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1.
Cullin RING ligases (CRLs) constitute the largest family of ubiquitin ligases with diverse cellular functions. Conjugation of the ubiquitin-like molecule Nedd8 to a conserved lysine residue on the cullin scaffold is essential for the activity of CRLs. Using structural studies and in vitro assays, it has been demonstrated that neddylation stimulates CRL activity through conformational rearrangement of the cullin C-terminal winged-helix B domain and Rbx1 RING subdomain from a closed architecture to an open and dynamic structure, thus promoting ubiquitin transfer onto the substrate. Here, we tested whether the proposed mechanism operates in vivo in intact cells and applies to other CRL family members. To inhibit cellular neddylation, we used a cell line with tetracycline-inducible expression of a dominant-negative form of the Nedd8 E2 enzyme or treatment of cells with the Nedd8 E1 inhibitor MLN4924. Using these cellular systems, we show that different mutants of Cul2 and Cul3 and of Rbx1 that confer increased Rbx1 flexibility mimic neddylation and rescue CRL activity in intact cells. Our findings indicate that in vivo neddylation functions by inducing conformational changes in the C-terminal domain of Cul2 and Cul3 that free the RING domain of Rbx1 and bridge the gap for ubiquitin transfer onto the substrate.  相似文献   

2.
The conjugation of proteins with the ubiquitin-like protein Nedd8 is an essential cellular process and an important anti-cancer therapeutic target. The major known role of Nedd8 is the attachment to and activation of Cullin RING E3 ubiquitin ligases (CRL). The attachment of Nedd8 to its substrates occurs via a process analogous to ubiquitin transfer, involving a Nedd8 E1 activating enzyme and a Nedd8 E2 conjugating enzyme, Ubc12, which transfers Nedd8 onto lysine residues of target proteins. In this study, we utilize dominant-negative Ubc12 (dnUbc12) and the Nedd8 E1 inhibitor MLN4924 to inhibit cellular neddylation. We demonstrate that dnUbc12 functions by depleting cellular Nedd8 concentrations. Inhibition of cellular neddylation leads to rapid accumulation of CRL substrates and an enlarged and flattened morphology in HEK293 cells. Inhibiting Nedd8 conjugation also causes abnormalities in the actin cytoskeleton. This is likely at least partially mediated via accumulation of the small GTPase RhoA, a recently identified CRL substrate. We indeed found that siRNA mediated knockdown of RhoA can reverse the morphological changes observed upon inhibition of cellular neddylation. In conclusion, the Nedd8 pathway plays an important role in regulating the actin cytoskeleton and cellular morphology. Dysfunction of the actin cytoskeleton may contribute to the anti-cancer effect of Nedd8 inhibition.  相似文献   

3.
Cullin-based E3 ubiquitin ligases are activated through modification of the cullin subunit with the ubiquitin-like protein Nedd8. Dcn1 regulates cullin neddylation and thus ubiquitin ligase activity. Here we describe the 1.9 A X-ray crystal structure of yeast Dcn1 encompassing an N-terminal ubiquitin-binding (UBA) domain and a C-terminal domain of unique architecture, which we termed PONY domain. A conserved surface on Dcn1 is required for direct binding to cullins and for neddylation. The reciprocal binding site for Dcn1 on Cdc53 is located approximately 18 A from the site of neddylation. Dcn1 does not require cysteine residues for catalytic function, and directly interacts with the Nedd8 E2 Ubc12 on a surface that overlaps with the E1-binding site. We show that Dcn1 is necessary and sufficient for cullin neddylation in a purified recombinant system. Taken together, these data demonstrate that Dcn1 is a scaffold-like E3 ligase for cullin neddylation.  相似文献   

4.
Cullin-based E3 ligases are a large family of ubiquitin ligases with diverse cellular functions. They are composed of one of six mammalian cullin homologues, the Ring finger containing protein Roc1/Rbx1 and cullin homologue-specific adapter and substrate recognition subunits. To be active, cullin-based ligases require the covalent modification of a conserved lysine residue in the cullin protein with the ubiquitin-like protein Nedd8. To characterize this family of E3 ligases in intact cells, we generated a cell line with tetracycline-inducible expression of a dominant-negative mutant of the Nedd8-conjugating enzyme Ubc12, a reported inhibitor of cullin neddylation. Using this cell line, we demonstrate that the substrate recognition subunit Skp2 and the adaptor protein Skp1 are subject to Ubc12-dependent autoubiquitination and degradation. In contrast, cullin protein stability is not regulated by neddylation in mammalian cells. We also provide evidence that Cul1 and Cul3, as well as their associated substrate recognition subunits Skp2 and Keap1, respectively, homooligomerize in intact cells, suggesting that cullin-based ligases are dimeric. Cul3, but not Cul1 homooligomerization is dependent on substrate recognition subunit dimer formation. As shown for other E3 ubiquitin ligases, dimerization may play a role in regulating the activity of cullin-based E3 ligases.  相似文献   

5.
Substrate-mediated regulation of cullin neddylation   总被引:1,自引:0,他引:1  
  相似文献   

6.
Cycle inhibiting factor (Cif) is produced by pathogenic intracellular bacteria and injected into the host cells via a type III secretion system. Cif is known to interfere with the eukaryotic cell cycle by inhibiting the function of cullin RING E3 ubiquitin ligases (CRLs). Cullin proteins form the scaffold protein of CRLs and are modified with the ubiquitin-like protein Nedd8, which exerts important conformational control required for CRL activity. Cif has recently been shown to catalyze the deamidation of Gln40 in Nedd8 to Glu. Here, we addressed how Nedd8 deamidation inhibits CRL activity. Our results indicate that Burkholderia pseudomallei Cif (also known as CHBP) inhibits the deconjugation of Nedd8 in vivo by inhibiting binding of the deneddylating COP9 signalosome (CSN) complex. We provide evidence that the reduced binding of CSN and the inhibition of CRL activity by Cif are due to interference with Nedd8-induced conformational control, which is dependent on the interaction between the Nedd8 hydrophobic patch and the cullin winged-helix B subdomain. Of note, mutation of Gln40 to Glu in ubiquitin, an additional target of Cif, inhibits the interaction between the hydrophobic surface of ubiquitin and the ubiquitin-binding protein p62/SQSTM1, showing conceptually that Cif activity can impair ubiquitin/ubiquitin-like protein non-covalent interactions. Our results also suggest that Cif may exert additional cellular effects by interfering with the association between ubiquitin and ubiquitin-binding proteins.  相似文献   

7.
In ubiquitination, cullin-RING E3 ubiquitin ligases (CRLs) assist in ubiquitin transfer from ubiquitin-conjugating enzyme E2 to the substrate. Neddylation, which involves NEDD8 transfer from E2 to E3-cullin, stimulates ubiquitination by inducing conformational change in CRLs. However, deneddylation, which removes NEDD8 from cullin, does not suppress ubiquitination in vivo, raising the question of how neddylation/deneddylation exerts its effects. Using molecular-dynamics simulations, we demonstrate that before neddylation occurs, the linker flexibility of Rbx1, a CRL component, leads to conformational changes in CRLs that allow neddylation and initiation of ubiquitination. These large NEDD8-induced conformational changes are retained after deneddylation, allowing both initiation of the ubiquitination process and ubiquitin chain elongation after deneddylation. Furthermore, mutation of lysine, the cullin residue to which NEDD8 covalently attaches, dramatically reduces CRL conformational changes, suggesting that the acceptor lysine allosterically regulates CRLs. Thus, our results imply that neddylation stimulates ubiquitination by CRL conformational control via lysine modification.  相似文献   

8.
Cullin RING ligases (CRLs) are the largest family of cellular E3 ubiquitin ligases and mediate polyubiquitination of a number of cellular substrates. CRLs are activated via the covalent modification of the cullin protein with the ubiquitin-like protein Nedd8. This results in a conformational change in the cullin carboxy terminus that facilitates the ubiquitin transfer onto the substrate. COP9 signalosome (CSN)-mediated cullin deneddylation is essential for CRL activity in vivo. However, the mechanism through which CSN promotes CRL activity in vivo is currently unclear. In this paper, we provide evidence that cullin deneddylation is not intrinsically coupled to substrate polyubiquitination as part of the CRL activation cycle. Furthermore, inhibiting substrate-receptor autoubiquitination is unlikely to account for the major mechanism through which CSN regulates CRL activity. CSN also did not affect recruitment of the substrate-receptor SPOP to Cul3, suggesting it may not function to facilitate the exchange of Cul3 substrate receptors. Our results indicate that CSN binds preferentially to CRLs in the neddylation-induced, active conformation. Binding of the CSN complex to active CRLs may recruit CSN-associated proteins important for CRL regulation. The deneddylating activity of CSN would subsequently promote its own dissociation to allow progression through the CRL activation cycle.  相似文献   

9.
The expression of the ubiquitin related protein Nedd8/RUB is essential for growth in most organisms. Nedd8/RUB has been shown to modify the cullin subunit of culling-based ubiquitin protein ligases (E3). Neddylation acts to regulate the function of these E3s and organisms with lesions in the neddylation process exhibit severe growth defects. In this review we describe the proteins that participate in neddylation and discuss a model for Nedd8/RUB regulation of ubiquitin ligase function.  相似文献   

10.
BACKGROUND: SCF (Skp1-Cullin-F-box) complexes are a major class of E3 ligases that are required to selectively target substrates for ubiquitin-dependent degradation by the 26S proteasome. Conjugation of the ubiquitin-like protein Nedd8 to the cullin subunit (neddylation) positively regulates activity of SCF complexes, most likely by increasing their affinity for the E2 conjugated to ubiquitin. The Nedd8 conjugation pathway is required in C. elegans embryos for the ubiquitin-mediated degradation of the microtubule-severing protein MEI-1/Katanin at the meiosis-to-mitosis transition. Genetic experiments suggest that this pathway controls the activity of a CUL-3-based E3 ligase. Counteracting the Nedd8 pathway, the COP9/signalosome has been shown to promote deneddylation of the cullin subunit. However, little is known about the role of neddylation and deneddylation for E3 ligase activity in vivo. RESULTS: Here, we identified and characterized the COP9/signalosome in C. elegans and showed that it promotes deneddylation of CUL-3, a critical target of the Nedd8 conjugation pathway. As in other species, the C. elegans signalosome is a macromolecular complex containing at least six subunits that localizes in the nucleus and the cytoplasm. Reducing COP9/signalosome function by RNAi results in a failure to degrade MEI-1, leading to severe defects in microtubule-dependent processes during the first mitotic division. Intriguingly, reducing COP9/signalosome function suppresses a partial defect in the neddylation pathway; this suppression suggests that deneddylation and neddylation antagonize each other. CONCLUSIONS: We conclude that both neddylation and deneddylation of CUL-3 is required for MEI-1 degradation and propose that cycles of CUL-3 neddylation and deneddylation are necessary for its ligase activity in vivo.  相似文献   

11.
Neddylation is a posttranslational modification that attaches ubiquitin-like protein Nedd8 to protein targets via Nedd8-specific E1-E2-E3 enzymes and modulates many important biological processes. Nedd8 attaches to a lysine residue of a substrate, not for degradation, but for modulation of substrate activity. We previously identified the HECT-type ubiquitin ligase Smurf1, which controls diverse cellular processes, is activated by Nedd8 through covalent neddylation. Smurf1 functions as a thioester bond-type Nedd8 ligase to catalyze its own neddylation. Numerous ubiquitination substrates of Smurf1 have been identified, but the neddylation substrates of Smurf1 remain unknown. Here, we show that Smurf1 interacts with RRP9, a core component of the U3 snoRNP complex, which is involved in pre-rRNA processing. Our in vivo and in vitro neddylation modification assays show that RRP9 is conjugated with Nedd8. RRP9 neddylation is catalyzed by Smurf1 and removed by the NEDP1 deneddylase. We identified Lys221 as a major neddylation site on RRP9. Deficiency of RRP9 neddylation inhibits pre-rRNA processing and leads to downregulation of ribosomal biogenesis. Consequently, functional studies suggest that ectopic expression of RRP9 promotes tumor cell proliferation, colony formation, and cell migration, whereas unneddylated RRP9, K221R mutant has no such effect. Furthermore, in human colorectal cancer, elevated expression of RRP9 and Smurf1 correlates with cancer progression. These results reveal that Smurf1 plays a multifaceted role in pre-rRNA processing by catalyzing RRP9 neddylation and shed new light on the oncogenic role of RRP9.  相似文献   

12.
The deoxynucleoside triphosphohydrolase SAMHD1 restricts retroviral replication in myeloid cells. Human immunodeficiency virus type 2 (HIV-2) and a simian immunodeficiency virus from rhesus macaques (SIVmac) encode Vpx, a virion-packaged accessory protein that counteracts SAMHD1 by inducing its degradation. SAMHD1 is thought to work by depleting the pool of intracellular deoxynucleoside triphosphates but has also been reported to have exonuclease activity that could allow it to degrade the viral genomic RNA or viral reverse-transcribed DNA. To induce the degradation of SAMHD1, Vpx co-opts the cullin4a-based E3 ubiquitin ligase, CRL4. E3 ubiquitin ligases are regulated by the covalent attachment of the ubiquitin-like protein Nedd8 to the cullin subunit. Neddylation can be prevented by MLN4924, a drug that inhibits the nedd8-activating enzyme. We report that MLN4924 inhibits the neddylation of CRL4, blocking Vpx-induced degradation of SAMHD1 and maintaining the restriction. Removal of the drug several hours postinfection released the block. Similarly, Vpx-containing virus-like particles and deoxynucleosides added to the cells more than 24 h postinfection released the SAMHD1-mediated block. Taken together, these findings support deoxynucleoside triphosphate pool depletion as the primary mechanism of SAMHD1 restriction and argue against a nucleolytic mechanism, which would not be reversible.  相似文献   

13.
Neddylation, a post-translational modification that conjugates an ubiquitin-like protein NEDD8 to substrate proteins, is an important biochemical process that regulates protein function. The best-characterized substrates of neddylation are the cullin subunits of Cullin-RING ligases (CRLs), which, as the largest family of E3 ubiquitin ligases, control many important biological processes, including tumorigenesis, through promoting ubiquitylation and subsequent degradation of a variety of key regulatory proteins. Recently, increasing pieces of experimental evidence strongly indicate that the process of protein neddylation modification is elevated in multiple human cancers, providing sound rationale for its targeting as an attractive anticancer therapeutic strategy. Indeed, neddylation inactivation by MLN4924 (also known as pevonedistat), a small molecule inhibitor of E1 NEDD8-activating enzyme currently in phase I/II clinical trials, exerts significant anticancer effects by inducing cell cycle arrest, apoptosis, senescence and autophagy in a cell-type and context dependent manner. Here, we summarize the latest progresses in the field with a major focus on preclinical studies in validation of neddylation modification as a promising anticancer target.  相似文献   

14.
Saifee NH  Zheng N 《Cell》2008,135(2):209-211
Modification of cullin-RING ubiquitin ligases by the ubiquitin-like molecule Nedd8 promotes substrate ubiquitination. A crystal structure of a cullin modified by Nedd8 recently reported in Cell (Duda et al., 2008) and a biochemical study in Molecular Cell (Saha and Deshaies, 2008) reveal the dramatic impact on the ligase machinery by conjugation of ubiquitin or ubiquitin-like proteins.  相似文献   

15.
Cullin-RING ubiquitin ligases (CRLs), which comprise the largest class of E3 ligases, regulate diverse cellular processes by targeting numerous proteins. Conjugation of the ubiquitin-like protein Nedd8 with Cullin activates CRLs. Cullin-associated and neddylation-dissociated 1 (Cand1) is known to negatively regulate CRL activity by sequestering unneddylated Cullin1 (Cul1) in biochemical studies. However, genetic studies of Arabidopsis have shown that Cand1 is required for optimal CRL activity. To elucidate the regulation of CRLs by Cand1, we analyzed a Cand1 mutant in Drosophila. Loss of Cand1 causes accumulation of neddylated Cullin3 (Cul3) and stabilizes the Cul3 adaptor protein HIB. In addition, the Cand1 mutation stimulates protein degradation of Cubitus interruptus (Ci), suggesting that Cul3-RING ligase activity is enhanced by the loss of Cand1. However, the loss of Cand1 fails to repress the accumulation of Ci in Nedd8AN015 or CSN5null mutant clones. Although Cand1 is able to bind both Cul1 and Cul3, mutation of Cand1 suppresses only the accumulation of Cul3 induced by the dAPP-BP1 mutation defective in the neddylation pathway, and this effect is attenuated by inhibition of proteasome function. Furthermore, overexpression of Cand1 stabilizes the Cul3 protein when the neddylation pathway is partially suppressed. These data indicate that Cand1 stabilizes unneddylated Cul3 by preventing proteasomal degradation. Here, we propose that binding of Cand1 to unneddylated Cul3 causes a shift in the equilibrium away from the neddylation of Cul3 that is required for the degradation of substrate by CRLs, and protects unneddylated Cul3 from proteasomal degradation. Cand1 regulates Cul3-mediated E3 ligase activity not only by acting on the neddylation of Cul3, but also by controlling the stability of the adaptor protein and unneddylated Cul3.  相似文献   

16.
Conjugation of Nedd8 to a cullin protein, termed neddylation, is an evolutionarily conserved process that functions to activate the cullin-RING family E3 ubiquitin ligases, leading to increased proteasomal degradation of a wide range of substrate proteins. Recent emerging evidence demonstrates that cellular neddylation requires the action of Dcn1, which, in humans, consists of five homologues designated as hDCNL1-5. Here we revealed a previously unknown mechanism that regulates hDCNL1. In cultured mammalian cells ectopically expressed hDCNL1 was mono-ubiquitinated predominantly at K143, K149, and K171. Using a classical chromatographic purification strategy, we identified Nedd4-1 as an E3 ligase that can catalyze mono-ubiquitination of hDCNL1 in a reconstituted ubiquitination system. In addition, the hDCNL1 N-terminal ubiquitin-binding domain is necessary and sufficient to mediate mono-ubiquitination. Finally, fluorescence microscopic and subcellular fractionation analyses revealed a role for mono-ubiquitination in driving nuclear export of hDCNL1. Taken together, these results suggest a mono-ubiquitination-mediated mechanism that governs nuclear-cytoplasmic trafficking of hDCNL1, thereby regulating hDCNL1-dependent activation of the cullin-RING E3 ubiquitin ligases in selected cellular compartments.  相似文献   

17.
18.
Skp1-Cdc53/Cul1-F-box (SCF) complexes constitute a class of E3 ubiquitin ligases. Recently, a multiprotein complex containing pVHL, elongin C and Cul2 (VEC) was shown to structurally and functionally resemble SCF complexes. Cdc53 and the Cullins can become covalently linked to the ubiquitin-like molecule Rub1/NEDD8. Inhibition of neddylation inhibits SCF function in vitro and in yeast and plants. Here we show that ongoing neddylation is likewise required for VEC function in vitro and for the degradation of SCF and VEC targets in mammalian cells. Thus, neddylation regulates the activity of two specific subclasses of mammalian ubiquitin ligases.  相似文献   

19.
Neddylation, a process that conjugates the ubiquitin-like polypeptide NEDD8 to cullin proteins, activates cullin-RING ubiquitin ligases (CRLs). Deneddylation, in which the COP9 signalosome (CSN) removes NEDD8 from cullins, inactivates CRLs. However, genetic studies of CSN function conclude that deneddylation also promotes CRL activity. It has been proposed that a cyclic transition through neddylation and deneddylation is required for the regulation of CRL activity in vivo. Recent discoveries suggest that an additional level of complexity exists, whereby CRL components are targets for degradation, mediated either by autocatalytic ubiquitination or by unknown mechanisms. Deneddylation by CSN and deubiquitylation by CSN-associated ubiquitin-specific protease 12 protect CRL components from cellular depletion, thus maintaining the physiological CRL activities.  相似文献   

20.
In concert with the ubiquitin (Ub) proteasome system (UPS) the COP9 signalosome (CSN) controls the stability of cellular regulators. The CSN interacts with cullin-RING Ub ligases (CRLs) consisting of a specific cullin, a RING protein as Rbx1 and substrate recognition proteins. The Ub-like protein Nedd8 is covalently linked to cullins and removed by the CSN-mediated deneddylation. Cycles of neddylation and deneddylation regulate CRLs. Apoptotic stimuli cause caspase-dependent modifications of the UPS. However, little is known about the CSN during apoptosis. We demonstrate in vitro and in vivo that CSN6 is cleaved most effectively by caspase 3 at D23 after 2–3 h of apoptosis induced by anti-Fas-Ab or etoposide. CSN6 processing occurs in CSN–CRL complexes and is followed by the cleavage of Rbx1, the direct interaction partner of CSN6. Caspase-dependent cutting of Rbx1 is accompanied by decrease of neddylated proteins in Jurkat T cells. Another functional consequence of CSN6 cleavage is the enhancement of CSN-mediated deneddylating activity causing deneddylation of cullin 1 in cells. The CSN-associated deubiquitinating as well as kinase activity remained unchanged in presence of active caspase 3. The cleavage of Rbx1 and increased deneddylation of cullins inactivate CRLs and presumably stabilize pro-apoptotic factors for final apoptotic steps. Bettina K. J. Hetfeld and Andreas Peth contributed equally.  相似文献   

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