Insulin-like growth factor 2 (IGF2), a developmentally regulated and maternally imprinted gene, is frequently overexpressed in pediatric cancers. Although loss of imprinting (LOI) at fetal promoters contributes to increased IGF2 in tumors, the magnitude of IGF2 expression suggests the involvement of additional regulatory mechanisms. A microRNA (miRNA) screen of primary Wilms' tumors identified specific overexpression of miR-483-5p, which is embedded within the IGF2 gene. Unexpectedly, the IGF2 mRNA itself is transcriptionally up-regulated by miR-483-5p. A nuclear pool of miR-483-5p binds directly to the 5' untranslated region (UTR) of fetal IGF2 mRNA, enhancing the association of the RNA helicase DHX9 to the IGF2 transcript and promoting IGF2 transcription. Ectopic expression of miR-483-5p in IGF2-dependent sarcoma cells is correlated with increased tumorigenesis in vivo. Together, these observations suggest a functional positive feedback loop of an intronic miRNA on transcription of its host gene.
Hypoxia abrogates antichlamydial properties of IFN-γ in human fallopian tube cells in vitro and ex vivo
IFN-γ has an important role in the adaptive immune response against intracellular pathogens. In urogenital tract (UGT) infections with the obligate intracellular pathogen Chlamydia trachomatis, IFN-γ-mediated control of chlamydial growth implies the JAK-STAT signaling cascades and subsequent induction of the indoleamine 2,3-dioxygenase (IDO). As oxygen concentrations in the UGT are low under physiological conditions (O 2 < 5%) and further decrease during an inflammatory process, we wondered whether antibacterial properties of IFN-γ are maintained under hypoxic conditions. Using primary cells that were isolated from human fallopian tubes and an ex vivo human fallopian tube model (HFTM), we found that even high IFN-γ concentrations (200 units/mL) were not sufficient to limit growth of C. trachomatis under hypoxia. Reduced antibacterial activity of IFN-γ under hypoxia was restricted to the urogenital serovars D and L 2 , but was not observed with the ocular serovar A. Impaired effectiveness of IFN-γ on chlamydial growth under hypoxia was accompanied by reduced phosphorylation of Stat-1 on Tyr701 and diminished IDO activity. This study shows that IFN-γ effector functions on intracellular C. trachomatis depend on the environmental oxygen supply, which could explain inadequate bacterial clearance and subsequent chronic infections eventually occurring in the UGT of women.Chlamydia trachomatis | hypoxia | persistence | urogenital tract infections
Despite great progress in research and treatment options, lung cancer remains the leading cause of cancer-related deaths worldwide. Oncogenic driver mutations in protein-encoding genes were defined and allow for personalized therapies based on genetic diagnoses. Nonetheless, diagnosis of lung cancer mostly occurs at late stages, and chronic treatment is followed by a fast onset of chemoresistance. Hence, there is an urgent need for reliable biomarkers and alternative treatment options. With the era of whole genome and transcriptome sequencing technologies, long noncoding RNAs emerged as a novel class of versatile, functional RNA molecules. Although for most of them the mechanism of action remains to be defined, accumulating evidence confirms their involvement in various aspects of lung tumorigenesis. They are functional on the epigenetic, transcriptional, and posttranscriptional level and are regulators of pathophysiological key pathways including cell growth, apoptosis, and metastasis. Long noncoding RNAs are gaining increasing attention as potential biomarkers and a novel class of druggable molecules. It has become clear that we are only beginning to understand the complexity of tumorigenic processes. The clinical integration of long noncoding RNAs in terms of prognostic and predictive biomarker signatures and additional cancer targets could provide a chance to increase the therapeutic benefit. Here, we review the current knowledge about the expression, regulation, biological function, and clinical relevance of long noncoding RNAs in lung cancer.
Aberrant expression of noncoding RNAs plays a critical role during tumorigenesis. To uncover novel functions of long non-coding RNA (lncRNA) in lung adenocarcinoma, we used a microarray-based screen identifying LINC00673 with elevated expression in matched tumor versus normal tissue. We report that loss of LINC00673 is sufficient to trigger cellular senescence, a tumor suppressive mechanism associated with permanent cell cycle arrest, both in lung cancer and normal cells in a p53-dependent manner. LINC00673depleted cells fail to efficiently transit from G1-to S-phase. Using a quantitative proteomics approach, we confirm the modulation of senescence-associated genes as a result of LINC00673 knockdown. In addition, we uncover that depletion of p53 in normal and tumor cells is sufficient to overcome LINC00673-mediated cell cycle arrest and cellular senescence. Furthermore, we report that overexpression of LINC00673 reduces p53 translation and contributes to the bypass of Ras-induced senescence. In summary, our findings highlight LINC00673 as a crucial regulator of proliferation and cellular senescence in lung cancer. ARTICLE HISTORY
The retinoic acid inducible gene-I (RIG-I)-like family of receptors is positioned at the front line of our innate cellular defence system. RIG-I detects and binds to foreign duplex RNA in the cytoplasm of both immune and non-immune cells, and initiates the induction of type I interferons and pro-inflammatory cytokines. The mechanism of RIG-I activation by double-stranded RNA (dsRNA) involves a molecular rearrangement proposed to expose the N-terminal pair of caspase activation recruitment domains, enabling an interaction with interferon-beta promoter stimulator 1 (IPS-1) and thereby initiating downstream signalling. dsRNA is particularly stimulatory when longer than 20 bp, potentially through allowing binding of more than one RIG-I molecule. Here, we characterize full-length RIG-I and RIG-I subdomains combined with a stimulatory 29mer dsRNA using multi-angle light scattering and size-exclusion chromatography–coupled small-angle X-ray scattering, to build up a molecular model of RIG-I before and after the formation of a 2:1 protein:dsRNA assembly. We report the small-angle X-ray scattering–derived solution structure of the human apo-RIG-I and observe that on binding of RIG-I to dsRNA in a 2:1 ratio, the complex becomes highly extended and flexible. Hence, here we present the first model of the fully activated oligomeric RIG-I.
Primate-specific NBL2 macrosatellite is hypomethylated in several types of tumors, yet the consequences of this DNA hypomethylation remain unknown. We show that NBL2 conserved repeats are close to the centromeres of most acrocentric chromosomes. NBL2 associates with the perinucleolar region and undergoes severe demethylation in a subset of colorectal cancer (CRC). Upon DNA hypomethylation and histone acetylation, NBL2 repeats are transcribed in tumor cell lines and primary CRCs. NBL2 monomers exhibit promoter activity, and are contained within novel, non-polyA antisense lncRNAs, which we designated TNBL (Tumor-associated NBL2 transcript). TNBL is stable throughout the mitotic cycle, and in interphase nuclei preferentially forms a perinucleolar aggregate in the proximity of a subset of NBL2 loci. TNBL aggregates interact with the SAM68 perinucleolar body in a mirror-image cancer specific perinucleolar structure. TNBL binds with high affinity to several proteins involved in nuclear functions and RNA metabolism, such as CELF1 and NPM1. Our data unveil novel DNA and RNA structural features of a non-coding macrosatellite frequently altered in cancer.
Non-coding RNA profiles in cancer are largely unknown which greatly impedes the discovery of functionally important ncRNAs in tumorigenesis as well as the generation of genome-wide libraries. Here, we define the ncRNA expression landscape of lung, breast and liver cancer as well as normal tissue from the respective organs in a large set of primary patient samples (N=150). These samples were carefully selected to have a long patient follow-up and complete clinical datasets to allow an in-depth analysis. We provide the first comprehensive map of 17000+ long ncRNAs in a broad range of human tumor and normal tissues and discovered hundreds of new ncRNAs associated with three major tumor entities. Importantly, we uncovered that ncRNA profiles are significantly more specific to the tissue of origin than patterns of protein-coding mRNAs. Also, the significant ncRNA signatures in this study demonstrate specific ncRNA patterns that are unlikely to be transcriptional background but rather the result of concerted regulation. To mimic the response to cytotoxic chemotherapy, we have also treated lung and liver cancer cells with the DNA damaging agents Cisplatin and Etoposide and found significant deregulation of long ncRNAs - reversing in part the differences seen between normal and malignant lung tissue. Importantly, one of the Cisplatin-regulated ncRNAs interacts with DNA repair factors linking it immediately to the DNA damage response. To elucidate the molecular functions of the novel ncRNAs, we used RNA affinity purification to identify the protein interaction partners. In addition, we create human knockout cells for lncRNAs using ZFN and TALEN technology to integrate RNA destabilizing elements into the human genome which yields more than 1000-fold lncRNA silencing. Our so far largest ncRNA expression map is also exploited in another way: We generate an siRNA library specifically targeting over 600 tumor-associated ncRNAs based on our profiling landscape. This comprehensive but focused library will elucidate the role of ncRNAs in tumorigenesis, viability, apoptosis and the DNA damage response. In summary, we provide the first global comprehensive map of long ncRNA expression in a broad range of human tumor and normal tissue samples and discovered many new lncRNAs associated with cancer as well as tissue-, histology- and prognosis-specific ncRNA signatures. Citation Format: Maria Polycarpou-Schwarz, Tony Gutschner, Monika Hämmerle, Anna Roth, Ashish Goyal, Stefanie Grund, Catherina Hildenbrand, Arne Warth, Thomas Longerich, Sebastian Aulmann, Joachim Rom, Michael Meister, Thomas Muley, Heike Zabeck, Sabine Schmidt, Tomi Ivacevic, Vladimir Benes, Kai Breuhahn, Philipp Schnabel, Peter Sinn, Hans Hoffmann, Peter Schirmacher, Sven Diederichs. The non-coding RNA landscape of lung, liver and breast cancer reveals novel tumor-associated ncRNAs, concerted regulation and unexpected tissue specificity. [abstract]. In: Proceedings of the 104th Annual Meeting of the American Association for Cancer Research; 2013 Apr 6-10; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2013;73(8 Suppl):Abstract nr 1824. doi:10.1158/1538-7445.AM2013-1824
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