 40-50%, suggesting a physiological role in CFTR biogenesis. PIAS4 modified F508del CFTR with SUMO-1in vivoand reduced its conjugation to SUMO-2/3. These SUMO paralog specific effects of PIAS4 were reproducedin vitrousing purified F508del NBD1 and SUMOylation reaction components. PIAS4 reduced endogenous ubiquitin conjugation to F508del CFTR by ~50%, and blocked the impact of RNF4 on mutant CFTR disposal. These findings indicate that different SUMO paralogs determine the fates of WT and mutant CFTRs, and they suggest that a paralog switch during biogenesis can direct these proteins to different outcomes: biogenesis vs. degradation.