Nucleolar protein GLTSCR2 stabilizes p53 in response to ribosomal stresses

S, Lee; Jy, Kim; Kim, Yoon Jun; Ko, Seok Jae; Kim, Jae‐Hun; Yj, Chang; Hj, Kang; Jh, Park

doi:10.1038/cdd.2012.40

Cited by 61 publications

(61 citation statements)

References 42 publications

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“…The induction of Myc in conditions of mitochondrial stress may serve an adaptive function of stimulating glucose uptake and glycolysis to compensate for the impairment of oxidative phosphorylation, while also attempting to restore mitochondrial activity. Previous studies have suggested that GLTSCR2 is induced by genotoxic stressors, such as ionizing radiation and UV radiation, and low-dose actinomycin D, which is thought to cause ribosomal stress by inhibiting rRNA synthesis (28,29). It is possible that some of these agents may also impinge upon mitochondrial function and activate pathways leading to the induction of GLTSCR2.…”

Section: Discussionmentioning

confidence: 99%

GLTSCR2/PICT1 links mitochondrial stress and Myc signaling

Yoon

Ling

Isik

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

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Mitochondrial defects underlie a multitude of human diseases. Genetic manipulation of mitochondrial regulatory pathways represents a potential therapeutic approach. We have carried out a highthroughput overexpression screen for genes that affect mitochondrial abundance or activity using flow-cytometry-based enrichment of a cell population expressing a high-complexity, concentrationnormalized pool of human ORFs. The screen identified 94 candidate mitochondrial regulators including the nuclear protein GLTSCR2, also known as PICT1. GLTSCR2 enhances mitochondrial function and is required for the maintenance of oxygen consumption, consistent with a pivotal role in the control of cellular respiration. RNAi inactivation of the Caenorhabditis elegans ortholog of GLTSCR2 reduces respiration in worms, indicating functional conservation across species. GLTSCR2 controls cellular proliferation and metabolism via the transcription factor Myc, and is induced by mitochondrial stress, suggesting it may constitute a significant component of the mitochondrial signaling pathway.

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Section: Discussionmentioning

confidence: 99%

GLTSCR2/PICT1 links mitochondrial stress and Myc signaling

Yoon

Ling

Isik

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

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“…37 This results in significant changes in its functional properties as a transcription factor. [38][39][40][41][42][43] As a consequence of the p53 isoforms function as a transcription factor and its involvement in DNA damage, it is evident that the status of p53 plays a crucial role in cancer progression [44][45][46][47][48][49][50][51][52] as well in different physiological 2 and anticancer responses. 42 In fact, p53 is frequently mutated in cancer, resulting in novel "gain-of-function"effects.…”

Section: Introductionmentioning

confidence: 99%

Molecular dynamics of the full-length p53 monomer

Chillemi¹,

Davidovich

D’Abramo³

et al. 2013

Cell Cycle

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The p53 protein is frequently mutated in a very large proportion of human tumors, where it seems to acquire gain-of-function activity that facilitates tumor onset and progression. A possible mechanism is the ability of mutant p53 proteins to physically interact with other proteins, including members of the same family, namely p63 and p73, inactivating their function. Assuming that this interaction might occurs at the level of the monomer, to investigate the molecular basis for this interaction, here, we sample the structural flexibility of the wild-type p53 monomeric protein. The results show a strong stability up to 850 ns in the DNA binding domain, with major flexibility in the N-terminal transactivations domains (TAD1 and TAD2) as well as in the C-terminal region (tetramerization domain). Several stable hydrogen bonds have been detected between N-terminal or C-terminal and DNA binding domain, and also between N-terminal and C-terminal. Essential dynamics analysis highlights strongly correlated movements involving TAD1 and the proline-rich region in the N-terminal domain, the tetramerization region in the C-terminal domain; Lys120 in the DNA binding region. The herein presented model is a starting point for further investigation of the whole protein tetramer as well as of its mutants

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“…Interestingly, the transcription level of these genes was found to increase or decrease with increasing fish HSI. This could be linked, at least in part, to the fact that these genes are not only involved in protein translation but also in cell cycle by regulating the accumulation of the p53 protein in cell (Horn and Vousden 2008;Lee et al 2012). The p53 protein is involved in cell cycle arrest and apoptosis.…”

Section: Hepato-somatic Indexmentioning

confidence: 99%

Transcriptome profile analysis reveals specific signatures of pollutants in Atlantic eels

et al. 2014

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Identifying specific effects of contaminants in a multi-stress field context remain a challenge in ecotoxicology. In this context, ''omics'' technologies, by allowing the simultaneous measurement of numerous biological endpoints, could help unravel the in situ toxicity of contaminants. In this study, wild Atlantic eels were sampled in 8 sites presenting a broad contamination gradient in France and Canada. The global hepatic transcriptome of animals was determined by RNA-Seq. In parallel, the contamination level of fish to 8 metals and 25 organic pollutants was determined. Factor analysis for multiple testing was used to identify genes that are most likely to be related to a single factor. Among the variables analyzed, arsenic (As), cadmium (Cd), lindane (c-HCH) and the hepato-somatic index (HSI) were found to be the main factors affecting eel's transcriptome. Genes associated with As exposure were involved in the mechanisms that have been described during As vasculotoxicity in mammals. Genes correlated with Cd were involved in cell cycle and energy metabolism. For c-HCH, genes were involved in lipolysis and cell growth. Genes associated with HSI were involved in protein, lipid and iron metabolisms. Our study proposes specific gene signatures of pollutants and their impacts in fish exposed to multi-stress conditions.

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Nucleolar protein GLTSCR2 stabilizes p53 in response to ribosomal stresses

Cited by 61 publications

References 42 publications

GLTSCR2/PICT1 links mitochondrial stress and Myc signaling

GLTSCR2/PICT1 links mitochondrial stress and Myc signaling

Molecular dynamics of the full-length p53 monomer

Transcriptome profile analysis reveals specific signatures of pollutants in Atlantic eels

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