Article Methods Cell lines Cell lines were purchased from ATCC and were not formally authenticated, but confirmation of expected gene expression patterns were performed for RNA-seq and eCLIP experiments. Cell lines were routinely tested for mycoplasma contamination (MycoAlert, Lonza).
Genomes encompass all the information necessary to specify the development and function of an organism. In addition to genes, genomes also contain a myriad of functional elements that control various steps in gene expression. A major class of these elements function only when transcribed into RNA as they serve as the binding sites for RNA binding proteins (RBPs) which act to control post-transcriptional processes including splicing, cleavage and polyadenylation, RNA editing, RNA localization, translation, and RNA stability. Despite the importance of these functional RNA elements encoded in the genome, they have been much less studied than genes and DNA elements. Here, we describe the mapping and characterization of RNA elements recognized by a large collection of human RBPs in K562 and HepG2 cells. These data expand the catalog of functional elements encoded in the human genome by addition of a large set of elements that function at the RNA level through interaction with RBPs.Van Nostrand et al.
Although deregulated expression of specific microRNAs (miRNAs) has been described in solid cancers and leukemias, little evidence of miRNA deregulation has been reported in ALK-positive (ALK ؉ ) anaplastic large cell lymphomas (ALCL). These tumors overexpress the major antiapoptotic protein myeloid cell leukemia 1 (MCL-1), a situation that could compensate for the lack of BCL-2. We report that ALK ؉ ALCL cell lines and biopsy specimens (n ؍ 20) express a low level of miR-29a and that this down- IntroductionAnaplastic lymphoma kinase-positive (ALK ϩ ) anaplastic large cell lymphoma (ALCL) is now recognized as a distinct entity in the World Health Organization (WHO) classification of hematopoietic tumors 1,2 and is characterized by the expression of an oncogenic fusion protein involving the ALK tyrosine kinase receptor. 3,4 Most of the activated pathways downstream to this fusion protein with a constitutive tyrosine kinase activity have been characterized and play major roles in lymphomagenesis in ALK ϩ ALCL, controlling key cellular processes such as proliferation, survival, and cell migration (for review see Chiarle et al 5 ). Another characteristic of ALK ϩ ALCLs is the lack or low expression of the antiapoptotic proteins BCL-2 and BCL-XL, suggesting a possible explanation for their relatively good prognosis. However, these tumors overexpressed MCL-1 (myeloid cell leukemia-1), an oncogene of particular interest, belonging to BCL-2 family of apoptosisregulating proteins, 6 and also involved in programming differentiation 7 and promoting cell viability. 8 MCL-1 expression could compensate for the lack of immunohistochemically detectable BCL-2 and BCL-XL expression in ALK ϩ ALCL. [9][10][11] Some studies have suggested that the Jak-STAT and PI3K pathways activated in ALK ϩ tumors could be involved in up-regulating MCL-1 but other pathways at the posttranscriptional level, such as microRNAs, might also contribute to its high expression in ALK ϩ ALCL cases (see reviews by Akgul 12 and Michels et al 13 ).Micro-RNAs (miRNAs) are small noncoding RNAs that regulate target gene expression posttranscriptionally through base pairing within the 3Ј-UTR regions of the target messenger RNAs and inducing their degradation, translational inhibition, or both of the encoded proteins. 14,15 MiRNAs play key regulator roles in fundamental biologic processes including cell differentiation, apoptosis, cell proliferation, organ development, and hematopoiesis (see review by Kluiver et al 16 ). family members have been shown to be down-regulated in several hematopoietic neoplasms, including chronic lymphocytic leukemia with poor prognosis, 17 acute myeloid leukemia, 18 and mantle cell lymphoma, 19 as well as solid cancers such as lung cancer, 20 hepatocellular carcinoma, 21 and invasive breast cancer. 22 More particularly, miR-29a, miR-29b, or both directly target the antiapoptotic protein MCL-1 in cholangiocarcinoma, 23 hepatocellular carcinoma, 21 and acute myeloid leukemia (AML). 18 However, to date, only one study has addressed th...
BackgroundThe microenvironment plays a major role in the onset and progression of metastasis. Epithelial ovarian cancer (EOC) tends to metastasize to the peritoneal cavity where interactions within the microenvironment might lead to chemoresistance. Mesothelial cells are important actors of the peritoneal homeostasis; we determined their role in the acquisition of chemoresistance of ovarian tumours.Methodology/Principal FindingsWe isolated an original type of stromal cells, referred to as “Hospicells” from ascitis of patients with ovarian carcinosis using limiting dilution. We studied their ability to confer chemoresistance through heterocellular interactions. These stromal cells displayed a new phenotype with positive immunostaining for CD9, CD10, CD29, CD146, CD166 and Multi drug resistance protein. They preferentially interacted with epithelial ovarian cancer cells. This interaction induced chemoresistance to platin and taxans with the implication of multi-drug resistance proteins. This contact enabled EOC cells to capture patches of the Hospicells membrane through oncologic trogocytosis, therefore acquiring their functional P-gp proteins and thus developing chemoresistance. Presence of Hospicells on ovarian cancer tissue micro-array from patients with neo-adjuvant chemotherapy was also significantly associated to chemoresistance.Conclusions/SignificanceThis is the first report of trogocytosis occurring between a cancer cell and an original type of stromal cell. This interaction induced autonomous acquisition of chemoresistance. The presence of stromal cells within patient's tumour might be predictive of chemoresistance. The specific interaction between cancer cells and stromal cells might be targeted during chemotherapy.
Cells are highly asymmetrical, a feature that relies on the sorting of molecular constituents, including proteins, lipids, and nucleic acids, to distinct subcellular locales. The localization of RNA molecules is an important layer of gene regulation required to modulate localized cellular activities, although its global prevalence remains unclear. We combine biochemical cell fractionation with RNA-sequencing (CeFra-seq) analysis to assess the prevalence and conservation of RNA asymmetric distribution on a transcriptome-wide scale in and human cells. This approach reveals that the majority (∼80%) of cellular RNA species are asymmetrically distributed, whether considering coding or noncoding transcript populations, in patterns that are broadly conserved evolutionarily. Notably, a large number of and human long noncoding RNAs and circular RNAs display enriched levels within specific cytoplasmic compartments, suggesting that these RNAs fulfill extra-nuclear functions. Moreover, fraction-specific mRNA populations exhibit distinctive sequence characteristics. Comparative analysis of mRNA fractionation profiles with that of their encoded proteins reveals a general lack of correlation in subcellular distribution, marked by strong cases of asymmetry. However, coincident distribution profiles are observed for mRNA/protein pairs related to a variety of functional protein modules, suggesting complex regulatory inputs of RNA localization to cellular organization.
The faithful execution of embryogenesis relies on the ability of organisms to respond to genotoxic stress and to eliminate defective cells that could otherwise compromise viability. In syncytial-stage Drosophila embryos, nuclei with excessive DNA damage undergo programmed elimination through an as-yet poorly understood process of nuclear fallout at the midblastula transition. We show that this involves a Chk2-dependent mechanism of mRNA nuclear retention that is induced by DNA damage and prevents the translation of specific zygotic mRNAs encoding key mitotic, cytoskeletal, and nuclear proteins required to maintain nuclear viability. For histone messages, we show that nuclear retention involves Chk2-mediated inactivation of the Drosophila stem loop binding protein (SLBP), the levels of which are specifically depleted in damaged nuclei following Chk2 phosphorylation, an event that contributes to nuclear fallout. These results reveal a layer of regulation within the DNA damage surveillance systems that safeguard genome integrity in eukaryotes.
The CCAAT/enhancer-binding protein b (C/EBPb) plays a major role in the pathogenesis of anaplastic large cell lymphomas (ALCL) that express the nucleophosmin-anaplastic lymphoma kinase (NPM-ALK) tyrosine kinase (ALK þ ). Although ALK-mediated C/EBPb transcriptional activation has been reported, C/EBPb mRNA possesses U-and AU-rich domains in its 3 0 -untranslated region (3 0 -UTR) that might be privileged targets for posttranscriptional control in ALK þ ALCLs. The purpose of this study was to explore this possibility. By using human ALCL-derived cells and a murine model of ALK-transformed cells, we show that the AU-binding protein HuR binds to the 3 0
Highlights d The cen and ik2 cis-NAT mRNAs co-localize to centrosomes in Drosophila embryos d Loss of cen disrupts ik2 centrosomal localization, revealing a targeting co-dependency d Centrosomal co-localization requires interactions between the 3 0 UTRs of cen and ik2 d Subcellular fractionation data reveal that cis-NATs often localize to similar sites
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