Kateřina Cetkovská scite author profile

The mechanisms of gene expression regulation by miRNAs have been extensively studied. However, the regulation of miRNA function and decay has long remained enigmatic. Only recently, 3′ uridylation via LIN28A-TUT4/7 has been recognized as an essential component controlling the biogenesis of let-7 miRNAs in stem cells. Although uridylation has been generally implicated in miRNA degradation, the nuclease responsible has remained unknown. Here, we identify the Perlman syndromeassociated protein DIS3L2 as an oligo(U)-binding and processing exoribonuclease that specifically targets uridylated pre-let-7 in vivo. This study establishes DIS3L2 as the missing component of the LIN28-TUT4/7-DIS3L2 pathway required for the repression of let-7 in pluripotent cells.

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Mutational analysis of Mdm2 C-terminal tail suggests an evolutionarily conserved role of its length in Mdm2 activity toward p53 and indicates structural differences between Mdm2 homodimers and Mdm2/MdmX heterodimers

Doleželová

Cetkovská

Vousden

et al. 2012

Cell Cycle

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Ubiquitin-specific peptidase 48 regulates Mdm2 protein levels independent of its deubiquitinase activity

Cetkovská

Šustová

Uldrijan

2017

Sci Rep

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The overexpression of Mdm2 has been linked to the loss of p53 tumour suppressor activity in several human cancers. Here, we present results suggesting that ubiquitin-specific peptidase 48 (USP48), a deubiquitinase that has been linked in previous reports to the NF-κB signaling pathway, is a novel Mdm2 binding partner that promotes Mdm2 stability and enhances Mdm2-mediated p53 ubiquitination and degradation. In contrast to other deubiquitinating enzymes (DUBs) that have been previously implicated in the regulation of Mdm2 protein stability, USP48 did not induce Mdm2 stabilization by significantly reducing Mdm2 ubiquitination levels. Moreover, two previously characterized USP48 mutants lacking deubiquitinase activity were also capable of efficiently stabilizing Mdm2, indicating that USP48 utilizes a non-canonical, deubiquitination-independent mechanism to promote Mdm2 oncoprotein stability. This study represents, to the best of our knowledge, the first report suggesting DUB-mediated target protein stabilization that is independent of its deubiquitinase activity. In addition, our results suggest that USP48 might represent a new mechanism of crosstalk between the NF-κB and p53 stress response pathways.

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Mutational analysis reveals a dual role of Mdm2 acidic domain in the regulation of p53 stability

Doleželová¹,

Cetkovská²,

Vousden³

et al. 2012

FEBS Letters

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Edited by Varda RotterKeywords: p53 degradation Mdm2 Acidic domain Mutagenesis Ubiquitin ligase activity Binding partner a b s t r a c tThe exact role of the central acidic domain of Mdm2 in p53 degradation remains unclear. We therefore performed a systematic and comprehensive analysis of the acidic domain using a series of short deletions and found that only a minor part of the domain was indispensable for Mdm2-mediated p53 ubiquitylation. Moreover, we identified a short stretch of acidic amino acids required for p53 degradation but not ubiquitylation, indicating that, in addition to p53 ubiquitylation, the acidic domain might be involved in a critical post-ubiquitylation step in p53 degradation. Rather than representing a single functional domain, different parts of the acidic region perform separate functions in p53 degradation, suggesting that it might be possible to therapeutically target them independently. Structured summary of protein interactions:MDM2 physically interacts with S6b by anti bait coimmunoprecipitation (View interaction) MDM2 physically interacts with p53 by anti bait coimmunoprecipitation (View interaction: 1, 2) MDM2 physically interacts with C8a by anti bait coimmunoprecipitation (View interaction: 1, 2) YY1 physically interacts with MDM2 by anti bait coimmunoprecipitation (View interaction) MDM2 physically interacts with S6a by anti bait coimmunoprecipitation (View interaction)

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