Sharon Biton scite author profile

An increasing number of eukaryotic genes are being found to have naturally occurring antisense transcripts. Here we study the extent of antisense transcription in the human genome by analyzing the public databases of expressed sequences using a set of computational tools designed to identify sense-antisense transcriptional units on opposite DNA strands of the same genomic locus. The resulting data set of 2,667 sense-antisense pairs was evaluated by microarrays containing strand-specific oligonucleotide probes derived from the region of overlap. Verification of specific cases by northern blot analysis with strand-specific riboprobes proved transcription from both DNA strands. We conclude that > or =60% of this data set, or approximately 1,600 predicted sense-antisense transcriptional units, are transcribed from both DNA strands. This indicates that the occurrence of antisense transcription, usually regarded as infrequent, is a very common phenomenon in the human genome. Therefore, antisense modulation of gene expression in human cells may be a common regulatory mechanism.

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NEMO and RIP1 Control Cell Fate in Response to Extensive DNA Damage via TNF-α Feedforward Signaling

Biton

Ashkenazi

2011

Cell

238

200

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Upon DNA damage, ataxia telangiectasia mutated (ATM) kinase triggers multiple events to promote cell survival and facilitate repair. If damage is excessive, ATM stimulates cytokine secretion to alert neighboring cells and apoptosis to eliminate the afflicted cell. ATM augments cell survival by activating nuclear factor (NF)-κB; however, how ATM induces cytokine production and apoptosis remains elusive. Here we uncover a p53-independent mechanism that transmits ATM-driven cytokine and caspase signals upon strong genotoxic damage. Extensive DNA lesions stimulated two sequential NF-κB activation phases, requiring ATM and NEMO/IKK-γ: The first phase induced TNF-α-TNFR1 feedforward signaling, promoting the second phase and driving RIP1 phosphorylation. In turn, RIP1 kinase triggered JNK3/MAPK10-dependent interleukin-8 secretion and FADD-mediated proapoptotic caspase-8 activation. Thus, in the context of excessive DNA damage, ATM employs NEMO and RIP1 kinase through autocrine TNF-α signaling to switch on cytokine production and caspase activation. These results shed light on cell-fate regulation by ATM.

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Phosphorylation of Hdmx mediates its Hdm2- and ATM-dependent degradation in response to DNA damage

Pereg

Shkedy

Graaf

et al. 2005

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

158

164

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Maintenance of genomic stability depends on the DNA damage response, an extensive signaling network that is activated by DNA lesions such as double-strand breaks (DSBs). The primary activator of the mammalian DSB response is the nuclear protein kinase ataxia-telangiectasia, mutated (ATM), which phosphorylates key players in various arms of this network. The activation and stabilization of the p53 protein play a major role in the DNA damage response and are mediated by ATM-dependent posttranslational modifications of p53 and Mdm2, a ubiquitin ligase of p53. p53's response to DNA damage also depends on Mdm2-dependent proteolysis of Mdmx, a homologue of Mdm2 that represses p53's transactivation function. Here we show that efficient damageinduced degradation of human Hdmx depends on functional ATM and at least three sites on the Hdmx that are phosphorylated in response to DSBs. One of these sites, S403, is a direct ATM target. Accordingly, each of these sites is important for Hdm2-mediated ubiquitination of Hdmx after DSB induction. These results demonstrate a sophisticated mechanism whereby ATM fine-tunes the optimal activation of p53 by simultaneously modifying each player in the process.ataxia-telangiectasia ͉ DNA damage response ͉ p53 ͉ protein degradation

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Sharon Biton

Widespread occurrence of antisense transcription in the human genome

NEMO and RIP1 Control Cell Fate in Response to Extensive DNA Damage via TNF-α Feedforward Signaling

Phosphorylation of Hdmx mediates its Hdm2- and ATM-dependent degradation in response to DNA damage

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