Ribosomal protein S7 regulates arsenite-induced GADD45  expression by attenuating MDM2-mediated GADD45  ubiquitination and degradation

Gao, Ming; Li, Xiaoguang; Dong, Wen; Jin, Rui; Ma, Huimin; Yang, Pingxun; Hu, Meiru; Li, Yi; Hao, Yi; Yuan, Shengtao; Huang, Junjian; Song, Lun

doi:10.1093/nar/gkt223

Cited by 24 publications

(33 citation statements)

References 30 publications

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“…Recently, it has been reported that MDM2 functions as an E3 ubiquitin ligase for GADD45A. Enhanced association between MDM2 and RPS7 following arsenite treatment attenuated MDM2-mediated GADD45A ubiquitination, resulting in GADD45A protein stabilization and apoptosis (41). Interestingly, our microarray analysis identified RPS27L, a direct TP53 target, that modulates cell fate in response to genotoxic stress (42), to be upregulated only in those sarcomas in which robust apoptotic responses were observed.…”

Section: Discussionmentioning

confidence: 71%

Nutlin-3a Efficacy in Sarcoma Predicted by Transcriptomic and Epigenetic Profiling

et al. 2014

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Nutlin-3a is a small-molecule antagonist of p53/MDM2 that is being explored as a treatment for sarcoma. In this study, we examined the molecular mechanisms underlying the sensitivity of sarcomas to Nutlin-3a. In an ex vivo tissue explant system, we found that TP53 pathway alterations (TP53 status, MDM2/MDM4 genomic amplification/mRNA overexpression, MDM2 SNP309, and TP53 SNP72) did not confer apoptotic or cytostatic responses in sarcoma tissue biopsies (n ¼ 24). Unexpectedly, MDM2 status did not predict Nutlin-3a sensitivity. RNA sequencing revealed that the global transcriptomic profiles of these sarcomas provided a more robust prediction of apoptotic responses to Nutlin-3a. Expression profiling revealed a subset of TP53 target genes that were transactivated specifically in sarcomas that were highly sensitive to Nutlin-3a. Of these target genes, the GADD45A promoter region was shown to be hypermethylated in 82% of wild-type TP53 sarcomas that did not respond to Nutlin-3a, thereby providing mechanistic insight into the innate ability of sarcomas to resist apoptotic death following Nutlin-3a treatment. Collectively, our findings argue that the existing benchmark biomarker for MDM2 antagonist efficacy (MDM2 amplification) should not be used to predict outcome but rather global gene expression profiles and epigenetic status of sarcomas dictate their sensitivity to p53/MDM2 antagonists. Cancer Res; 74(3); 921-31. Ó2013 AACR.

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Section: Discussionmentioning

confidence: 71%

Nutlin-3a Efficacy in Sarcoma Predicted by Transcriptomic and Epigenetic Profiling

et al. 2014

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“…S7 forms a complex with GADD45α (growth arrest and DNA damage inducible gene 45α), which regulates DNA repair, cell cycle checkpoints, and apoptosis. S7 interacts with both MDM2 and GADD45α, protecting GADD45α from MDM2‐mediated ubiquitination and degradation . However, S7 mutants lacking the ability to bind MDM2 do not stabilize GADD45α, indicating the importance of the RP–MDM2 interplay (Fig.…”

Section: Ribosomal Proteins and Nucleolar Stressmentioning

confidence: 95%

“…However, S7 mutants lacking the ability to bind MDM2 do not stabilize GADD45α, indicating the importance of the RP–MDM2 interplay (Fig. H) …”

Section: Ribosomal Proteins and Nucleolar Stressmentioning

confidence: 99%

Ribosomal Proteins and Human Diseases: Pathogenesis, Molecular Mechanisms, and Therapeutic Implications

Wang

Nag

Zhang

et al. 2014

Medicinal Research Reviews

178

154

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Ribosomes are essential components of the protein synthesis machinery. The process of ribosome biogenesis is well organized and tightly regulated. Recent studies have shown that ribosomal proteins (RPs) have extraribosomal functions that are involved in cell proliferation, differentiation, apoptosis, DNA repair, and other cellular processes. The dysfunction of RPs has been linked to the development and progression of hematological, metabolic, and cardiovascular diseases and cancer. Perturbation of ribosome biogenesis results in ribosomal stress, which triggers activation of the p53 signaling pathway through RPs-MDM2 interactions, resulting in p53-dependent cell cycle arrest and apoptosis. RPs also regulate cellular functions through p53-independent mechanisms. We herein review the recent advances in several forefronts of RP research, including the understanding of their biological features and roles in regulating cellular functions, maintaining cell homeostasis, and their involvement in the pathogenesis of human diseases. We also highlight the translational potential of this research for the identification of molecular biomarkers, and in the discovery and development of novel treatments for human diseases.

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“…Activated p53 then transactivates its downstream targets to induce growth arrest and apoptosis to block tumorigenesis. (Adilakshmi and Laine, 2002;Bai et al, 2014;Barlow et al, 2010a;He and Sun, 2007;Jang et al, 2012a;Jeon et al, 2008;Khanna et al, 2003;Li et al, 2010;Naora et al, 1998;Neumann and Krawinkel, 1997;Russo et al, 2013;Takagi et al, 2005;Wu et al, 2012;Yang et al, 2012;Zhu et al, 2009) Cell cycle S3, S5, S6, S7, S14, S15, S19, S20, S25, S26, S27, S27L, S27a, L3, L5, L6, L7, L11, L13, L23, L26, L31, L34, L37, L41 (Cui et al, 2014;Daftuar et al, 2013;Dai et al, , 2007bGao et al, 2013;Gou et al, 2010;Iadevaia et al, 2010;Kobayashi et al, 2006;Maruyama et al, 2014;Matragkou et al, 2008;Moorthamer and Chaudhuri, 1999;Neumann and Krawinkel, 1997;Russo et al, 2013;Sun et al, 2011;Takagi et al, 2005;Wang et al, 2011a;Wanzel et al, 2008;Xiong et al, 2011;Zhang et al, 2013Zhang et al, , 2015Zhou et al, 2013a) Cell proliferation S6, S9, S13, S14, S15a, S24, S27, L6, L8, L11, L15, L17, L26, L29, L31, L34, L36a (Dai et al, 2007a;Gou et al, 2010Kim et al, 2004;Li et al, 2010…”

Section: Apoptosismentioning

confidence: 99%

The role of ribosomal proteins in the regulation of cell proliferation, tumorigenesis, and genomic integrity

Xiong

Sun

2016

Sci. China Life Sci.

106

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Ribosomal proteins (RPs), the essential components of the ribosome, are a family of RNA-binding proteins, which play prime roles in ribosome biogenesis and protein translation. Recent studies revealed that RPs have additional extra-ribosomal functions, independent of protein biosynthesis, in regulation of diverse cellular processes. Here, we review recent advances in our understanding of how RPs regulate apoptosis, cell cycle arrest, cell proliferation, neoplastic transformation, cell migration and invasion, and tumorigenesis through both MDM2/p53-dependent and p53-independent mechanisms. We also discuss the roles of RPs in the maintenance of genome integrity via modulating DNA damage response and repair. We further discuss mutations or deletions at the somatic or germline levels of some RPs in human cancers as well as in patients of Diamond-Blackfan anemia and 5q-syndrome with high susceptibility to cancer development. Moreover, we discuss the potential clinical application, based upon abnormal levels of RPs, in biomarker development for early diagnosis and/or prognosis of certain human cancers. Finally, we discuss the pressing issues in the field as future perspectives for better understanding the roles of RPs in human cancers to eventually benefit human health. ribosomal protein, tumorigenesis, genomic integrity, ribosomal stress, p53, MDM2 Citation:Xu, X., Xiong, X., and Sun, Y. (2016). The role of ribosomal proteins in the regulation of cell proliferation, tumorigenesis, and genomic integrity. Sci China Life Sci 59, 656 -672.

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Ribosomal protein S7 regulates arsenite-induced GADD45 expression by attenuating MDM2-mediated GADD45 ubiquitination and degradation

Cited by 24 publications

References 30 publications

Nutlin-3a Efficacy in Sarcoma Predicted by Transcriptomic and Epigenetic Profiling

Nutlin-3a Efficacy in Sarcoma Predicted by Transcriptomic and Epigenetic Profiling

Ribosomal Proteins and Human Diseases: Pathogenesis, Molecular Mechanisms, and Therapeutic Implications

The role of ribosomal proteins in the regulation of cell proliferation, tumorigenesis, and genomic integrity

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