Molecular Mechanisms of DUBs Regulation in Signaling and Disease

Li, Ying; Reverter, David

doi:10.3390/ijms22030986

Cited by 41 publications

(38 citation statements)

References 199 publications

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“…USPs are cysteine proteases that are responsive to various electrophiles and have been targeted as therapies for various cancers [ 11 ]. Therefore, it is highly desirable to characterize which USPs are critical to each cancer type to enable precision cancer treatment.…”

Section: Introductionmentioning

confidence: 99%

Ubiquitin Specific Protease 29 Functions as an Oncogene Promoting Tumorigenesis in Colorectal Carcinoma

Chandrasekaran

Suresh

Sarodaya

et al. 2021

Cancers

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Colorectal carcinoma is the third foremost cause of cancer-related deaths and accounts for 5.8% of all deaths globally. The molecular mechanisms of colon cancer progression and metastasis control are not well studied. Ubiquitin-specific protease 29 (USP29), a deubiquitinating enzyme, is involved in the occurrence and development of wide variety of cancers. However, its clinical significance and biological roles in colorectal carcinoma (CRC) remain unexplored. In this research, we observed that the rate of USP29 overexpression was higher in colon cancer patient tissues relative to its corresponding normal tissues. CRISPR-Cas9-mediated depletion of USP29 triggered DNA double strand breaks and delayed cell-cycle progression in HCT116 cells. We also demonstrated that USP29 depletion hampers the colony formation and increases apoptosis of HCT116 cells. USP29 knockdown significantly decreased CRC cell proliferation in vitro. Depletion of USP29 in HCT116 cells substantially reduced the tumor volume of mouse xenografts. In conclusion, our study shows that elevated expression of USP29 promotes malignancy in CRC, suggesting that USP29 could be a promising target for colon cancer therapy.

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Section: Introductionmentioning

confidence: 99%

Ubiquitin Specific Protease 29 Functions as an Oncogene Promoting Tumorigenesis in Colorectal Carcinoma

Chandrasekaran

Suresh

Sarodaya

et al. 2021

Cancers

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“…There are two major classes of DUBs, cysteine proteases and metalloproteases ( 42 , 43 ). The former of these classes is further broken down into six families of proteins, based on sequence conservation and domain architecture ( 44 ). However, all DUBs in this class utilize a catalytic triad composed of an active site cysteine residue, along with a histidine and (in most cases) an asparagine or aspartate, to catalyze the hydrolysis of the ubiquitin linkages ( 43 ).…”

Section: Why Do We Need Dubs?mentioning

confidence: 99%

“…Having inhibitors to this class of DUBs enabled faster identification and characterization of new members, thus resulting in better knowledge of their impact on cellular physiology and how they might be used in the manipulation of therapeutic systems ( 49 ). The six families of cysteine protease DUBs include the ubiquitin C-terminal hydrolase (UCH), ubiquitin-specific protease (USP), ovarian tumor (OTU), Machado–Josephin domain (MJD), K48 polyubiquitin-specific MINDY domain families, as well as the newest-discovered DUB family, zinc finger with UFM1-specific peptidase domain, named for its founding protein member ( 44 ).…”

Section: Why Do We Need Dubs?mentioning

confidence: 99%

“…The four members of the MJD family (ataxin 3 [ATXN3], ATXN3L, Josephin domain-containing 1, and Josephin domain-containing 2) all present a highly conserved catalytic Josephin domain, which contains two ubiquitin binding sites as well as two conserved histidines, along with the catalytic cysteine, that are necessary for catalysis ( 44 , 62 ). This family is named for Machado–Josephin disease, a neurological disorder caused by an expansion of the CAG repeat motif in ATXN3, producing polyglutamine and causing protein misfolding and aggregation ( 63 ).…”

Section: Why Do We Need Dubs?mentioning

confidence: 99%

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Deubiquitinating enzymes (DUBs): Regulation, homeostasis, and oxidative stress response

Snyder

Silva

2021

Journal of Biological Chemistry

104

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Ubiquitin signaling is a conserved, widespread, and dynamic process in which protein substrates are rapidly modified by ubiquitin to impact protein activity, localization, or stability. To regulate this process, deubiquitinating enzymes (DUBs) counter the signal induced by ubiquitin conjugases and ligases by removing ubiquitin from these substrates. Many DUBs selectively regulate physiological pathways employing conserved mechanisms of ubiquitin bond cleavage. DUB activity is highly regulated in dynamic environments through protein–protein interaction, posttranslational modification, and relocalization. The largest family of DUBs, cysteine proteases, are also sensitive to regulation by oxidative stress, as reactive oxygen species (ROS) directly modify the catalytic cysteine required for their enzymatic activity. Current research has implicated DUB activity in human diseases, including various cancers and neurodegenerative disorders. Due to their selectivity and functional roles, DUBs have become important targets for therapeutic development to treat these conditions. This review will discuss the main classes of DUBs and their regulatory mechanisms with a particular focus on DUB redox regulation and its physiological impact during oxidative stress.

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“…However, certain DUBs require Ub-binding or modulation to form their active conformation. In a cellular environment, DUB activity is tightly regulated because uncontrolled activation can be detrimental for cells ( Reyes-Turcu et al, 2009 ; Li and Reverter, 2021 ). Herein, PTMs are a critical approach to regulate the activity and specificity of DUBs, and also play an important role in DUBs-related diseases.…”

Section: Ptms Can Regulate the Specificity And Activity Of Dubsmentioning

confidence: 99%

Post-Translational Modifications of Deubiquitinating Enzymes: Expanding the Ubiquitin Code

Wang

2021

Front. Pharmacol.

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Post-translational modifications such as ubiquitination play important regulatory roles in several biological processes in eukaryotes. This process could be reversed by deubiquitinating enzymes (DUBs), which remove conjugated ubiquitin molecules from target substrates. Owing to their role as essential enzymes in regulating all ubiquitin-related processes, the abundance, localization, and catalytic activity of DUBs are tightly regulated. Dysregulation of DUBs can cause dramatic physiological consequences and a variety of disorders such as cancer, and neurodegenerative and inflammatory diseases. Multiple factors, such as transcription and translation of associated genes, and the presence of accessory domains, binding proteins, and inhibitors have been implicated in several aspects of DUB regulation. Beyond this level of regulation, emerging studies show that the function of DUBs can be regulated by a variety of post-translational modifications, which significantly affect the abundance, localization, and catalytic activity of DUBs. The most extensively studied post-translational modification of DUBs is phosphorylation. Besides phosphorylation, ubiquitination, SUMOylation, acetylation, oxidation, and hydroxylation are also reported in DUBs. In this review, we summarize the current knowledge on the regulatory effects of post-translational modifications of DUBs.

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Molecular Mechanisms of DUBs Regulation in Signaling and Disease

Cited by 41 publications

References 199 publications

Ubiquitin Specific Protease 29 Functions as an Oncogene Promoting Tumorigenesis in Colorectal Carcinoma

Ubiquitin Specific Protease 29 Functions as an Oncogene Promoting Tumorigenesis in Colorectal Carcinoma

Deubiquitinating enzymes (DUBs): Regulation, homeostasis, and oxidative stress response

Post-Translational Modifications of Deubiquitinating Enzymes: Expanding the Ubiquitin Code

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