PARN deadenylase is involved in miRNA-dependent degradation of TP53 mRNA in mammalian cells

mRNA deadenylation is under the control of cis-acting regulatory elements, which include AU-rich elements (AREs) and microRNA (miRNA) targeting sites, within the 3′ untranslated region (3′ UTRs) of eukaryotic mRNAs. Deadenylases promote miRNA-induced mRNA decay through their interaction with miRNA-induced silencing complex (miRISC). However, the role of poly(A) specific ribonuclease (PARN) deadenylase in miRNA-dependent mRNA degradation has not been elucidated. Here, we present evidence that not only ARE- but also miRNA-mediated pathways are involved in PARN-mediated regulation of the steady state levels of TP53 mRNA, which encodes the tumor suppressor p53. Supporting this, Argonaute-2 (Ago-2), the core component of miRISC, can coexist in complexes with PARN resulting in the activation of its deadenylase activity. PARN regulates TP53 mRNA stability through not only an ARE but also an adjacent miR-504/miR-125b-targeting site in the 3′ UTR. More importantly, we found that miR-125b-loaded miRISC contributes to the specific recruitment of PARN to TP53 mRNA, and that can be reverted by the ARE-binding protein HuR. Together, our studies provide new insights into the role of PARN in miRNA-dependent control of mRNA decay and into the mechanisms behind the regulation of p53 expression

Intronic cleavage and polyadenylation regulates gene expression during DNA damage response through U1 snRNA

The DNA damage response involves coordinated control of gene expression and DNA repair. Using deep sequencing, we found widespread changes of alternative cleavage and polyadenylation site usage on ultraviolet-treatment in mammalian cells. Alternative cleavage and polyadenylation regulation in the 3ʹ untranslated region is substantial, leading to both shortening and lengthening of 3ʹ untranslated regions of genes. Interestingly, a strong activation of intronic alternative cleavage and polyadenylation sites is detected, resulting in widespread expression of truncated transcripts. Intronic alternative cleavage and polyadenylation events are biased to the 5ʹ end of genes and affect gene groups with important functions in DNA damage response and cancer. Moreover, intronic alternative cleavage and polyadenylation site activation during DNA damage response correlates with a decrease in U1 snRNA levels, and is reversible by U1 snRNA overexpression. Importantly, U1 snRNA overexpression mitigates ultraviolet-induced apoptosis. Together, these data reveal a significant gene regulatory scheme in DNA damage response where U1 snRNA impacts gene expression via the U1-alternative cleavage and polyadenylation axis

The effects of having more than one good reputation on distributor investments in the film industry

Reputations of organizations and its individual members are valuable resources that help new organizations to get access to investment capital. Reputations, however, can have different dimensions. In this paper, we argue that an individual’s reputation along a particular dimension will have a positive effect on the behavior of investors when it is role congruent. In addition, we argue that also scoring favorably on the role-incongruent dimension at the same time—or, in other words, engaging in reputational category spanning—will weaken the positive effect of the role-congruent reputation. Our empirical setting is the film industry where we study the effect of the two main dimensions of reputation in cultural industries, artistic and commercial, of both directors and producers on the size of the investment by distributors. In this study, artistic reputation is based on professional critics’ reviews and commercial reputation on box office performance of the films in which individuals were involved in the past. We find that the commercial reputation of a film producer based on past box office performance has a positive effect on the size of the investment by film distributors. In addition, we find that directors who at the same time combine both a favorable commercial as well as an artistic reputation actually receive a lower investment from film distributors

p53 inhibits mRNA 3' processing through its interaction with the CstF/BARD1 complex

The mechanisms involved in the p53-dependent control of gene expression following DNA damage have not been completely elucidated. Here, we show that the p53 C terminus associates with factors that are required for the ultraviolet (UV)-induced inhibition of the mRNA 3' cleavage step of the polyadenylation reaction, such as the tumor suppressor BARD1 and the 3' processing factor cleavage-stimulation factor 1 (CstF1). We found that p53 can coexist in complexes with CstF and BARD1 in extracts of UV-treated cells, suggesting a role for p53 in mRNA 3' cleavage following DNA damage. Consistent with this, we found that p53 inhibits 3' cleavage in vitro and that there is a reverse correlation between the levels of p53 expression and the levels of mRNA 3' cleavage under different cellular conditions. Supporting these results, a tumor-associated mutation in p53 not only decreases the interaction with BARD1 and CstF, but also decreases the UV-induced inhibition of 3' processing, all of which is restored by wild-type-p53 expression. We also found that p53 expression levels affect the polyadenylation levels of housekeeping genes, but not of p21 and c-fos genes, which are involved in the DNA damage response (DDR). Here, we identify a novel 3' RNA processing inhibitory function of p53, adding a new level of complexity to the DDR by linking RNA processing to the p53 network. Oncogene (2011) 3', 3'73-3'83; doi: 10.1038/onc.2011.29; published online 7 March 201