POSH Stimulates the Ubiquitination and the Clathrin-independent Endocytosis of ROMK1 Channels

POSH (plenty of SH3) is a scaffold protein that has been shown to act as an E3 ubiquitin ligase. Here we report that POSH stimulates the ubiquitination of Kir1.1 (ROMK) and enhances the internalization of this potassium channel. Immunostaining reveals the expression of POSH in the renal cortical collecting duct. Immunoprecipitation of renal tissue lysate with ROMK antibody and glutathione S-transferase pulldown experiments demonstrated the association between ROMK and POSH. Moreover, immunoprecipitation of lysates of HEK293T cells transfected with ROMK1 or with constructs encoding the ROMK-N terminus or ROMK1-C-Terminus demonstrated that POSH binds to ROMK1 on its N terminus. To study the effect of POSH on ROMK1 channels, we measured potassium currents with electrophysiological methods in HEK293T cells and in oocytes transfected or injected with ROMK1 and POSH. POSH decreased potassium currents, and the inhibitory effect of POSH on ROMK channels was dose-dependent. Biotinylation assay further showed that POSH decreased surface expression of ROMK channels in HEK293T cells transfected with ROMK1 and POSH. The effect of POSH on ROMK1 channels was specific because POSH did not inhibit sodium current in oocytes injected with ENaC-α, β, and γ subunits. Moreover, POSH still decreased the potassium current in oocytes injected with a ROMK1 mutant (R1Δ373–378), in which a clathrin-dependent tyrosine-based internalization signal residing between amino acid residues 373 and 378 is deleted. However, the inhibitory effect of POSH on ROMK channels was absent in cells expressing with dominant negative dynamin and POSHΔRING, in which the RING domain was deleted. Expression of POSH also increased the ubiquitination of ROMK1, whereas expression of POSHΔRING diminished its ubiquitination in HEK293T cells. The notion that POSH may serve as an E3 ubiquitin ligase is also supported by in vitro ubiquitination assays in which adding POSH increased the ROMK ubiquitination. We conclude that POSH inhibits ROMK channels by enhancing dynamin-dependent and clathrin-independent endocytosis and by stimulating ubiquitination of ROMK channels.ROMK channels (Kir1.1) are located in the apical membrane of the epithelial cells of the renal thick ascending limb (TAL)² and the CCD, where they are responsible for potassium recycling across the apical membrane in the TAL and potassium secretion in the CCD (1, 2). The expression of ROMK channels in the plasma membrane in the CCD is regulated by a variety of factors including protein kinases and dietary potassium intake (3–9). For instance, with-no-lysine kinase 4 (WNK4) and Src family protein-tyrosine kinase (PTK) reduce the expression of ROMK channels in the plasma membrane by stimulating dynamin-dependent endocytosis (10, 11). Several studies have demonstrated that potassium restriction decreased, and high potassium intake increased, the ROMK channel expression in the apical membrane of CCD epithelial cells (12, 13). Although the mechanism by which dietary potassium intake regulates surface expression is not completely understood, one possible mechanism is through modulating the ubiquitination of ROMK channels. The role for ubiquitination in regulating channel surface expression and endocytosis is best demonstrated by the observation that NEDD-4, an E3 ligase that contains the HECT domain (homologous to E6-AP C-terminal), regulates the ubiquitination of epithelial sodium channels (ENaC) (14–16). It has been shown that Nedd4 binds to ENaC on a PY motif (XPPXY) and causes channel internalization (17). Nedd-4 has also been reported to be responsible for ubiquitination of channels other than ENaC (18–21). We have previously demonstrated that ROMK1 channels can be monoubiquitinated and ubiquitinated ROMK channels were subjected to endocytosis (22). However, because ROMK channels lack a PY motif, it is unlikely that Nedd4 regulates ROMK channels in this fashion. POSH is a RING (really interesting new gene)-containing scaffold protein and has been suggested to be an E3 ligase for Hrs (hepatocyte growth factor-regulated tyrosine kinase substrate) and Herp (homocystein-induced ER protein), and it has been shown to play an obligate role in cellular production of the human immunodeficiency virus, type 1 virus (23–25). Thus, the aim of the present study is to test whether POSH may act as an E3 ubiquitin ligase for the ubiquitination of ROMK channels.