Ubiquitin Specific Protease 34 (USP34), a New Positive Regulator of Canonical Wnt/β-catenin Signalling

Lui, To-Hang

06 April 2010

The Wnt pathway is a fundamental signalling pathway conserved in all animals, regulating growth, differentiation, embryonic development, and tissue homeostasis in adults. Wnt signalling is kept quiescent by ubiquitin-mediated degradation of the transcription factor β-catenin, orchestrated by a group of proteins called the Destruction Complex. Aberrant Destruction Complex activity is a common theme in many cancers, and is the primary cause of colon cancer. Through mass spectrometry analysis of Axin protein complexes (a key Destruction Complex component) we identified the deubiquitinating enzyme USP34 as an Axin-interacting protein. Functional studies showed USP34 functions to positively regulate Wnt signalling, acting downstream of β-catenin stabilization. While characterizing USP34 we also discovered a new positive regulatory role for Axin in promoting signalling that is dependent on its nuclear localization. Our results suggest that USP34 stabilizes the nuclear pool of Axin through regulating its ubiquitination and offers a potential strategy to target pathological Wnt signalling.

wnt

usp34

dub

axin

ubiquitin specific protease

deubiquitinase

0307

Optimization of an Affinity Purification-mass Spectrometry Pipeline and Characterization of the Rub1p and Smt3p Interactomes

Wheaton, Sarah

31 May 2011

The ubiquitin-like proteins (Ubls) are small polypeptides that function as post-translational modifications. Modification of a protein with a Ubl can alter its localization, activity and/or half-life. SUMO and Rub1p/Nedd8 are two Ubls that play important roles in a number of critical cellular processes, yet their specific cellular functions remain poorly understood. To better understand these important Ubls, we developed a robust affinity purification-mass spectrometry (AP-MS) technique to generate protein-protein interaction maps for the Ubl systems. Each bait was systematically expressed as a C-terminal HA-tagged fusion protein in S. cerevisiae. A standardized method in which affinity purification via the HA epitope, followed by mild washing and mass spectrometric analysis, was performed and the data generated were used to build interaction maps. Affinity purification of the Rub1p E3 ligase Dcn1p identified a novel interaction with the AAA ATPase Cdc48p. This interaction was further studied to determine its biological significance.

Ubiquitin-like Proteins

Affinity Purification-Mass Spectrometry

Dcn1p

Cdc48p

0307

Ubiquitin Specific Protease 34 (USP34), a New Positive Regulator of Canonical Wnt/β-catenin Signalling

Lui, To-Hang

06 April 2010

The Wnt pathway is a fundamental signalling pathway conserved in all animals, regulating growth, differentiation, embryonic development, and tissue homeostasis in adults. Wnt signalling is kept quiescent by ubiquitin-mediated degradation of the transcription factor β-catenin, orchestrated by a group of proteins called the Destruction Complex. Aberrant Destruction Complex activity is a common theme in many cancers, and is the primary cause of colon cancer. Through mass spectrometry analysis of Axin protein complexes (a key Destruction Complex component) we identified the deubiquitinating enzyme USP34 as an Axin-interacting protein. Functional studies showed USP34 functions to positively regulate Wnt signalling, acting downstream of β-catenin stabilization. While characterizing USP34 we also discovered a new positive regulatory role for Axin in promoting signalling that is dependent on its nuclear localization. Our results suggest that USP34 stabilizes the nuclear pool of Axin through regulating its ubiquitination and offers a potential strategy to target pathological Wnt signalling.

wnt

usp34

dub

axin

ubiquitin specific protease

deubiquitinase

0307

Optimization of an Affinity Purification-mass Spectrometry Pipeline and Characterization of the Rub1p and Smt3p Interactomes

Wheaton, Sarah

31 May 2011

The ubiquitin-like proteins (Ubls) are small polypeptides that function as post-translational modifications. Modification of a protein with a Ubl can alter its localization, activity and/or half-life. SUMO and Rub1p/Nedd8 are two Ubls that play important roles in a number of critical cellular processes, yet their specific cellular functions remain poorly understood. To better understand these important Ubls, we developed a robust affinity purification-mass spectrometry (AP-MS) technique to generate protein-protein interaction maps for the Ubl systems. Each bait was systematically expressed as a C-terminal HA-tagged fusion protein in S. cerevisiae. A standardized method in which affinity purification via the HA epitope, followed by mild washing and mass spectrometric analysis, was performed and the data generated were used to build interaction maps. Affinity purification of the Rub1p E3 ligase Dcn1p identified a novel interaction with the AAA ATPase Cdc48p. This interaction was further studied to determine its biological significance.

Ubiquitin-like Proteins

Affinity Purification-Mass Spectrometry

Dcn1p

Cdc48p

0307

The Small Ubiquitin-related Mmodifier in the Stress Response and the Use of Mass Spectrometry/SUMmOn for Identification of Ubiquitin and Ubiquitin-like Protein Conjugation Sites

Jeram, Stanley Martin

03 January 2011

Ubiquitin (Ub) and the ubiquitin-like proteins (Ubls) are polypeptides that can be covalently conjugated to a variety of “target” molecules to modulate their turnover rate, localization and/or function. The full range of Ubl functions is only beginning to be understood. The Raught lab is using mass spectrometry and high throughput screening methods, along with standard cell biology and biochemistry approaches, to better understand Ubl function. Here, I describe the role of a Ubl called small ubiquitin-related modifier (SUMO) in the budding yeast alcohol stress response. We identified a regulatory mechanism of the SUMO system, involving modulation of the localization of a SUMO protease. Secondly, using mass spectrometry (MS), I assisted in identifying several yeast and mammalian Ubl “chain” linkages. Finally, I propose an integrated MS methodology designed to complement standard database software for the confident identification of Ub/Ubl conjugation sites.

SUMO

mass spectrometry

ubiquitin

alcohol stress

NEDD8

SUMmOn

0307

Molecular Characterization of the von Hippel-Lindau Ubiquitin Ligase

Sufan, Roxana Ioana

08 March 2011

Marking proteins for degradation by the proteasome is a classical function of ubiquitination. This process of covalent attachment of a chain of ubiquitin molecules to target proteins is governed by the ubiquitin-activating enzyme (E1), the ubiquitin-conjugating enzyme (E2) and the ubiquitin ligase (E3). The von Hippel-Lindau (VHL) tumour suppressor protein forms an E3 ubiquitin ligase, ECV (Elongins BC/Cul2/VHL), which targets the alpha subunit of hypoxia-inducible factor (HIF) for ubiquitin-mediated destruction under normal oxygen tension. Tumour hypoxia promotes accumulation of HIFalpha, whose expression is associated with cancer progression, poor prognosis and resistance to conventional therapies, thus establishing HIF as a therapeutic target. Notably, VHL is functionally inactivated in VHL disease, a hereditary cancer syndrome characterized by the formation of tumours in multiple organs, as well as in the majority of sporadic clear-cell renal cell carcinomas (CCRCC) and haemangioblastomas. Recently, certain VHL mutations have been shown to cause the congenital disorder Chuvash polycythemia. Work contained in this thesis describes the temporally coordinated activation of the ECV, whereby oxygen-dependent recognition of HIFalpha by VHL triggers Cul2 modification by the ubiquitin-like molecule NEDD8, which enhances ECV ubiquitin ligase activity by recruiting the E2. In addition, the feasibility of ‘bio-tailored’ enzymes in the treatment of cancer is introduced by creating a bioengineered VHL capable of targeting HIFalpha for degradation irrespective of oxygen tension, which leads to the dramatic inhibition of CCRCC tumour growth and angiogenesis in a xenograft model. Furthermore, a ubiquitin ligase composed of two F-box proteins, VHL and suppressor of cytokine signalling 1 (SOCS1), was identified and shown to be paramount for the negative regulation of erythropoiesis by targeting phosphorylated Janus kinase 2 (JAK2) for ubiquitin-mediated destruction. The malfunction of this ubiquitin ligase explains the excessive erythrocytosis observed in Chuvash polycythemia patients and reveals a novel genetic link between the seemingly distinct genes VHL and JAK2 in the development of polycythemia.

VHL

CCRCC

HIF

Polycythemia

Ubiquitin

NEDD8

Cullin

JAK2

0307

Characterization of the E3 Ubiquitin Ligase Pirh2

Tai, Elizabeth

01 September 2010

The p53 tumour suppressor gene is inactivated by mutation in over 50% of all human cancers. The p53 protein is activated and stabilized through several post-translational modifications in response to various stresses and promotes cell cycle arrest and apoptosis. Thus, regulation of p53 is critical for normal cellular function. Pirh2 is a p53-regulated gene recently identified in our laboratory which encodes an E3 RING-finger ubiquitin ligase that binds to p53 and negatively regulates p53 by targeting it for ubiquitin-mediated proteolysis. Pirh2 is similar to another well-characterized E3 RING finger ubiquitin ligase, Mdm2, which also participates in a similar negative feedback loop with p53. At least seven E3 ubiquitin ligases are known to target p53 for degradation and the reason for this functional redundancy is unclear. The purpose of this study is to characterize Pirh2 activity. This study has two aims the first is to identify additional interacting proteins for Pirh2, and the second is to delineate Pirh2 regulation of p53. Using several tandem affinity purification strategies and a GST-pull down approach, we have identified PKC delta as a candidate interacting protein. The second aim is to further characterize Pirh2 regulation of p53. Splenocytes and thymocytes from Pirh2-/- mice demonstrate a subtle increase in total p53 levels after irradiation when compared to wild-type controls. Phosphoserine 15 p53 levels are significantly higher in splenocytes and thymocytes from Pirh2 -/- mice relative to wild-type counterparts. Cells stably transfected with Pirh2 have decreased levels of phosphoserine 15 p53 and decreased induction of p21 relative to vector control and Mdm2 expressing cells. The stability of the p53 protein is primarily regulated through ubiquitin mediated proteolysis, and there are multiple ubiquitin ligases targeting p53 for degradation. Here we are able to address the question of functional redundancy by indicating that Pirh2 can target serine 15 phosphorylated p53 which is reported to not be regulated by Mdm2.

p53

ubiquitination

Pirh2

E3 ubiquitin ligase

0307

0992

Studies on the Expression and Phosphorylation of the USP4 Deubiquitinating Enzyme

Bastarache, Sophie

26 August 2011

The USP4 is a deubiquitinating enzyme found elevated in certain human lung and adrenal tumours. USP4 has a very close relative, USP15, which has caused great difficulty in studying only one or the other. We have had generated two antibodies specific to USP4 and USP15, and have confirmed that the two do not cross react. Although there have been previous findings of interacting partners, possible substrates and pathways in which it is involved, the biological role of USP4 is mostly unknown. We have used these antibodies to determine that USP4 and USP15 expression differs across tissue and cell types, and that expression changes as the organism ages. We have shown that USP4 plays a role in canonical Wnt signaling, perhaps by stabilizing Beta-catenin, and identified GRK2 as a kinase, phosphorylating USP4. These data have provided enough information to form a hypothesis, implicating USP4 with the destruction complex in the Wnt signaling pathway.

USP4

Ubiquitin

Proteasome

B-catenin

Wnt signaling

GRK2

Identification and Functional Studies of Arabidopsis thaliana Ubc13-interacting E3 Ubiquitin Ligases

2012 February 1900

In eukaryotic organisms, polyubiquitination is the modification of a protein with polymerized ubiquitin (Ub) chain. This process is well known for its function in targeting proteins for degradation by the 26S proteasome. However, a polyUb chain assembled through the lysine 63 residue of the Ub moiety (Lys63-linked polyubiquitination) has been shown to play a signaling role rather than targeting proteins for degradation. In plants, the functions of Lys63-linked polyubiquitination are currently not well understood. Ub-protein ligase (E3) catalyzes the last step in the ubiquitination reactions, and to a large extent it also determines the substrate specificity of protein ubiquitination. In order to study the roles of Lys63-linked polyubiquitination in plants, two E3s of Arabidopsis thaliana, proteins encoded by AtCHIP and At1g74370 (tentatively named E3-A1), were chosen for functional studies, since they interacted with AtUbc13A protein. Sequence analysis showed that AtCHIP is the only member in the family. A T-DNA insertion mutant line (Atchip-1) was obtained to study the AtCHIP gene knock-out effect. The mutant line was grown in normal conditions and further tested in a variety of conditions: hormonal treatments, osmotic stress, seed deterioration, high temperature stress, high-intensity light stress, oxidative stress and DNA damaging stress. However, no clear difference was observed between the mutant and wild type plants based on the several parameters measured. Sequence analysis of E3-A1 indicated two closely related proteins, tentatively named E3-A2 and E3-A3. As E3-A1 and E3-A2 appeared to share more sequence similarity, RNA interference (RNAi) transformants, with the level of transcripts for either of the two E3-A genes reduced by over 90% were generated. Selected RNAi mutant lines for E3-A1 and E3-A2 were crossed with each other, and double RNAi mutants were obtained. However, no distinct phenotype was detected under normal, high-sucrose or hormonal conditions for either single or double RNAi lines. Although various assays did not reveal a significant phenotype in the mutants in this study, the materials generated and the assays used will benefit a wider range of phenotypic survey in the future.

Ubiquitin

ligase

Ubc13

lysine 63

Arabidopsis thaliana

AtCHIP

Examination of the effect of the natural plant extract, withaferin A, on heat shock protein gene expression in Xenopus laevis A6 cells

Rammeloo, Ashley

January 2010

In eukaryotes, the ubiquitin-proteasome system (UPS) degrades most cellular protein. Inhibition of the UPS has been associated with different disease states and can affect various intracellular processes including the activation of heat shock protein (hsp) gene expression. During cellular stress, HSPs act as molecular chaperones by inhibiting protein aggregation and assisting in their refolding once normal conditions are re-established. In the present study, Withaferin A (WA), a steroidal lactone with possible anti-inflammatory and antitumor properties, was found to inhibit proteasome activity and induce the expression of hsp genes in the amphibian model system, Xenopus laevis. Treatment of Xenopus kidney epithelial A6 cells with WA produced an increase in the accumulation of ubiquitinated protein and a significant decrease in chymotrypsin-like activity. Furthermore, immunoblot analysis revealed that WA induced HSP30 and HSP70 accumulation. For example, cells treated with 5 μM WA for 18 h resulted in the optimal accumulation of HSP30 and HSP70. Northern blot analysis revealed that exposure of cells to 5 μM WA induced hsp30 and hsp70 mRNA accumulation in a time-dependent manner up to 12 h. The activation of heat shock factor 1 (HSF1) DNA-binding may be involved in WA-induced hsp gene expression in A6 cells, since pretreatment with the HSF1 inhibitor, KNK437, reduced the accumulation of HSP30 and HSP70. Also, WA acted synergistically with mild heat shock to enhance HSP accumulation to a greater extent than the sum of both stressors individually. In cells recovering from WA, the relative levels of HSP30 and HSP70 accumulation remained elevated from 6 to 12 h after removal of WA. Immuocytochemical analysis and laser scanning confocal microscopy revealed that WA-induced HSP30 accumulation occurred primarily in the cytoplasm with some staining in the nucleus in a granular or punctate pattern. Prolonged exposure to WA resulted in some disorganization of the actin cytoskeleton as well as large cytoplasmic HSP30 staining structures in some cells. Prior exposure of cells to WA treatment conferred thermotolerance since it protected them against a subsequent thermal challenge at 37 °C. In conclusion, this study has shown that WA can induce an inhibition of proteasome activity and an increase hsp gene expression. Activating the heat shock response is a potential avenue for novel drug therapies, which can confer cytoprotection in disease states involving cytotoxic protein aggregation.

Ubiquitin

Heat shock protein

Xenopus

KNK437

Proteasome

Confocal microscopy

Biology