M. Brett Waddell scite author profile

SUMMARY In the largest E3 ligase subfamily, Cul3 binds a BTB domain, and an associated protein-interaction domain such as MATH recruits substrates for ubiquitination. Here we present biochemical and structural analyses of the MATH-BTB protein, SPOP. We define a SPOP-binding consensus (SBC), and determine structures revealing recognition of SBCs from the phosphatase Puc, the transcriptional regulator Ci, and the chromatin component MacroH2A. We identify a dimeric SPOP-Cul3 assembly involving a conserved helical structure C-terminal of BTB domains, which we call “3-box” due to its facilitating Cul3-binding and its resemblance to F-/SOCS-boxes in other cullin-based E3s. Structural flexibility between the substrate-binding MATH and Cul3-binding BTB/3-box domains potentially allows a SPOP dimer to engage multiple SBCs found within a single substrate, such as Puc. These studies provide a molecular understanding of how MATH-BTB proteins recruit substrates to Cul3, and how their dimerization and conformational variability may facilitate avid interactions with diverse substrates.

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Cdk-Inhibitory Activity and Stability of p27 Are Directly Regulated by Oncogenic Tyrosine Kinases

Grimmler

Wang

Mund

et al. 2007

Cell

323

437

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p27Kip1 controls cell proliferation by binding to and regulating the activity of cyclin-dependent kinases (Cdks). Here we show that Cdk inhibition and p27 stability are regulated through direct phosphorylation by tyrosine kinases. A conserved tyrosine residue (Y88) in the Cdk-binding domain of p27 can be phosphorylated by the Src-family kinase Lyn and the oncogene product BCR-ABL. Y88 phosphorylation does not prevent p27 binding to cyclin A/Cdk2. Instead, it causes phosphorylated Y88 and the entire inhibitory 3(10)-helix of p27 to be ejected from the Cdk2 active site, thus restoring partial Cdk activity. Importantly, this allows Y88-phosphorylated p27 to be efficiently phosphorylated on threonine 187 by Cdk2 which in turn promotes its SCF-Skp2-dependent degradation. This direct link between transforming tyrosine kinases and p27 may provide an explanation for Cdk kinase activities observed in p27 complexes and for premature p27 elimination in cells that have been transformed by activated tyrosine kinases.

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Catalysis and Sulfa Drug Resistance in Dihydropteroate Synthase

Yun

et al. 2012

Science

185

222

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The sulfonamide antibiotics inhibit dihydropteroate synthase (DHPS), a key enzyme in the folate pathway of bacteria and primitive eukaryotes. However, resistance mutations have severely compromised the usefulness of these drugs. Here, we report structural, computational and mutagenesis studies on the catalytic and resistance mechanisms of DHPS. By performing the enzyme-catalyzed reaction in crystalline DHPS, we have structurally characterized key intermediates along the reaction pathway. Results support an SN1 reaction mechanism via formation of a novel cationic pterin intermediate. We also show that two conserved loops generate a substructure during catalysis that creates a specific binding pocket for p-aminobenzoic acid, one of the two DHPS substrates. This substructure, together with the pterin-binding pocket, explains the roles of the conserved active site residues, and reveals how sulfonamide resistance arises.

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The UbcH8 ubiquitin E2 enzyme is also the E2 enzyme for ISG15, an IFN-α/β-induced ubiquitin-like protein

Zhao

Beaudenon

Kelley

et al. 2004

Proc. Natl. Acad. Sci. U.S.A.

276

211

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Ubiquitin-(Ub) like proteins (Ubls) are conjugated to their targets by an enzymatic cascade involving an E1 activating enzyme, an E2 conjugating enzyme, and in some cases an E3 ligase. ISG15 is a Ubl that is conjugated to cellular proteins after IFN-␣͞␤ stimulation. Although the E1 enzyme for ISG15 (Ube1L͞E1 ISG15 ) has been identified, the identities of the downstream components of the ISG15 conjugation cascade have remained elusive. Here we report the purification of an E2 enzyme for ISG15 and demonstrate that it is UbcH8, an E2 that also functions in Ub conjugation. In vitro assays with purified Ub E2 enzymes and in vivo RNA interference assays indicate that UbcH8 is a major E2 enzyme for ISG15 conjugation. These results indicate that the ISG15 conjugation pathway overlaps or converges with the Ub conjugation pathway at the level of a specific E2 enzyme. Furthermore, these results raise the possibility that the ISG15 conjugation pathway might use UbcH8-competent Ub ligases in vivo. As an initial test of this hypothesis, we have shown that a UbcH8-competent Ub ligase conjugates ISG15 to a specific target in vitro. These results challenge the concept that Ub and Ubl conjugation pathways are strictly parallel and nonoverlapping and have important implications for understanding the regulation and function of ISG15 conjugation in the IFN-␣͞␤ response. IFN-␣͞␤ play an essential role in innate immunity and are induced during many types of viral infections (1). Many genes are transcriptionally induced by IFN-␣͞␤, including ISG15 (IFNstimulated gene, 15 kDa) (2, 3). The ISG15 protein is a 15-kDa ubiquitin (Ub)-like protein (Ubl), consisting of two Ub-related domains, Ϸ30% (N-terminal domain) and 36% (C-terminal domain) identical to Ub. ISG15 becomes conjugated to a diverse set of cellular proteins after IFN-␣͞␤ stimulation (4). Although the biochemical consequences of ISG15 conjugation and the fate of the conjugated proteins are not known, it does not appear that ISG15 targets proteins for proteasomal degradation (5, 6).Conjugation of Ub to target proteins requires the cooperative activities of at least three classes of enzymes (7). The ATPdependent E1 enzyme activates Ub by C-terminal adenylation, followed by formation of a high-energy thioester bond between the terminal carboxylate of Ub and the active-site cysteine of E1. Ub is then transferred to the active-site cysteine of one of a number of related E2 enzymes. E3 enzymes then promote transfer of Ub from the E2 to the substrate, resulting in a stable amide bond between -amino groups of lysine side chains and Ub. E3 enzymes are the primary determinants of substrate specificity and can be divided into two classes based on mechanism. HECT E3s accept Ub from the E2 enzyme, again in the form of a thioester adduct, and transfer Ub from their active-site cysteine to the bound substrate (8). RING E3s consist of several subclasses and are either single or multisubunit enzymes that serve as docking proteins for both protein substrates and activated E2 enzymes, with transfe...

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Structural Basis for Recruitment of Ubc12 by an E2 Binding Domain in NEDD8's E1

et al. 2005

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E2 conjugating enzymes play a central role in ubiquitin and ubiquitin-like protein (ublp) transfer cascades: the E2 accepts the ublp from the E1 enzyme and then the E2 often interacts with an E3 enzyme to promote ublp transfer to the target. We report here the crystal structure of a complex between the C-terminal domain from NEDD8's heterodimeric E1 (APPBP1-UBA3) and the catalytic core domain of NEDD8's E2 (Ubc12). The structure and associated mutational analyses reveal molecular details of Ubc12 recruitment by NEDD8's E1. Interestingly, the E1's Ubc12 binding domain resembles ubiquitin and recruits Ubc12 in a manner mimicking ubiquitin's interactions with ubiquitin binding domains. Structural comparison with E2-E3 complexes indicates that the E1 and E3 binding sites on Ubc12 may overlap and raises the possibility that crosstalk between E1 and E3 interacting with an E2 could influence the specificity and processivity of ublp transfer.

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Structure of a Glomulin-RBX1-CUL1 Complex: Inhibition of a RING E3 Ligase through Masking of Its E2-Binding Surface

et al. 2012

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Summary The ~300 human Cullin-RING ligases (CRLs) are multisubunit E3s in which a RING protein, either RBX1 or RBX2, recruits an E2 to catalyze ubiquitination. RBX1-containing CRLs also can bind Glomulin (GLMN), which binds RBX1’s RING domain, regulates the RBX1-CUL1-containing SCFFBW7 complex, and is disrupted in the disease Glomuvenous Malformation. Here we report the crystal structure of a complex between GLMN, RBX1, and a fragment of CUL1. Structural and biochemical analyses reveal that GLMN adopts a HEAT-like repeat fold that tightly binds the E2-interacting surface of RBX1, inhibiting CRL-mediated chain formation by the E2 CDC34. The structure explains the basis for GLMN’s selectivity toward RBX1 over RBX2, and how disease-associated mutations disrupt GLMN-RBX1 interactions. Our study reveals a mechanism for RING E3 ligase regulation whereby an inhibitor blocks E2 access, and raises the possibility that other E3s are likewise controlled by cellular proteins that mask E2-binding surfaces to mediate inhibition.

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A short linear motif in BNIP3L (NIX) mediates mitochondrial clearance in reticulocytes

et al. 2012

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Thermodynamic benchmark study using Biacore technology

Navrátilová

Papalia

Rich

et al. 2007

Analytical Biochemistry

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M. Brett Waddell

Structures of SPOP-Substrate Complexes: Insights into Molecular Architectures of BTB-Cul3 Ubiquitin Ligases

Cdk-Inhibitory Activity and Stability of p27 Are Directly Regulated by Oncogenic Tyrosine Kinases

Catalysis and Sulfa Drug Resistance in Dihydropteroate Synthase

The UbcH8 ubiquitin E2 enzyme is also the E2 enzyme for ISG15, an IFN-α/β-induced ubiquitin-like protein

Structural Basis for Recruitment of Ubc12 by an E2 Binding Domain in NEDD8's E1

Structure of a Glomulin-RBX1-CUL1 Complex: Inhibition of a RING E3 Ligase through Masking of Its E2-Binding Surface

A short linear motif in BNIP3L (NIX) mediates mitochondrial clearance in reticulocytes

Thermodynamic benchmark study using Biacore technology

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