Publications (8) View all
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Article: Ubiquitination in Rho signaling.
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ABSTRACT: The Rho family small GTPases of the Ras superfamily play key roles in regulating diverse signaling pathways that control a myriad of fundamental cellular processes such as cytoskeletal dynamics, cell cycle progression, gene expression, cell polarity, migration and cell transformation. The Rho GTPases cycle between an active GTP-bound and an inactive GDP-bound form, which is controlled by many regulators including GEFs, GAPs and GDIs. Recent studies have revealed a new layer of regulation for Rho GTPases, indicating that several members of the Rho family of small GTPases including RhoA, Rac1, and RhoBTB, as well as the Ras family member Rap1B, are also regulated by the ubiquitin-proteasome pathway, which plays important roles in controlling cell polarity, migration, cell transformation and actin dynamics. Importantly, regulators for Rho GTP-GDP cycling such as RhoGDI and Rho-GEF ECT2 were also found to be modulated by the ubiquitin pathway. In this review, we focus on how ubiquitin signaling guides the fate and function of Rho GTPases and their regulators, especially how the E3 ubiquitin ligase Smurf1 regulates cell polarity and motility through targeting RhoA for ubiquitination and degradation.Current topics in medicinal chemistry 08/2011; 11(23):2879-87. · 4.47 Impact Factor -
Article: Binding of RhoA by the C2 domain of E3 ligase Smurf1 is essential for Smurf1-regulated RhoA ubiquitination and cell protrusive activity.
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ABSTRACT: Smurf1-mediated RhoA ubiquitination and degradation plays key roles in regulation of cell polarity and protrusive activity. However, how Smurf1 recognizes RhoA is still not clear. Here we report that the C2 domain of Smurf1 is necessary and sufficient for binding RhoA, and therefore is crucial for targeting RhoA for ubiquitination. In contrast, the C2 domain is dispensable for Smurf1-mediated ubiquitination of Smad1. Consistent with its biochemical specificity, the C2 domain is essential for Smurf1-regulated protrusion formation but not BMP signaling. Therefore, our study reveals the mechanism of the C2 domain of Smurf1 in substrate selection.FEBS letters 06/2011; 585(14):2199-204. · 3.54 Impact Factor -
Article: Molecular mechanism of the negative regulation of Smad1/5 protein by carboxyl terminus of Hsc70-interacting protein (CHIP).
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ABSTRACT: The transforming growth factor-β (TGF-β) superfamily of ligands signals along two intracellular pathways, Smad2/3-mediated TGF-β/activin pathway and Smad1/5/8-mediated bone morphogenetic protein pathway. The C terminus of Hsc70-interacting protein (CHIP) serves as an E3 ubiquitin ligase to mediate the degradation of Smad proteins and many other signaling proteins. However, the molecular mechanism for CHIP-mediated down-regulation of TGF-β signaling remains unclear. Here we show that the extreme C-terminal sequence of Smad1 plays an indispensable role in its direct association with the tetratricopeptide repeat (TPR) domain of CHIP. Interestingly, Smad1 undergoes CHIP-mediated polyubiquitination in the absence of molecular chaperones, and phosphorylation of the C-terminal SXS motif of Smad1 enhances the interaction and ubiquitination. We also found that CHIP preferentially binds to Smad1/5 and specifically disrupts the core signaling complex of Smad1/5 and Smad4. We determined the crystal structures of CHIP-TPR in complex with the phosphorylated/pseudophosphorylated Smad1 peptides and with an Hsp70/Hsc70 C-terminal peptide. Structural analyses and subsequent biochemical studies revealed that the distinct CHIP binding affinities of Smad1/5 or Smad2/3 result from the nonconservative hydrophobic residues at R-Smad C termini. Unexpectedly, the C-terminal peptides from Smad1 and Hsp70/Hsc70 bind in the same groove of CHIP-TPR, and heat shock proteins compete with Smad1/5 for CHIP interaction and concomitantly suppress, rather than facilitate, CHIP-mediated Smad ubiquitination. Thus, we conclude that CHIP inhibits the signaling activities of Smad1/5 by recruiting Smad1/5 from the functional R-/Co-Smad complex and further promoting the ubiquitination/degradation of Smad1/5 in a chaperone-independent manner.Journal of Biological Chemistry 03/2011; 286(18):15883-94. · 4.77 Impact Factor -
Article: Autoinhibition of the HECT-type ubiquitin ligase Smurf2 through its C2 domain.
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ABSTRACT: Ubiquitination of proteins is an abundant modification that controls numerous cellular processes. Many Ubiquitin (Ub) protein ligases (E3s) target both their substrates and themselves for degradation. However, the mechanisms regulating their catalytic activity are largely unknown. The C2-WW-HECT-domain E3 Smurf2 downregulates transforming growth factor-beta (TGF-beta) signaling by targeting itself, the adaptor protein Smad7, and TGF-beta receptor kinases for degradation. Here, we demonstrate that an intramolecular interaction between the C2 and HECT domains inhibits Smurf2 activity, stabilizes Smurf2 levels in cells, and similarly inhibits certain other C2-WW-HECT-domain E3s. Using NMR analysis the C2 domain was shown to bind in the vicinity of the catalytic cysteine, where it interferes with Ub thioester formation. The HECT-binding domain of Smad7, which activates Smurf2, antagonizes this inhibitory interaction. Thus, interactions between C2 and HECT domains autoinhibit a subset of HECT-type E3s to protect them and their substrates from futile degradation in cells.Cell 09/2007; 130(4):651-62. · 32.40 Impact Factor -
Article: Degradation of RhoA by Smurf1 ubiquitin ligase.
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ABSTRACT: The Rho family of small GTPases plays a key role in the dynamic regulation of the actin cytoskeleton that underlies various important cellular functions such as shape changes, migration, and polarity. We found that Smurf1, a HECT domain E3 ubiquitin ligase, could specifically target RhoA but not Cdc42 or Rac1 for degradation. Smurf1 interacts with the dominant inactive form of RhoA, RhoA N19, which binds constitutively to guanine nucleotide exchange factors (GEFs) in vivo. Smurf1 also interacts directly with either nucleotide-free or GDP-bound RhoA in vitro; however, loading with GTPgammaS inhibits the interaction. RhoA is ubiquitinated by wild-type Smurf1 but not the catalytic mutant of Smurf1 (C699A) in vivo and in vitro, indicating that RhoA is a direct substrate of Smurf1. In this chapter, we summarize the systems and methods used in the analyses of Smurf1-regulated RhoA ubiquitination and degradation.Methods in Enzymology 02/2006; 406:437-47. · 2.04 Impact Factor
