Marianne Farnebo scite author profile

Antisense transcription is a widespread phenomenon in the mammalian genome. It is thought to play a role in regulation of gene expression, but its exact functional significance is largely unknown. We have identified a natural antisense transcript of p53, designated Wrap53, that regulates endogenous p53 mRNA levels and further induction of p53 protein by targeting the 5' untranslated region of p53 mRNA. siRNA knockdown of Wrap53 results in significant decrease in p53 mRNA and suppression of p53 induction upon DNA damage. Conversely, overexpression of Wrap53 increases p53 mRNA and protein levels. Blocking of potential Wrap53/p53 RNA hybrids reduces p53 levels nearly as efficiently as Wrap53 knockdown, strongly suggesting that Wrap53 regulates p53 via Wrap53/p53 RNA interaction. Furthermore, induction of Wrap53 sensitizes cells for p53-dependent apoptosis. This discovery not only reveals a regulatory pathway for controlling p53, but also proposes a general mechanism for antisense-mediated gene regulation in human cells.

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WRAP53 Is Essential for Cajal Body Formation and for Targeting the Survival of Motor Neuron Complex to Cajal Bodies

Mahmoudi

et al. 2010

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The p53 tumor suppressor: A master regulator of diverse cellular processes and therapeutic target in cancer

Farnebo

Bykov

Wiman

2010

Biochemical and Biophysical Research Communications

242

160

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The scaffold protein WRAP53β orchestrates the ubiquitin response critical for DNA double-strand break repair

et al. 2014

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The WD40 domain-containing protein WRAP53b (WD40 encoding RNA antisense to p53; also referred to as WDR79/TCAB1) controls trafficking of splicing factors and the telomerase enzyme to Cajal bodies, and its functional loss has been linked to carcinogenesis, premature aging, and neurodegeneration. Here, we identify WRAP53b as an essential regulator of DNA double-strand break (DSB) repair. WRAP53b rapidly localizes to DSBs in an ATM-, H2AX-, and MDC1-dependent manner. We show that WRAP53b targets the E3 ligase RNF8 to DNA lesions by facilitating the interaction between RNF8 and its upstream partner, MDC1, in response to DNA damage. Simultaneous binding of MDC1 and RNF8 to the highly conserved WD40 scaffold domain of WRAP53b facilitates their interaction and accumulation of RNF8 at DSBs. In this manner, WRAP53b controls proper ubiquitylation at DNA damage sites and the downstream assembly of 53BP1, BRCA1, and RAD51. Furthermore, we reveal that knockdown of WRAP53b impairs DSB repair by both homologous recombination (HR) and nonhomologous end-joining (NHEJ), causes accumulation of spontaneous DNA breaks, and delays recovery from radiation-induced cell cycle arrest. Our findings establish WRAP53b as a novel regulator of DSB repair by providing a scaffold for DNA repair factors.

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The p53 target Wig-1 regulates p53 mRNA stability through an AU-rich element

Vilborg

Glahder

Wilhelm

et al. 2009

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

107

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The p53 target gene Wig-1 encodes a double-stranded-RNA-binding zinc finger protein. We show here that Wig-1 binds to p53 mRNA and stabilizes it through an AU-rich element (ARE) in the 3 UTR of the p53 mRNA. This effect is mirrored by enhanced p53 protein levels in both unstressed cells and cells exposed to p53-activating stress agents. Thus, the p53 target Wig-1 is a previously undescribed ARE-regulating protein that acts as a positive feedback regulator of p53, with implications both for the steady-state levels of p53 and for the p53 stress response. Our data reveal a previously undescribed link between the tumor suppressor p53 and posttranscriptional gene regulation via AREs in mRNA.

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