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1. Multisystem Proteinopathy Mutations in VCP/p97 Increase NPLOC4·UFD1L Binding and Substrate Processing

Author

Blythe, Emily E, Gates, Stephanie N, Deshaies, Raymond J, and Martin, Andreas

Subjects
Biochemistry and Cell Biology, Biological Sciences, Aetiology, 2.1 Biological and endogenous factors, Binding Sites, Cloning, Molecular, Cryoelectron Microscopy, Escherichia coli, Fluorescence Resonance Energy Transfer, Gene Expression, Genetic Vectors, Humans, Intracellular Signaling Peptides and Proteins, Kinetics, Models, Molecular, Mutation, Nuclear Proteins, Protein Binding, Protein Conformation, Protein Folding, Protein Interaction Domains and Motifs, Protein Multimerization, Proteostasis Deficiencies, Recombinant Proteins, Substrate Specificity, Valosin Containing Protein, AAA+ ATPase, ATP-dependent protein unfolding, Ufd1-Npl4, VCP, multisystem proteinopathy, p97, Chemical Sciences, Information and Computing Sciences, Biophysics, Biological sciences, Chemical sciences
Abstract

Valosin-containing protein (VCP)/p97 is an essential ATP-dependent protein unfoldase. Dominant mutations in p97 cause multisystem proteinopathy (MSP), a disease affecting the brain, muscle, and bone. Despite the identification of numerous pathways that are perturbed in MSP, the molecular-level defects of these p97 mutants are not completely understood. Here, we use biochemistry and cryoelectron microscopy to explore the effects of MSP mutations on the unfoldase activity of p97 in complex with its substrate adaptor NPLOC4⋅UFD1L (UN). We show that all seven analyzed MSP mutants unfold substrates faster. Mutant homo- and heterohexamers exhibit tighter UN binding and faster substrate processing. Our structural studies suggest that the increased UN affinity originates from a decoupling of p97's nucleotide state and the positioning of its N-terminal domains. Together, our data support a gain-of-function model for p97-UN-dependent processes in MSP and underscore the importance of N-terminal domain movements for adaptor recruitment and substrate processing by p97.

Published
2019

2. Epidithiodiketopiperazines Inhibit Protein Degradation by Targeting Proteasome Deubiquitinase Rpn11

Author

Li, Jing, Zhang, Yaru, Dos Santos, Bruno Da Silva Sil, Wang, Feng, Ma, Yuyong, Perez, Christian, Yang, Yanling, Peng, Junmin, Cohen, Seth M, Chou, Tsui-Fen, Hilton, Stephen T, and Deshaies, Raymond J

Subjects
Cell Line, Tumor, Humans, Piperazines, Proteasome Endopeptidase Complex, Proteasome Inhibitors, Proteolysis, Trans-Activators, Ubiquitin, Ubiquitination, Unfolded Protein Response, Capzimin, JAMM protease, POH1, PSMD14, Rpn11, epidithiodiketopiperazine, gliotoxin, proteasome, protein degradation, ubiquitin
Abstract

The 26S proteasome is the major proteolytic machine for breaking down cytosolic and nuclear proteins in eukaryotes. Due to the lack of a suitable assay, it is difficult to measure routinely and quantitatively the breakdown of proteins by the 26S proteasome in vitro. In the present study, we developed an assay to monitor proteasome-mediated protein degradation. Using this assay, we discovered that epidithiodiketopiperazine (ETPs) blocked the degradation of our model substrate in vitro. Further characterization revealed that ETPs inhibited proteasome function by targeting the essential proteasomal deubiquitinase Rpn11 (POH1/PSMD14). ETPs also inhibited other JAMM (JAB1/MPN/Mov34 metalloenzyme) proteases such as Csn5 and AMSH. An improved ETP with fewer non-specific effects, SOP11, stabilized a subset of proteasome substrates in cells, induced the unfolded protein response, and led to cell death. SOP11 represents a class of Rpn11 inhibitor and provides an alternative route to develop proteasome inhibitors.

Published
2018

7. 2.3 Å resolution cryo-EM structure of human p97 and mechanism of allosteric inhibition

Author

Banerjee, Soojay, Bartesaghi, Alberto, Merk, Alan, Rao, Prashant, Bulfer, Stacie L, Yan, Yongzhao, Green, Neal, Mroczkowski, Barbara, Neitz, R Jeffrey, Wipf, Peter, Falconieri, Veronica, Deshaies, Raymond J, Milne, Jacqueline LS, Huryn, Donna, Arkin, Michelle, and Subramaniam, Sriram

Subjects
1.1 Normal biological development and functioning, Aetiology, Underpinning research, 2.1 Biological and endogenous factors, Adenosine Diphosphate, Adenosine Triphosphatases, Adenosine Triphosphate, Allosteric Regulation, Binding Sites, Cryoelectron Microscopy, Enzyme Inhibitors, Humans, Models, Molecular, Nuclear Proteins, Protein Structure, Tertiary, General Science & Technology
Abstract

p97 is a hexameric AAA+ adenosine triphosphatase (ATPase) that is an attractive target for cancer drug development. We report cryo-electron microscopy (cryo-EM) structures for adenosine diphosphate (ADP)-bound, full-length, hexameric wild-type p97 in the presence and absence of an allosteric inhibitor at resolutions of 2.3 and 2.4 angstroms, respectively. We also report cryo-EM structures (at resolutions of ~3.3, 3.2, and 3.3 angstroms, respectively) for three distinct, coexisting functional states of p97 with occupancies of zero, one, or two molecules of adenosine 5'-O-(3-thiotriphosphate) (ATPγS) per protomer. A large corkscrew-like change in molecular architecture, coupled with upward displacement of the N-terminal domain, is observed only when ATPγS is bound to both the D1 and D2 domains of the protomer. These cryo-EM structures establish the sequence of nucleotide-driven structural changes in p97 at atomic resolution. They also enable elucidation of the binding mode of an allosteric small-molecule inhibitor to p97 and illustrate how inhibitor binding at the interface between the D1 and D2 domains prevents propagation of the conformational changes necessary for p97 function.

Published
2016

8. Allosteric Indole Amide Inhibitors of p97: Identification of a Novel Probe of the Ubiquitin Pathway

Author

Alverez, Celeste, Bulfer, Stacie L, Chakrasali, Ramappa, Chimenti, Michael S, Deshaies, Raymond J, Green, Neal, Kelly, Mark, LaPorte, Matthew G, Lewis, Taber S, Liang, Mary, Moore, William J, Neitz, R Jeffrey, Peshkov, Vsevolod A, Walters, Michael A, Zhang, Feng, Arkin, Michelle R, Wipf, Peter, and Huryn, Donna M

Subjects
Prevention, 5.1 Pharmaceuticals, Development of treatments and therapeutic interventions, AAA ATPase, p97 inhibitor, allosteric inhibitor, indole amide, protein homeostasis, ubiquitin pathway modulator, Medicinal and Biomolecular Chemistry, Organic Chemistry, Pharmacology and Pharmaceutical Sciences
Abstract

A high-throughput screen to discover inhibitors of p97 ATPase activity identified an indole amide that bound to an allosteric site of the protein. Medicinal chemistry optimization led to improvements in potency and solubility. Indole amide 3 represents a novel uncompetitive inhibitor with excellent physical and pharmaceutical properties that can be used as a starting point for drug discovery efforts.

Published
2016

9. Multispecific drugs herald a new era of biopharmaceutical innovation

Author

Deshaies, Raymond J.

Subjects
Biopharmaceutics -- Research -- Product development -- Physiological aspects -- Innovations, Medical research -- Physiological aspects, Medicine, Experimental -- Physiological aspects, Proteomics -- Research -- Physiological aspects, Drug targeting -- Research -- Physiological aspects, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

The modern biopharmaceutical industry traces its roots to the dawn of the twentieth century, coincident with marketing of aspirin--a signature event in the history of modern drug development. Although the archetypal discovery process did not change markedly in the first seven decades of the industry, the past fifty years have seen two successive waves of transformative innovation in the development of drug molecules: the rise of 'rational drug discovery' methodology in the 1970s, followed by the invention of recombinant protein-based therapeutic agents in the 1980s. An incipient fourth wave is the advent of multispecific drugs. The successful development of prospectively designed multispecific drugs has the potential to reconfigure our ideas of how target-based therapeutic molecules can work, and what it is possible to achieve with them. Here I review the two major classes of multispecific drugs: those that enrich a therapeutic agent at a particular site of action and those that link a therapeutic target to a biological effector. The latter class--being freed from the constraint of having to directly modulate the target upon binding--may enable access to components of the proteome that currently cannot be targeted by drugs. The development and future prospects of prospectively designed multispecific drugs, which have the potential to transform the biopharmaceutical industry by enabling the targeting of currently inaccessible components of the proteome, are reviewed., Author(s): Raymond J. Deshaies [sup.1] Author Affiliations: (1) Amgen Research, Thousand Oaks, USA Main Since the 1970s, discovery and development of therapeutic agents has been dominated by rational drug discovery[sup.1] [...]

Published
2020
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10. Specific Inhibition of p97/VCP ATPase and Kinetic Analysis Demonstrate Interaction between D1 and D2 ATPase Domains

Author

Chou, Tsui-Fen, Bulfer, Stacie L, Weihl, Conrad C, Li, Kelin, Lis, Lev G, Walters, Michael A, Schoenen, Frank J, Lin, Henry J, Deshaies, Raymond J, and Arkin, Michelle R

Subjects
2.1 Biological and endogenous factors, Aetiology, Cancer, Adenosine Triphosphatases, Adenosine Triphosphate, Binding, Competitive, Enzyme Inhibitors, Frontotemporal Dementia, Humans, Hydrolysis, Kinetics, Mutation, Nuclear Proteins, Protein Binding, Protein Structure, Tertiary, Surface Plasmon Resonance, IBMPFD/ALS, p97 inhibitor, p97/VCP AAA ATPase, SPR, steady-state kinetics, Medicinal and Biomolecular Chemistry, Biochemistry and Cell Biology, Microbiology, Biochemistry & Molecular Biology
Abstract

The p97 AAA (ATPase associated with diverse cellular activities), also called VCP (valosin-containing protein), is an important therapeutic target for cancer and neurodegenerative diseases. p97 forms a hexamer composed of two AAA domains (D1 and D2) that form two stacked rings and an N-terminal domain that binds numerous cofactor proteins. The interplay between the three domains in p97 is complex, and a deeper biochemical understanding is needed in order to design selective p97 inhibitors as therapeutic agents. It is clear that the D2 ATPase domain hydrolyzes ATP in vitro, but whether D1 contributes to ATPase activity is controversial. Here, we use Walker A and B mutants to demonstrate that D1 is capable of hydrolyzing ATP and show for the first time that nucleotide binding in the D2 domain increases the catalytic efficiency (k cat/K m) of D1 ATP hydrolysis 280-fold, by increasing k cat 7-fold and decreasing K m about 40-fold. We further show that an ND1 construct lacking D2 but including the linker between D1 and D2 is catalytically active, resolving a conflict in the literature. Applying enzymatic observations to small-molecule inhibitors, we show that four p97 inhibitors (DBeQ, ML240, ML241, and NMS-873) have differential responses to Walker A and B mutations, to disease-causing IBMPFD mutations, and to the presence of the N domain binding cofactor protein p47. These differential effects provide the first evidence that p97 cofactors and disease mutations can alter p97 inhibitor potency and suggest the possibility of developing context-dependent inhibitors of p97. © 2014 Elsevier Ltd.

Published
2014

12. Structure-activity relationship study reveals ML240 and ML241 as potent and selective inhibitors of p97 ATPase.

Author

Chou, Tsui-Fen, Li, Kelin, Frankowski, Kevin J, Schoenen, Frank J, and Deshaies, Raymond J

Subjects
Cell Line, Tumor, Humans, Neoplasms, Benzoxazines, Benzimidazoles, Quinazolines, Proteasome Endopeptidase Complex, Caspases, Nuclear Proteins, Ubiquitin, Antineoplastic Agents, Cell Proliferation, Structure-Activity Relationship, Autophagy, Adenosine Triphosphatases, Endoplasmic Reticulum-Associated Degradation, Proteasome Inhibitors, Cell Line, Tumor, Medicinal and Biomolecular Chemistry, Organic Chemistry, Pharmacology and Pharmaceutical Sciences, Medicinal & Biomolecular Chemistry
Abstract

To discover more potent p97 inhibitors, we carried out a structure-activity relationship study of the quinazoline scaffold previously identified from our HTS campaigns. Two improved inhibitors, ML240 and ML241, inhibit p97 ATPase with IC(50) values of 100 nM. Both compounds inhibited degradation of a p97-dependent but not a p97-independent proteasome substrate in a dual-reporter cell line. They also impaired the endoplasmic-reticulum-associated degradation (ERAD) pathway. Unexpectedly, ML240 potently stimulated accumulation of LC3-II within minutes, inhibited cancer cell growth, and rapidly mobilized the executioner caspases 3 and 7, whereas ML241 did not. The behavior of ML240 suggests that disruption of the protein homeostasis function of p97 leads to more rapid activation of apoptosis than is observed with a proteasome inhibitor. Further characterization revealed that ML240 has broad antiproliferative activity toward the NCI-60 panel of cancer cell lines, but slightly lower activity toward normal cells. ML240 also synergizes with the proteasome inhibitor MG132 to kill multiple colon cancer cell lines. Meanwhile, both probes have low off-target activity toward a panel of protein kinases and central nervous system targets. Our results nominate ML240 as a promising starting point for the development of a novel agent for the chemotherapy of cancer, and provide a rationale for developing pathway-specific p97 inhibitors.

Published
2013

13. Chemical genetics screen for enhancers of rapamycin identifies a specific inhibitor of an SCF family E3 ubiquitin ligase.

Author

Aghajan, Mariam, Jonai, Nao, Flick, Karin, Fu, Fei, Luo, Manlin, Cai, Xiaolu, Ouni, Ikram, Pierce, Nathan, Tang, Xiaobo, Lomenick, Brett, Damoiseaux, Robert, Hao, Rui, Del Moral, Pierre M, Verma, Rati, Li, Ying, Li, Cheng, Houk, Kendall N, Jung, Michael E, Zheng, Ning, Huang, Lan, Deshaies, Raymond J, Kaiser, Peter, and Huang, Jing

Subjects
Cells, Cultured, Humans, Ubiquitin-Protein Ligases, Protein-Serine-Threonine Kinases, Intracellular Signaling Peptides and Proteins, Cell Cycle, TOR Serine-Threonine Kinases, Protein Serine-Threonine Kinases, Genetics, 5.1 Pharmaceuticals, 1.1 Normal biological development and functioning, Underpinning research, Development of treatments and therapeutic interventions
Abstract

The target of rapamycin (TOR) plays a central role in eukaryotic cell growth control. With prevalent hyperactivation of the mammalian TOR (mTOR) pathway in human cancers, strategies to enhance TOR pathway inhibition are needed. We used a yeast-based screen to identify small-molecule enhancers of rapamycin (SMERs) and discovered an inhibitor (SMER3) of the Skp1-Cullin-F-box (SCF)(Met30) ubiquitin ligase, a member of the SCF E3-ligase family, which regulates diverse cellular processes including transcription, cell-cycle control and immune response. We show here that SMER3 inhibits SCF(Met30) in vivo and in vitro, but not the closely related SCF(Cdc4). Furthermore, we demonstrate that SMER3 diminishes binding of the F-box subunit Met30 to the SCF core complex in vivo and show evidence for SMER3 directly binding to Met30. Our results show that there is no fundamental barrier to obtaining specific inhibitors to modulate function of individual SCF complexes.

Published
2010

27. Quantitative measurement of the requirement of diverse protein degradation pathways in MHC class I peptide presentation

Author

Mamrosh, Jennifer L., Sherman, David J., Cohen, Joseph R., Johnston, James A., Joubert, Marisa K., Li, Jing, Lipford, J. Russell, Lomenick, Brett, Moradian, Annie, Prabhu, Siddharth, Sweredoski, Michael J., Vander Lugt, Bryan, Verma, Rati, and Deshaies, Raymond J.

Abstract

Peptides from degradation of intracellular proteins are continuously displayed by major histocompatibility complex (MHC) class I. To better understand origins of these peptides, we performed a comprehensive census of the class I peptide repertoire in the presence and absence of ubiquitin-proteasome system (UPS) activity upon developing optimized methodology to enrich for and quantify these peptides. Whereas most class I peptides are dependent on the UPS for their generation, a surprising 30%, enriched in peptides of mitochondrial origin, appears independent of the UPS. A further ~10% of peptides were found to be dependent on the proteasome but independent of ubiquitination for their generation. Notably, clinically achievable partial inhibition of the proteasome resulted in display of atypical peptides. Our results suggest that generation of MHC class I•peptide complexes is more complex than previously recognized, with UPS-dependent and UPS-independent components; paradoxically, alternative protein degradation pathways also generate class I peptides when canonical pathways are impaired.

Published
2023

33. Alcohol-abuse drug disulfiram targets cancer via p97 segregase adaptor NPL4

Author

Skrott, Zdenek, Mistrik, Martin, Andersen, Klaus Kaae, Friis, Søren, Majera, Dusana, Gursky, Jan, Ozdian, Tomas, Bartkova, Jirina, Turi, Zsofia, Moudry, Pavel, Kraus, Marianne, Michalova, Martina, Vaclavkova, Jana, Dzubak, Petr, Vrobel, Ivo, Pouckova, Pavla, Sedlacek, Jindrich, Miklovicova, Andrea, Kutt, Anne, Li, Jing, Mattova, Jana, Driessen, Christoph, Dou, Ping Q., Olsen, Jørgen, Hajduch, Marian, Cvek, Boris, Deshaies, Raymond J., and Bartek, Jiri

Published
2017
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38. Targeted protein degradation: from small molecules to complex organelles—a Keystone Symposia report

Author

Cable, Jennifer, primary, Weber‐Ban, Eilika, additional, Clausen, Tim, additional, Walters, Kylie J., additional, Sharon, Michal, additional, Finley, Daniel J., additional, Gu, Yangnan, additional, Hanna, John, additional, Feng, Yue, additional, Martens, Sascha, additional, Simonsen, Anne, additional, Hansen, Malene, additional, Zhang, Hong, additional, Goodwin, Jonathan M., additional, Reggio, Alessio, additional, Chang, Chunmei, additional, Ge, Liang, additional, Schulman, Brenda A., additional, Deshaies, Raymond J., additional, Dikic, Ivan, additional, Harper, J. Wade, additional, Wertz, Ingrid E., additional, Thomä, Nicolas H., additional, Słabicki, Mikołaj, additional, Frydman, Judith, additional, Jakob, Ursula, additional, David, Della C., additional, Bennett, Eric J., additional, Bertozzi, Carolyn R., additional, Sardana, Richa, additional, Eapen, Vinay V., additional, and Carra, Serena, additional

Published
2022
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40. A Systematic Interrogation of MHC Class I Peptide Presentation Identifies Constitutive and Compensatory Protein Degradation Pathways

Author

Mamrosh, Jennifer L., primary, Sherman, David J., additional, Cohen, Joseph R., additional, Johnston, James A., additional, Joubert, Marisa K., additional, Li, Jing, additional, Lipford, J. Russell, additional, Lomenick, Brett, additional, Moradian, Annie, additional, Prabhu, Siddharth, additional, Sweredoski, Michael J., additional, Lugt, Bryan Vander, additional, Verma, Rati, additional, and Deshaies, Raymond J., additional

Published
2021
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48. A Systematic Interrogation of MHC Class I Peptide Presentation Identifies Constitutive and Compensatory Protein Degradation Pathways

Author

Mamrosh, Jennifer L., Sherman, David J., Cohen, Joseph R., Johnston, James A., Joubert, Marisa K., Li, Jing, Lipford, J. Russell, Lomenick, Brett, Moradian, Annie, Prabhu, Siddharth, Sweredoski, Michael J., Lugt, Bryan Vander, Verma, Rati, Deshaies, Raymond J., Mamrosh, Jennifer L., Sherman, David J., Cohen, Joseph R., Johnston, James A., Joubert, Marisa K., Li, Jing, Lipford, J. Russell, Lomenick, Brett, Moradian, Annie, Prabhu, Siddharth, Sweredoski, Michael J., Lugt, Bryan Vander, Verma, Rati, and Deshaies, Raymond J.

Abstract

The adaptive immune system distinguishes self from non-self by surveying peptides generated from degradation of intracellular proteins that are loaded onto MHC Class I molecules for display on the cell surface. While early studies reported that the bulk of cell surface MHC Class I complexes require the ubiquitin-proteasome system (UPS) for their generation, this conclusion has been challenged. To better understand MHC Class I peptide origins, we sought to carry out a comprehensive, quantitative census of the MHC Class I peptide repertoire in the presence and absence of UPS activity. We introduce optimized methodology to enrich for authentic Class I-bound peptides in silico and then quantify by mass spectrometry their relative amounts upon perturbation of the ubiquitin-proteasome system. Whereas most peptides are dependent on the proteasome and ubiquitination for their generation, a surprising 30% of the MHC Class I repertoire, enriched in peptides of mitochondrial origin, appears independent of these pathways. A further ∼10% of Class I-bound peptides were found to be dependent on the proteasome but independent of ubiquitination for their generation. Notably, clinically achievable partial inhibition of the proteasome resulted in display of novel peptides antigens, at least one of which promotes immune system activation. Our results suggest that generation of MHC Class I•peptide complexes is more complex than previously recognized and also provide evidence for compensatory peptide-generating pathways when canonical pathways are impaired.

Published
2021

50. Detection of sequential polyubiquitylation on a millisecond timescale

Author

Pierce, Nathan W., Kleiger, Gary, Shan, Shu-ou, and Deshaies, Raymond J.

Subjects
Nucleotide sequencing -- Methods -- Research, Ubiquitin-proteasome system -- Properties -- Methods -- Research, DNA sequencing -- Methods -- Research, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

The pathway by which ubiquitin chains are generated on substrate through a cascade of enzymes consisting of an E1, E2 and E3 remains unclear. Multiple distinct models involving chain assembly on E2 or substrate have been proposed. However, the speed and complexity of the reaction have precluded direct experimental tests to distinguish between potential pathways. Here we introduce new theoretical and experimental methodologies to address both limitations. A quantitative framework based on product distribution predicts that the really interesting new gene (RING) E3 enzymes [SCF.sup.Cdc4] and [SCF.sup.β-TrCP] work with the E2 Cdc34 to build polyubiquitin chains on substrates by sequential transfers of single ubiquitins. Measurements with millisecond time resolution directly demonstrate that substrate polyubiquitylation proceeds sequentially. Our results present an unprecedented glimpse into the mechanism of RING ubiquitin ligases and illuminate the quantitative parameters that underlie the rate and pattern of ubiquitin chain assembly., Attachment of a polyubiquitin chain with at least four ubiquitins linked together through their lysine 48 residue (Lys 48) targets proteins to the proteasome for degradation (1). A cascade of [...]

Published
2009
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