Investigation of Myc-regulated Long Non-coding RNAs in Cell Cycle and Myc-dependent Transformation

MacDougall, Matthew Steven

15 November 2013

Myc deregulation critically contributes to many cancer etiologies. Recent work suggests that Myc and its direct interactors can confer a distinct epigenetic state. Our goal is to better understand the Myc-conferred epigenetic status of cells. We have previously identified the long non-coding RNA (lncRNA), H19, as a target of Myc regulation and shown it to be important for transformation in lung and breast cells. These results prompted further analysis to identify similarly important Myc-regulated lncRNAs. Myc-regulated lncRNAs associated with the cell cycle and transformation have been identified by microarray analysis. A small number of candidate lncRNAs that were differentially expressed in both the cell cycle and transformation have been validated. Given the increasing importance of lncRNAs and epigenetics to cancer biology, the discovery of Myc-induced, growth associated lncRNAs could provide insight into the mechanisms behind Myc-related epigenetic signatures in both normal and disease states.

c-Myc

long non-coding RNA

lncRNA

breast cancer

cancer biology

transcription

epigenetics

0369

0487

0571

Targeting of the Myc pathway as a novel approach for cancer therapy /

Mo, Hao,

January 2006

Diss. (sammanfattning) Stockholm : Karolinska institutet, 2006. / Härtill 3 uppsatser.

Caractérisation des sites d'entrées interne des ribosomes dans l'ARNm c-myc et identification des facteurs nécessaires à leur activité

Cencig, Sabrina

06 June 2005

RESUME<p><p><p>Le proto-oncogène c-myc code pour un facteur de transcription qui est impliqué dans de multiples processus cellulaires tels que la prolifération, la différenciation et l’apoptose. Une dérégulation de son expression suite à des altérations génétiques (mutation, translocation, amplification) est retrouvée dans plusieurs tumeurs telles que le lymphome de Burkitt, des plasmacytomes murins ainsi que des tumeurs non-lymphoïdes.<p>c-myc est un gène dont l’expression est régulée à différents niveaux. Chez l’homme, le gène c-myc est transcrit à partir de quatre promoteurs alternatifs appelés respectivement P0, P1, P2 et P3. P1 et P2 sont les deux promoteurs les plus utilisés. Ensemble, ils permettent de former 90% des transcrits c-myc dans des cellules normales. <p>Les promoteurs P0, P1 et P2 permettent la transcription de trois ARNms qui comportent deux codons d’initiation de la traduction (un CUG et un AUG). L’utilisation alternative de ces deux codons d’initiation est à l’origine de la synthèse de deux protéines (c-Myc 1 et c-Myc 2) ayant à la fois des fonctions identiques et distinctes. <p> La grande taille des parties 5’ non-traduites ainsi que la présence dans celles-ci de phases ouvertes de lecture sont des éléments défavorables à la traduction de l’ORF codant pour les protéines Myc par un mécanisme classique d’initiation de la traduction. Notre laboratoire avait précisément montré que les protéines c-Myc sont synthétisées par un processus d’initiation interne de la traduction. Les ARNms dont l’initiation de la traduction s’effectue par entrée interne des ribosomes présentent une structure spécifique appelée IRES (Internal Ribosome Entry Site). Cette structure permet la fixation du ribosome directement à proximité du codon d’initiation. Dans le cas des ARNms c-myc, on retrouve une IRES se situant en amont des codons CUG et AUG qui permet la synthèse des protéines c-Myc1 et 2 respectivement. Un tel mécanisme permet la synthèse des protéines c-Myc dans des conditions où toute traduction dépendante de la coiffe est inhibée (mitose, apoptose).<p><p>Au cours de mon travail, tout d’abord j’ai montré qu’une séquence de 40 nt dans les transcrits P2 permet à elle seule une initiation interne efficace de la traduction. Nous avons déterminé aussi que cette séquence, appelée B4, est active dans quatre types cellulaires différents avec une efficacité variable et qu’elle active la traduction indépendamment de l’ORF placée en aval. D’autre part, il a été déterminé que la séquence B4 recrute le complexe de préinitiation 43S, qui ensuite scanne le messager jusqu’aux codons initiateurs comme c’est le cas de l’IRES du rhinovirus. <p>Une analyse plus détaillée de la séquence B4 a permis d’identifier trois plus petites séquences de plus ou moins 14 nt (Ti1, Boucle, Ti2), qui indépendamment l’une de l’autre permettent une entrée interne des ribosomes. Il a été déterminé que la présence du motif A-N6-AC dans la séquence de Ti2 était importante pour l’activité IRES de celle-ci. Cependant, ce même motif également présent dans la séquence Ti1 n’est pas essentiel à l’activité IRES de Ti1. <p>Par la suite, nous avons démontré que l’IRES de c-myc nécessite pour son activité un évènement nucléaire. Nous avons donc entrepris la recherche de facteurs cellulaires impliqués dans l’activité de l’IRES de c-myc. Dans un premier temps, nous avons exclu le rôle de certaines protéines connues pour activer d’autres IRES dont le mécanisme de recrutement du complexe de préinitiation est similaire. Ainsi, nous avons montré, par des expériences de complémentation d’un RRL, que les protéines PTB et unr connues pour activer l’IRES du rhinovirus ne contribuent pas à l’activité de l’IRES de c-myc. De plus, la complémentation de RRL avec des extraits S10 ou nucléaires de cellules HeLa n’a pas permis d’identifier des protéines impliquées dans l’activité IRES de c-myc.<p>D’autre part, des méthodes alternatives d’interaction d’ARN et de protéine comme le triple hybride ou la chromatographie d’affinité d’ARN n’a pas permis dans un premier temps de détecter une interaction entre un facteur non canonique et l’IRES de c-myc. Dès lors, l’existence de facteurs cellulaires impliqués dans l’activité de l’IRES de c-myc reste à déterminer.<p> / Doctorat en sciences, Spécialisation biologie moléculaire / info:eu-repo/semantics/nonPublished

Sciences exactes et naturelles

Biologie

Messenger RNA

Ribosomes -- Structure

ARN messager

Ribosomes -- Structure

IRES

c-myc

Úloha signalizační dráhy Hippo v regulaci metabolismu nádorových buněk. / The role of Hippo Signalling pathway in tumor cell metabolism

Lettlová, Sandra

January 2013

Vitamine E analogues α-tocopheryl succinate (α-TOS) and mitochondrially targeted vitamine E succinate (MitoVES) are anti-cancer agents from the group of "mitocans", the compounds acting via mitochondria which present a promising invariant target for cancer cell therapy. α-TOS and MitoVES induce apoptosis selectively in various cancer cell types involving generation of reactive oxygen species (ROS). Generated superoxid anion radicals in response to α-TOS and MitoVES are believed to be converted into hydrogen peroxide that is known to activate Mammalian sterile 20-like kinase (Mst1), the central component of Hippo signalling pathway, that presents an universal size control mechanism in all metazoans and its deregulation is linked to tumourigenesis. MitoVES and α-TOS were both reported to activate Mst1 that phosphorylates Forkhead box O1 (FoxO1) transcription factor resulting in its transport to nucleus where induce the expression of pro-apoptotic genes, including NOXA, and thus promote apoptosis. The target of Hippo signalling pathway is transcriptional co- activator Yes-associated protein (Yap) which was found in Drosophila melanogaster to regulate the expression of transcription factor c-Myc which is known as the most prominent human oncogene. This thesis focused on involvement of Hippo signalling...

Regulace C-MYC onkoproteinu přírodními látkami. / Regulation of C-MYC oncoprotein by natural drugs.

Filandr, František

January 2016

Sesqiterpene lactones, a group of plant secondary metabolites which include Cnicin from Cnicus benedictus plant, have an anti-proliferative and anti-tumor effect on mammalian cells by activating specific signaling pathways while also generating oxidative stress. These factors combined drive tumor cell apoptosis. A few of these compounds have reached clinical trials and seem to be a promising chemotherapeutics. The focus of this work is to elucidate the effect of cnicin on C-MYC transcription factor and oncoprotein which is overexpressed in majority of tumor tissues, the effect of cnicin on DEAD-box RNAhelicase DDX3 and on the expression levels of several metabolic genes is also studied. Through the use of western blotting, immunodetection and qPCR it was found out, that cnicin is regulating the expression of C-MYC oncoprotein on both transcriptional and translational levels, while also lowering C-MYC protein stability probably through the effect on PIM-2 kinase. Cnicin is not affecting the total amount of DDX3 protein in cells, but it seems it is lowering its degradation rate. The possible transcriptional regulation of DDX3 by cnicin is still not clear and requires further research. With the use of LC-MS quantitative analysis and qPCR, it was found out that cnicin does not affect the metabolism of...

Hdm2 Is Regulated by K-Ras and Mediates p53-Independent Functions in Pancreatic Cancer Cells

Sui, X., Shin, S., Zhang, R., Firozi, P. F., Yang, L., Abbruzzese, J. L., Reddy, S. A.G.

05 February 2009

There is emerging evidence that the oncogenic potential of hdm2 (human and/or murine double minute-2 protein) stems not only from its ability to counteract tumor suppressor p53 but also from its less understood p53-independent functions. Surprisingly, little is known about the role and regulation of hdm2 in pancreatic tumors, a large proportion (50-75%) of which contain mutant p53. In this study, we determined that hdm2 was expressed in a Ras-signaling-dependent manner in various pancreatic cancer cell lines. As p53 was mutated and inactive in these cells, the expression of hdm2 was seemingly redundant. Indeed, the proliferation and survival of cell lines such as Panc-1 and Panc-28 could be inhibited by PRIMA-1 (mutant p53 activator) but not by Nutlin-3 (inhibitor of the hdm2-p53 interaction). Unexpectedly, however, the proliferation of both cell lines was strongly inhibited by hdm2-specific RNAi. Our data also revealed cyclin D1, c-Jun and c-Myc to be novel targets of hdm2 and suggested that they might mediate hdm2's role in cellular proliferation and/or survival. We conclude from our results that hdm2 is expressed in pancreatic cancer cells as a result of activated Ras signaling, and that it regulates cellular proliferation and the expression of three novel target genes by p53-independent mechanisms.

c-Jun

c-Myc

cyclin D1

hdm2

K-Ras

pancreatic cancer

Expandable Megakaryocyte Cell Lines Enable Clinically Applicable　Generation of Platelets from Human Induced Pluripotent Stem Cells / ヒトiPS細胞から誘導した自己複製能をもつ巨核球細胞株は臨床応用における血小板の安定供給を可能にする

Nakamura, Sou

24 November 2015

京都大学 / 0048 / 新制・論文博士 / 博士(医科学) / 乙第12971号 / 論医科博第2号 / 新制||医科||5(附属図書館) / 32409 / 新制||医科||5 / 横浜市立大学大学院国際総合科学研究科バイオ科学専攻 / (主査)教授 長船 健二, 教授 中畑 龍俊, 教授 髙折 晃史 / 学位規則第4条第2項該当 / Doctor of Medical Science / Kyoto University / DFAM

ES/iPS cell

megakaryocyte

platelet

regenerative medicine

c-MYC/BMI1/BCL-XL

491

The Effect of Molecular Crowding on the Stability of Human c-MYC Promoter Sequence i-motif at Neutral pH

Cui, Jingjing

17 August 2013

The oncogene c-MYC has guanine-rich and complementary cytosine-rich sequences in its P1 promoter region. The P1 promoter is responsible for over 90% of the c-MYC expression. Downregulation of c-MYC expression represents a novel therapeutic approach to more than 50% of all cancers. A stable i-motif formed by the c-MYC C-rich sequence would be an attractive target for cancer treatment. We have previously shown that c-MYC promoter sequences can form stable i-motifs in acidic solution (pH 4.5-5.5). The question is whether c-MYC promoter sequence i-motif will be stable at physiological pH. In this work, we have investigated the stability of mutant c-MYC i-motif in solutions having pH values from 4 to 7 and containing co-solutes or molecular crowding agents. The crowded nuclear environment was modeled by the addition of polyethylene glycol (PEG, having molecular weights from 200 to 12000 g/mol) at concentrations of 10% to 40% w/w. Circular dichroism spectroscopy (CD) and differential scanning calorimetry (DSC) were used to establish the presence and stability of c-MYC i-motifs in buffer solutions having pH values of 4 to 7. The results of these studies are: 1) the addition of up to 20% w/w glycerol does not increase i-motif stability, 2) the addition of 30% PEG results in an increase in i-motif stability to pH values as high as 6.7, 3) i-motif stability is increased with increased PEG concentration and increased PEG molecular weight, and 4) the effects of PEG size and concentration are not linear, with larger PEGs forming DNA/PEG complexes, which destabilize the i-motif. In summary, we have shown that the c-MYC i-motif can exist as a stable structure at pH as high as 6.7 in a crowded environment. Molecular crowding, largely an excluded volume effect, drives the formation of the more compact i-motif, even at higher pH values where the cytosine imino-nitrogen is deprotonated and neutral C-C pairs can form only two H-bonds. Based on this research, it seems possible that a stable c-MYC promoter sequence i-motif could form at physiological pH and would be a reasonable drug target for new cancer therapies.

DSC

CD

c-MYC

molecular crowding

PEG

polyethylene glycol

co-solute

i-motif

Expression of an Epitope Tagged Tarp Effector in Chlamydia Trachomatis

Nguyen, Brenda

01 January 2013

Previous studies performed on Chlamydia trachomatis have demonstrated how these obligate intracellular microbes invade host cells through the utilization of secreted effector proteins. One secreted effector called Tarp (translocated actin recruiting protein) is implicated in cytoskeleton rearrangements that promote bacterial entry into the host cell. The focus of our study is to create a plasmid that carries the tarP gene that when transcribed and translated from within Chlamydia trachomatis will generate a c-Myc epitope tagged Tarp. The tag will be used in future studies to track the progression of the protein through the infectious process and will allow us to distinguish this protein from the Tarp effector expressed from the endogenous wild type gene. The epitope-tagged Tarp expression plasmid will be used as a template to construct Tarp deletion mutants. The mutant forms will be created in regions that have been biochemically characterized and predicted to be important to the invasion process of the pathogen. Observations on the potential phenotypes of these mutants and the possibility of allelic exchange will also be pursued in the future.

Microbiology

Molecular Biology

Modulation of CSV 5' and 3' LTR transcription in c-myc activation

Boerkoel, Cornelius Franciscus, III

January 1991

No description available.

Biology, Molecular

CSV 5' 3'

LTR transcriptio n

c-myc activation