Envolvimento dos oncogenes BRAF, PIK3CA e AKT1 e do microRNA supressor de tumor let-7 na transformação maligna e progressão tumoral tiroidiana. / Involvement of BRAF, PIK3CA and AKT1 oncogenes and let-7 tumor supressor gene in malignant tranformation and progression oh thyroid cancer.

Júlio Cezar Marques Ricarte Filho

27 May 2009

Neste estudo, geramos ensaios de espectrometria de massa para detecção de 111 mutações nos genes RET, BRAF, NRAS, HRAS, KRAS, PIK3CA e AKT1 e avaliamos inúmeras linhagens celulares e tumores tiroidianos. Mostramos que as mutações dos genes BRAF e RAS refletem prognósticos distintos e que as mutações BRAF são altamente prevalentes em câncer metastático. Mutações dos genes PIK3CA e AKT1, esta última sendo reportada pela primeira vez no câncer de tiróide, são relativamente frequentes neste câncer. Avaliamos ainda a função do microRNA let-7 neste câncer. Mostramos que a ativação do rearranjo RET/PTC3 em células de tiróide PCCl3 reduz a expressão de let-7. Além disso, a transfecção deste microRNA em células TPC-1, que apresentam o rearranjo RET/PTC1, inibe a fosforilação de ERK, o crescimento celular e modula a expressão de genes do ciclo celular e diferenciação. Estes dados contribuem na aplicação de terapias dirigidas a efetores das vias PI3K e MAPK no câncer de tiróide, além de salientar o envolvimento do miRNA let-7 como um gene supressor tumoral nesta doença. / In this study, we designed an assay panel for genotyping 111 mutations by mass spectrometry in RET, BRAF, NRAS, HRAS, KRAS, PIK3CA, AKT1 and other related genes in many thyroid cancer cell lines and tumors. We show that patients with BRAF and RAS mutations have distinct prognosis and that BRAF mutations are highly prevalent in metastatic thyroid cancers. Mutations of PIK3CA and AKT1, the latter not previously described in this disease, are comparatively frequent in thyroid cancers. In addition, we evaluated the role of let-7 microRNA in this cancer. We show that RET/PTC3 activation in PCCl3 thyroid cells reduces let-7 expression. Moreover, transfection of let-7 in TPC-1 cells, which harbor RET/PTC1 rearrangement, inhibits MAPK activation, reduces cell growth and modulates the expression of cell cycle and differentiation genes. These findings may contribute to the design of therapies directed at MAPK and PI3K effectors and to highlight the function of let-7 as tumor suppressor gene in thyroid cancer.

AKT1

BRAF

Câncer tiróide

Genotipagem por espectrometria de massa

Histologia

MicroRNA let-7

Neoplasias

RET/PTC

AKT1

BRAF

Histology

Let-7 microRNA

Mass spectrometry genotyping

Neoplasms

RET/PTC

Thyroid cancer

Monitoring of Micro RNA Maturation and Its Inhibition in Living Cells

Loibl, Natalia

10 May 2022

Im ersten Teil der Arbeit wurde die Verwendung von Präkursor microRNA-21(pre-miR21)-spezifischen Peptidnukleinsäure(PNA)-Sonden zur Inhibierung der Dicer-vermittelnden miRNA-Reifung untersucht. Im Gegensatz zur Arbeitshypothese wurde bei der Behandlung von Zellen mit den pre-miR21-spezifischen PNA-Sonden jedoch keine Änderung des miR-21 Niveau beobachtet. Um die Hybridisierung der Sonde an die Zielsequenz nachzuweisen, wurden fluorogene Hybridisierungssonden zur erzwungenen Interkalation (FIT-Sonden), unter Verwendung des Interkalationsfarbstoffes Thiazolorange (TO), entwickelt. Wie vorläufige Ergebnisse zeigen, könnte die TO-PNA Sonde für die Unterscheidung von Zellen mit hohem miR-21-Gehalt nützlich sein, aber eine weitere Verbesserung der Sonde ist noch erforderlich. Im nächsten Teil der Arbeit wurden neuartige FIT-Sonden für die Analyse der Dicer-vermittelnden miR-21-Reifung entwickelt. Um die gleichzeitige Detektion der entstehenden pre-miR21 und der antisense miR-21 (as-miR21) in Echtzeit zu ermöglichen, wurden die Verwendung von spektral unterscheidbaren FIT-Sonden auf Quinolinblau(QB)-und TO-Basis getestet. Das entwickelte Sonden-Paar ermöglichte die Analyse der rhDicer-Reaktion. Dabei wurde entdeckt, dass die rhDicer-Reaktion an der in vitro transkribierten pre-miR21 unspezifisch spaltet. Zusätzlich wies die kürze as-miR21 spezifische TO-Sonde (7nt) eine Sensitivität gegenüber der Anwesenheit des Ago-2 Proteins auf. In der Zukunft könnten die entwickelten Sonden für schnelle in vitro Screenings neuer Dicer-und Ago-2-Inhibitoren angewendet werden. Im zweiten Teil der Dissertation wurde die Verwendung von niedermolekularen Inhibitoren (small molecular inhibitors, SMIs) getestet. Zusammenfassend könnten die zwei identifizierten SMIs für die Inhibierung der miR-122-Reifung genutzt werden, allerdings bleibt die Spezifität der SMIs fraglich und mögliche off-target-Effekte können nicht ausgeschlossen werden. / MicroRNAs (miRNAs) represent small non-coding RNA molecules that mostly negatively regulate gene expression. To yield mature miRNAs, primary miRNA precursors go through two consequent cleavages by Drosha and Dicer RNAse. This work describes the development of tools for inhibition und monitoring the dicer-mediated miRNA processing. Here, peptide nucleic acid (PNA) based probes, targeting the precursor miR-21 (pre-miR21), were designed for inhibition the dicer-mediated miR-21 maturation. In contrast, no change in miR-21 level was observed after cell treatment with the pre-miR21 specific PNA probes. To detect the probe/target hybridization state, the fluorogenic forced intercalation (FIT) PNA probes, bearing thiazole orange dye (TO), were developed. As preliminary results show, the FIT PNA probe might be useful for discrimination of high miR-21 abundant cells, but further probe improvement is still required. To monitor the pre-miR21 cleavage, the combination of the two spectrally distinguishable FIT PNA probes, bearing quinoline blue (QB) and TO fluorophore, was developed to allow the rapid and simultaneous detection of pre-miR21 and antisense mature miR-21 (as-miR21). The probe set was successfully used for detection of the modelled dicer reaction. However, the monitoring of rhDicer reaction have revealed that rhDicer cleaves the in vitro transcribed pre-miR21 nonspecifically. Additionally, the short as-miR21 specific TO PNA probe (7nt) was responsive to the presence of Ago-2 protein. In future, the developed probes can be applied for the fast in vitro screening of new Dicer and Ago-2 inhibitors. In the second part of this work, an alternative approach, small molecular inhibitors (SMIs), was tested. Two identified pre-miR122-targeting SMIs might be used for inhibition of the miR-122 maturation, although, a specificity of these SMIs remains questionable and possible off target effects cannot be excluded.

MicroRNA

FIT-Sonden

niedermolekularen Inhibitoren

Thiazolorange

Peptidnukleinsäure

PNA

microRNA

FIT probes

small molecular inhibitors

thiazole orange

peptide nucleic acid

PNA

572 Biochemie

547 Organische Chemie

ddc:572

ddc:547

REGULATORY ROLES OF G-QUADRUPLEX IN microRNA PROCESSING AND mRNA TRANSLATION

Mirihana Arachchilage, Gayan S.

01 August 2016

No description available.

Biochemistry

Cellular Biology

Chemistry

Molecular Biology

G-quadruplex

Dicer

pre-miRNA

microRNA

Codon bias

translation

microRNA biogenesis

library screening

LNA

lung cancer

RNA

RNA secondary structure

RNA switch

locked nucleic acids

miRNA therapeutics

in vitro selection

GQ switch

Role of Tissue Kallikrein-Related Peptidase 6 in Colon Cancer Invasion

Sells, Earlphia

January 2015

Growing evidence indicates that serine proteases known as kallikreins are associated with malignancy and may have potential diagnostic/prognostic applications in cancer. Kallikreins are the largest group of serine proteases. Kallikrein enzymes are often involved in proteolytic cascades through their function in degradation of extracellular matrix proteins and promotion of angiogenesis. Kallikrein 6 (KLK6) is a member of the family of fifteen highly conserved secreted trypsin- or chemotrypsin-like serine proteases. Over-expression of KLK6 has been observed in different pathophysiological states such as neurodegenerative diseases, inflammation and various cancers, including colorectal cancer. In Chapter 3 we elucidated the miRNA-based mechanism of regulation of invasion in metastatic colorectal cancer over-expressing KLK6. We developed HCT116 colon stable isogenic cell lines with knockdown of KLK6 expression using short-hairpin interference RNA (shKLK6 clones). The shKLK6 clones had decreased expression and secretion of KLK6 protein with a minimal effect on cell growth and viability in cell culture. SCID mice injected with shKLK6-3 clone 3 cells exhibited a statistically significant increase in the survival rates (P=0.005), decrease in the incidence of distant metastases and a shift in the location of the metastatic foci closer to the cell's injection site. Levels of KLK6 protein secreted into the bloodstream were significantly lower in animals injected with shKLK6-3 clone 3 compared to HCT116 control clone 1 (P < 0.04). Through bioinformatics analyses we identified and validated three miRNAs, which are important in post-translational modification of bioactive proteins, proliferation, migration and p38 MAPK signaling pathway. In Chapter 4 we developed Caco-2 colon stable isogenic cell lines with expressing enzymatically active or mutant KLK6 protein (Caco-2 stable clones). We employed these cell lines to investigate the importance of KLK6 enzymatic activity of initiation of cell invasion using in vitro and in vivo models.

Kallikrein-related peptidase 6

KLK6 enzyme

microRNA

mRNA

serine protease

Molecular & Cellular Biology

colorectal cancer invasion

Μοριακοί μηχανισμοί που ενέχονται στην παθογένεια του μη μικροκυτταρικού καρκίνου του πνεύμονα με έμφαση στο ρόλο των ρυθμιστών των microRNAs, Drosha, Dicer και AGO2

Προδρομάκη, Ελένη

17 July 2014

Ο καρκίνος του πνεύμονα είναι η πιο συχνή αιτία θανάτου από καρκίνο παγκοσμίως. Είναι γνωστό ότι ο καρκίνος του πνεύμονα είναι διαδικασία πολλαπλών σταδίων, στην οποία ενέχονται γενετικοί και επιγενετικοί μηχανισμοί. Ενεργοποίηση ογκογονιδίων συμβαίνει σε όλους τους βρογχοπνευμονικούς καρκίνους με αποτέλεσμα την αύξηση των μιτογόνων σημάτων. Στον καρκίνο του πνεύμονα τα πιο συχνά ενεργοποιημένα ογκογονίδια είναι τα EGFR, ERbB2, MYC, KRAS, MET, CCND1, CDK4, EML4-ALK fusion, και BCL2. Επίσης, η απώλεια ογκοκατασταλτικών γονιδίων είναι ιδιαίτερα σημαντική στην πνευμονική καρκινογένεση και είναι συνήθως αποτέλεσμα απενεργοποίησης και των δυο αλληλόμορφων. Συχνά απενεργοποιημένα ογκοκατασταλτικά γονίδια στον καρκίνο του πνεύμονα είναι TP53, RB1, STK11, CDKN2A, FHIT και PTEN. Οι επιγενετικοί μηχανισμοί περιλαμβάνουν την μεθυλίωση του DNA, την τροποποίηση των ιστονών και τη ρύθμιση της γονιδιακής έκφρασης μέσω των microRNAs. Τα microRNAs είναι μικρά, μη κωδικοποιούντα μόρια RNA που εμπλέκονται στην αρνητική μετα-μεταγραφική ρύθμιση της έκφρασης των γονιδίων. Μελέτες έχουν αποδείξει το ρόλο των miRNAs στην φυσιολογική πνευμονική ανάπτυξη και ομοιόσταση αλλά και τον ενεργό ρολό τους στην παθογένεια πνευμονικών νοσημάτων όπως είναι ο καρκίνος του πνεύμονα. Η δημιουργία ωρίμων, λειτουργικών microRNAs απαιτεί τη συντονισμένη δράση μιας ομάδας πρωτεϊνών που στο σύνολο τους απαρτίζουν το μηχανισμό ρύθμισης των microRNA (microRNA machinery). Ο μηχανισμός ελέγχου των microRNA ρυθμίζει μέσω των παραγομένων microRNAs την έκφραση πολλών ογκοκατασταλτικών γονιδίων και ογκογονιδίων. Κύρια συστατικά του μηχανισμού ρύθμισης των microRNA είναι οι ριβονουκλεάσες Drosha, Dicer και AGO2. Σκοπός της παρούσας διατριβής ήταν η μελέτη της κυτταρικής εντόπισης και έκφρασης των συστατικών του μηχανισμού ρύθμισης των microRNA, Drosha, Dicer και AGO2, στον μη μικροκυτταρικό καρκίνο του πνεύμονα. Συγκεκριμένα, ελέγχθηκε η κυτταρική εντόπιση των Drosha, Dicer και AGO2 στις κυτταρικές σειρές καρκίνου του πνεύμονα A549, H23, H358, H661, HCC827 με τη μέθοδο του ανοσοφθορισμού. Στις ίδιες κυτταρικές σειρές, μελετήθηκαν τα κυτταρικά επίπεδα των πρωτεϊνών Drosha, Dicer και AGO2 με την μέθοδο της SDS-PAGE και του ανοσοαποτυπώματος. H έκφραση των πρωτεϊνών αυτών μελετήθηκε σε ιστολογικές τομές παραφίνης μη μικροκυτταρικού καρκίνου του πνεύμονα NSCLC με την μέθοδο της ανοσοϊστοχημείας. Επιπλέον συσχετίσαμε τα επίπεδα της ανοσοϊστοχημικής χρώσης αυτών των ριβονουκλεασών με κλινικοπαθολογοανατομικές παραμέτρους. Η παρούσα εργασία είναι η πρώτη που μελετά την κυτταρική εντόπιση της Drosha in vitro και σε ιστούς από ανθρώπινο καρκίνο του πνεύμονα. Τα επίπεδα ανοσοέκφρασης της Drosha ήταν στατιστικά χαμηλότερα στα νεοπλασματικά κύτταρα NSCLC, σε σχέση με τα φυσιολογικά. Επίσης, τα κυτταρικά επίπεδα της Drosha ήταν στατιστικά χαμηλότερα στα NSCLC σταδίου Ι σε σχέση με το φυσιολογικό ιστό. Όμως, στατιστικά σημαντική διαφορά δεν προέκυψε από την σύγκριση καρκινικών ιστών μεταξύ τους κατά ιστολογικό τύπο, στάδιο νόσου και βαθμό κακοήθειας. Τα ευρήματα αυτά υποδηλώνουν συμμετοχή της ριβονουκλεάσης Drosha στην πνευμονική κακοήθη εξαλλαγή και στην παθογένεια του NSCLC αλλά όχι στην εξέλιξη της νόσου. Η παρούσα εργασία είναι η πρώτη που μελετά την κυτταρική εντόπιση της Dicer in vitro και σε ιστούς από ανθρώπινο καρκίνο του πνεύμονα. Τα πειράματα ανοσοϊστοχημείας, ανέδειξαν ότι τα επίπεδα ανοσοέκφρασης της Dicer ήταν στατιστικά χαμηλότερα στα NSCLC σταδίου Ι σε σχέση με το φυσιολογικό ιστό (p=0,040). Μάλιστα, παρατηρήθηκε στατιστικά σημαντική διαφορά στην ανοσοέκφραση της Dicer στην σύγκριση των τριών σταδίων μεταξύ τους (p=0,049) και αυτό το εύρημα παρουσιάζεται για πρώτη φορά στη βιβλιογραφία από την παρούσα μελέτη. Όμως, τα κυτταρικά επίπεδα αυτής της πρωτεΐνης δεν σχετίζονται με τον ιστολογικό τύπο αλλά και το βαθμό της κακοήθειας. Τα ευρήματα μας αυτά εισηγούνται τη συμμετοχή της ριβονουκλεάσης Dicer στην πνευμονική καρκινογένεση και στην εξέλιξη της νόσου. Τέλος, τα κυτταρικά επίπεδα της ενδονουκλεάσης AGO2 είναι στατιστικά χαμηλότερα στα πνευμονικά νεοπλασματικά κύτταρα σε σχέση με τα φυσιολογικά. Η πρωτεϊνική έκφραση των κυτταρικών σειρών NSCLC παρουσίασε σχεδόν ομοιόμορφη κατανομή. Μάλιστα, και για την πρωτεΐνη AGO2 τα επίπεδα ανοσοέκφρασης είναι στατιστικά χαμηλότερα στα NSCLC σταδίου Ι σε σχέση με το φυσιολογικό ιστό (p=0,000). Όμως, παρατηρήθηκε ότι τα κυτταρικά επίπεδα αυτής της πρωτεΐνης δεν σχετίζονται με τον ιστολογικό τύπο, το στάδιο της νόσου αλλά και το βαθμό της κακοήθειας. Το γεγονός αυτό ενισχύει την άποψη ότι η AGO2 συμμετέχει στην παθοβιολογία του NSCLC αλλά πιθανά όχι στην εξέλιξη της νόσου. Εάν αποδειχθεί σημαντική η συμμετοχή του μηχανισμού ρύθμισης των microRNA στην παθογένεια της πνευμονικής κακοήθειας, θα υπάρξει η δυνατότητα να χρησιμοποιηθούν για την δημιουργία υποομάδων («μοριακά πορτραίτα») του καρκίνου του πνεύμονα, οι οποίες να έχουν προγνωστική αλλά και θεραπευτική αξία (στοχευμένες θεραπείες). / Lung cancer is the leading cause of cancer related death worldwide. Decades of research have contributed to our understanding that lung cancer is a multistep process involving genetic and epigenetic alterations. Oncogene activation occurs in all lung cancers, resulting in persistent upregulation of mitogenic signals. In lung cancer commonly activated oncogenes are EGFR, ERbB2, MYC, KRAS, MET, CCND1, CDK4, EML4-ALK fusion, and BCL2. Loss of tumor suppressor gene (TSG) function is also important in lung carcinogenesis and usually results from silencing of both alleles. Commonly unactivated TSGs in lung cancer are TP53, RB1, STK11, CDKN2A, FHIT and PTEN. Epigenetic alterations include DNA methylation, histone modification and microRNA regulation of gene expression. MicroRNAs are small non-protein encoding RNAs, responsible for the negative post transcriptional regulation of gene expression. Studies have shown the role of microRNAs in normal pulmonary development and homeostasis but also in the pathogenesis of multiple lung diseases including lung cancer. The biogenesis of mature and functional microRNAs requires the orchestrated action of a group of proteins, collectively refered to as miRNA machinery. The miRNA machinery regulates the expression of many TSGs and oncogenes in a miRNA guided fashion. Drosha, Dicer and AGO2 are main components of the miRNA machinery. Our study adressed the cellular localization and protein levels of Drosha, Dicer and AGO2, components of the miRNA machinery, in NSCLC cell lines, and in NSCLC FFPE tissue sections. We employed immunofluorescence and Western blot analysis in five NSCLC cell lines and immunohistochemistry on FFPE NSCLC tissue sections. Staining intensity of the FFPE tissues was correlated with clinicopathological parameters. Altered Drosha cellular distribution was evident in neoplasia. The staining intensity of Drosha (p=0,03) was significantly lower in neoplastic tissues compared to normal tissues. When we compared neoplastic tissue stage I with normal tissues, Drosha’s staining intensity (p=0,002) was significantly lower. Drosha, protein levels were not significantly associated with age, tumor histology, grade or stage. Altered Dicer nuclear distribution was evident in lung neoplasia. The staining intensity of Dicer was significantly lower in neoplastic tissues stage I compared to normal tissues (p=0,04). Dicer’s protein levels in FFPE tissues were significantly associated with tumor stage (p=0,049). AGO2 excibited physiological cytoplasmic distribution in lung neoplasia. The staining intensity of AGO2 was significantly lower in neoplastic tissues compared to normal tissues (p=0,000). When we compared neoplastic tissue stage I with normal tissues, AGO2 staining intensity (p=0,000) was significantly lower. AGO2 protein levels were not significantly associated with age, tumor histology, grade or stage. Our findings provide evidence that the miRNA machinery components Drosha, Dicer and AGO2 are involved in lung carcinogenesis but only Dicer is implicated in cancer progression. The expression levels of the miRNA processing components might contribute to improved cancerous molecular portraits for achieving personalized medicine, the selection of patient-tailored treatment regimens.

Καρκίνος του πνεύμονα

616.994 490 71

Lung cancer

MicroRNA

Drosha

Dicer

AGO2

NSCLC

Prédiction de boucles de régulation associant microARN et gènes régulés par le récepteur de l'acide rétinoïque dans le cancer du sein

Boufaden, Asma

06 1900

Le récepteur de l'acide rétinoïque RAR est une protéine de la superfamille des récepteurs nucléaires liant le ligand acide rétinoïque (AR). En présence de son ligand, RAR induit la transcription de ses gènes cibles alors qu'en son absence la transcription est inhibée. Le mécanisme de régulation de RAR est altéré dans les lignées cellulaires humaines de carcinome mammaire dû à une baisse de capacité de synthèse de l'AR. Aussi, l'expression des microARN (miR) est perturbée dans le cancer du sein et un grand nombre de gènes ont été identifiés, après une analyse in-silico, comme des cibles prédites des miRs. Ces derniers peuvent être régulés pas des facteurs de transcription et ils sont capables d'inhiber la prolifération cellulaire et d'induire l'apoptose via la régulation de leurs cibles. Ainsi, les miRs peuvent jouer un rôle dans le mécanisme de régulation de RAR et être impliqués dans des boucles de régulation avec ce récepteur. Dans le cadre de ce travail, nous décrivons une approche développée pour prédire et caractériser des circuits de régulation au niveau transcriptionnel et post-transcriptionnel dans le cancer du sein. Nous nous sommes intéressés aux boucles de régulation de type feed-forward où RAR régule un miR et en commun ils régulent un ensemble de gènes codants pour des protéines dans les cellules tumorales mammaires MCF7 et SKBR3. Ces circuits ont été construits en combinant des données de ChIP-chip de RAR et des données de micro-puces d'ADN tout en utilisant des outils in-silico de prédiction des gènes cibles de miRs. Afin de proposer le modèle approprié de régulation, une analyse in-silico des éléments de réponse de l'AR (RARE) dans les promoteurs des miRs est réalisée. Cette étape permet de prédire si la régulation par RAR est directe ou indirecte. Les boucles ainsi prédites sont filtrées en se basant sur des données d'expression de miR existantes dans des bases de données et dans différentes lignées cellulaires, en vue d'éliminer les faux positifs. De plus, seuls les circuits pertinents sur le plan biologique et trouvés enrichis dans Gene Ontology sont retenus. Nous proposons également d'inférer l'activité des miRs afin d'orienter leur régulation par RAR. L'approche a réussi à identifier des boucles validées expérimentalement. Plusieurs circuits de régulation prédits semblent être impliqués dans divers aspects du développement de l'organisme, de la prolifération et de la différenciation cellulaire. De plus, nous avons pu valider que let-7a peut être induit par l'AR dans les MCF7. / The retinoic acid receptor (RAR) is a type of nuclear receptor that is activated by the ligand retinoic acid (RA). In the presence of ligand, RAR induces the transcription of its targets whereas in the absence of ligand the transcription is blocked. The mechanism of regulation of RAR is altered in breast cancer cell lines due to a reduced capacity to synthesize RA. Also aberrant patterns of microRNA (miR) expression have been reported in human breast cancer and a number of genes involved in breast cancer progression have been identified by in-silico analysis to be targets of miRs. The miRs could be controlled by transcription factors and via the regulation of their mRNA targets, the miRs could promote apoptosis and even inhibit cell proliferation. Hence, the miRs may play a role in the mechanism of regulation of RAR and could be involved in regulatory loops with this receptor. In this work, we describe an approach developed for the prediction and characterization of mixed transcriptional and post-transcriptional regulatory circuits in breast cancer. We concentrated in particular on feed-forward loops, in which RAR regulates a miR, and together with it, a set of joint target protein coding genes in human breast cancer cell lines MCF7 and SKBR3. These loops are constructed by combining ChIP-chip datasets of RAR with datasets of DNA microarrays and by using miR target prediction tools. In order to predict the appropriate model of regulation, in-silico analysis was performed to look for retinoic acid response element (RARE) in miR promoter. This step could identify if the regulation by RAR is direct or indirect. The regulatory loops will be then filtered, in order to reduce the number of false positive, based on databases designed to represent human miR expression profiles in different tissues or cell types. Moreover, only biologically relevant circuits enriched in Gene Ontology were retained. Also, we propose to infer miR activity in order to detect their regulation by RAR. This approach was able to find some existing experimental data. Several regulatory circuits seem to be involved in various aspects of organism development, proliferation and cell differentiation. Furthermore, we were able to validate the induction of let-7a by RA in MCF7 cells.

RAR

microARN

Boucles de régulation

RARE

transcription

post-transcription

regulatory loops

microRNA

Conception de microARNs pour attenuer l'expression de genes

Caron, Maxime

09 1900

Les microARNs appartiennent à la famille des petits ARNs non-codants et agissent comme inhibiteurs des ARN messagers et/ou de leurs produits protéiques. Les mi- croARNs sont différents des petits ARNs interférants (siARN) car ils atténuent l’ex- pression au lieu de l’éliminer. Dans les dernières années, de nombreux microARNs et leurs cibles ont été découverts chez les mammifères et les plantes. La bioinforma- tique joue un rôle important dans ce domaine, et des programmes informatiques de découvertes de cibles ont été mis à la disposition de la communauté scientifique. Les microARNs peuvent réguler chacun des centaines de gènes, et les profils d’expression de ces derniers peuvent servir comme classificateurs de certains cancers. La modélisation des microARNs artificiels est donc justifiable, où l’un pourrait cibler des oncogènes surexprimés et promouvoir une prolifération de cellules en santé. Un outil pour créer des microARNs artificiels, nommé MultiTar V1.0, a été créé et est disponible comme application web. L’outil se base sur des propriétés structurelles et biochimiques des microARNs et utilise la recherche tabou, une métaheuristique. Il est démontré que des microARNs conçus in-silico peuvent avoir des effets lorsque testés in-vitro. Les sé- quences 3’UTR des gènes E2F1, E2F2 et E2F3 ont été soumises en entrée au programme MultiTar, et les microARNs prédits ont ensuite été testés avec des essais luciférases, des western blots et des courbes de croissance cellulaire. Au moins un microARN artificiel est capable de réguler les trois gènes par essais luciférases, et chacun des microARNs a pu réguler l’expression de E2F1 et E2F2 dans les western blots. Les courbes de crois- sance démontrent que chacun des microARNs interfère avec la croissance cellulaire. Ces résultats ouvrent de nouvelles portes vers des possibilités thérapeutiques. / MicroRNAs belong to the family of small non-coding RNAs and act as down regula- tors of messenger RNAs and/or their protein products. microRNAs differ from siRNAs by downregulating instead of shutting down. In recent years, numerous microRNAs and their targets have been found in mammals and plants. Bioinformatics plays a big role in this field, as software has emerged to find new microRNA targets. Each individual microRNA can regulate hundreds of genes, and it has been shown that microRNA expression profiles can classify human cancers. The need for artificially created mi- croRNAs is then justified, as one could target overexpressed oncogenes and promote healthy cell proliferation. MultiTar V1.0, a tool for creating artificial microRNAs, has been implemented and is available as a web application. The tool relies on structural and biological properties of microRNAs and uses a Tabusearch metaheuristic. A typical biological problem is presented and it is shown that an in-silico microRNA has in-vitro effects. The 3’UTR sequences of E2F1, E2F2 and E2F3 were given as input to the tool, and predicted microRNAs were then tested using luciferase essays, western blots and growth curves. At least one microRNA is able to regulate the three genes with luciferase essays and all of the created microRNAs were able to regulate the expres- sion of E2F1 and E2F2 with western blots. Growth curves were also studied in order to investigate overall biological effects, and reduction in growth was observed for all solutions. Results obtained with the predicted microRNAs and the target genes open a new door into therapeutic possibilities.

MicroARN

E2F

Recherche tabou

Régulation de l'expression

mir20

MicroRNA

Tabusearch

Downregulation

The Role of MicroRNA Regulation of Cardiac Ion Channel in Arrhythmia

Luo, Xiaobin

08 1900

La fibrillation auriculaire (FA) est le trouble du rythme le plus fréquemment observé en pratique clinique. Elle constitue un risque important de morbi-mortalité. Le traitement de la FA reste un défi majeur en lien avec les nombreux effets secondaires associés aux approches thérapeutiques actuelles. Dans ce contexte, une meilleure compréhension des mécanismes sous-jacents à la FA est essentielle pour le développement de nouvelles thérapies offrant un meilleur rapport bénéfice/risque pour les patients. La FA est caractérisée par i) un remodelage électrique délétère associé le plus souvent ii) à un remodelage structurel du myocarde favorisant la récurrence et le maintien de l’arythmie. La diminution de la période réfractaire effective au sein du tissu auriculaire est un élément clef du remodelage électrique. Le remodelage structurel, quant à lui, se manifeste principalement par une fibrose tissulaire qui altère la propagation de l’influx électrique dans les oreillettes. Les mécanismes moléculaires impliqués dans la mise en place de ces deux substrats restent mal connus. Récemment, le rôle des microARNs (miARNs) a été pointé du doigt dans de nombreuses pathologies notamment cardiaques. Dans ce contexte les objectifs principaux de ce travail ont été i) d'acquérir une compréhension approfondie du rôle des miARNs dans la régulation de l’expression des canaux ioniques et ii) de mieux comprendre le rôle de ces molécules dans l’installation d’un substrat favorable a la FA. Nous avons, dans un premier temps, effectué une analyse bio-informatique combinée à des approches expérimentales spécifiques afin d’identifier clairement les miARNs démontrant un fort potentiel de régulation des gènes codant pour l’expression des canaux ioniques cardiaques humains. Nous avons identifié un nombre limité de miARNs cardiaques qui possédaient ces propriétés. Sur la base de ces résultats, nous avons démontré que l’altération de l'expression des canaux ioniques, observée dans diverse maladies cardiaques (par exemple, les cardiomyopathies, l’ischémie myocardique, et la fibrillation auriculaire), peut être soumise à ces miARNs suggérant leur implication dans l’arythmogénèse. La régulation du courant potassique IK1 est un facteur déterminant du remodelage électrique auriculaire associée à la FA. Les mécanismes moléculaires sous-jacents sont peu connus. Nous avons émis l’hypothèse que l'altération de l’expression des miARNs soit corrélée à l’augmentation de l’expression d’IK1 dans la FA. Nous avons constaté que l’expression de miR-26 est réduite dans la FA et qu’elle régule IK1 en modulant l’expression de sa sous-unité Kir2.1. Nous avons démontré que miR-26 est sous la répression transcriptionnelle du facteur nucléaire des lymphocytes T activés (NFAT) et que l’activité accrue de NFATc3/c4, aboutit à une expression réduite de miR-26. En conséquence IK1 augmente lors de la FA. Nous avons enfin démontré que l’interférence in vivo de miR-26 influence la susceptibilité à la FA en régulant IK1, confirmant le rôle prépondérant de miR-26 dans le remodelage auriculaire électrique. La fibrose auriculaire est un constituant majeur du remodelage structurel associé à la FA, impliquant l'activation des fibroblastes et l’influx cellulaire du Ca2 +. Nous avons cherché à déterminer i) si le canal perméable au Ca2+, TRPC3, jouait un rôle dans la fibrose auriculaire en favorisant l'activation des fibroblastes et ii) étudié le rôle potentiel des miARNs dans ce contexte. Nous avons démontré que les canaux TRPC3 favorisent l’influx du Ca2 +, activant la signalisation Ca2 +-dépendante ERK et en conséquence activent la prolifération des fibroblastes. Nous avons également démontré que l’expression du TRPC3 est augmentée dans la FA et que le blocage in vivo de TRPC3 empêche le développement de substrats reliés à la FA. Nous avons par ailleurs validé que miR-26 régule les canaux TRPC3 en diminuant leur expression dans les fibroblastes. Enfin, nous avons montré que l'expression réduite du miR-26 est également due à l’activité augmentée de NFATc3/c4 dans les fibroblastes, expliquant ainsi l’augmentation de TRPC3 lors de la FA, confirmant la contribution de miR-26 dans le processus de remodelage structurel lié à la FA. En conclusion, nos résultats mettent en évidence l'importance des miARNs dans la régulation des canaux ioniques cardiaques. Notamment, miR-26 joue un rôle important dans le remodelage électrique et structurel associé à la FA et ce, en régulant IK1 et l’expression du canal TRPC3. Notre étude démasque ainsi un mécanisme moléculaire de contrôle de la FA innovateur associant des miARNs. miR-26 en particulier représente apres ces travaux une nouvelle cible thérapeutique prometteuse pour traiter la FA. / Atrial fibrillation (AF) is the most frequently-encountered arrhythmia in clinical practice and constitutes a major cause of cardiac morbidity and mortality. The management of AF remains a major challenge as current therapeutic approaches are limited by potential adverse effects and high rate of AF recurrence/persistence. A better understanding of the mechanisms underlying AF is of great importance to improve AF therapy. AF is characterized by impaired electrical and structural remodeling, both of which favors the recurrence and maintenance of the arrhythmia. A key feature in electrical remodeling is the reduced atrial effective refractory period, due to ion channel alteration. Structural remodeling, on the other hand, mainly results from atrial fibrosis. However, the precise molecular mechanisms underlying these remodeling processes are still incompletely understood. The importance of microRNAs (miRNAs) in various pathophysiological conditions of the heart has been well established, but little is known with regard to cardiac arrhythmias. Emerging evidence suggests that dysregulation of miRNAs may underlie heart rhythm disturbances. The aim of the present work was to acquire a comprehensive understanding of miRNA-mediated regulation of ion channels in cardiac arrhythmias. Notably, we will focus on the mechanistic insights of miRNAs related to the control of AF. Currently available experimental approaches do not permit thorough characterization of miRNA targeting. For this purpose, we performed bioinformatic analyses in conjunction with experimental approaches to identify miRNAs from the database that potentially regulate human cardiac ion channel genes. We found that only a subset of miRNAs target cardiac ion channel genes. Based on these results, we further demonstrated that the dysregulation of ion channel gene expression observed in various cardiac disorders (e.g. cardiomyopathy, myocardial ischemia, and atrial fibrillation) can be explained by the dysregulation of miRNAs. These findings further support the potential implication of miRNAs in arrhythmogenesis under these cardiac conditions. The upregulation of the cardiac inward rectifying potassium current, IK1, is a key determinant of adverse atrial electrical remodeling associated with AF. The molecular mechanisms underlying this ionic remodeling are poorly understood. We hypothesized that altered miRNA expression is responsible for IK1 upregulation in AF. We found that miR-26 is significantly downregulated in AF and regulates IK1 by controlling the expression of its underlying subunit Kir2.1. Moreover, we demonstrated that miR-26 is under the transcriptional repression of the nuclear factor of activated T cells (NFAT) and enhanced activities of members of the NFAT family, NFATc3/c4, results in miR-26 downregulation, which accounts for IK1 enhancement in AF. Furthermore, we observed that in vivo interference of miR-26 affects AF susceptibility via the regulation of IK1, suggesting an important role of miR-26 in atrial electrical remodeling. Atrial fibrosis is a major constituent in AF-associated adverse atrial structural remodeling, involving the activation of fibroblasts and cellular Ca2+ entry. Here, we sought to determine whether the Ca2+ permeable channel, TRPC3, plays a role in AF-induced fibrosis by promoting fibroblast activation. Furthermore, we investigated the potential role of miRNAs in this context. We found that TRPC3 channels promote Ca2+-entry, which results in activation of Ca2+-dependent ERK-signaling and consequently fibroblast activation. We also demonstrated that TRPC3 is upregulated in AF and in vivo TRPC3 blockade suppresses the development of AF-promoting substrate. Furthermore, we observed that miR-26 regulates TRPC3 channels via controlling the expression of the underlying channel subunit and is downregulated in AF-fibroblasts. Finally, we showed that the reduced expression of miR-26 is also due to the enhanced NFATc3/c4 activities in AF-fibroblasts and accounts for AF-induced upregulation of TRPC3, suggesting the potential contribution of miR-26 in AF-related adverse structural remodeling process. In conclusion, our findings emphasize the importance of miRNAs in the regulation of cardiac ion channels. Notably, miR-26 plays a crucial role in AF-associated electrical and structural remodeling via the regulation of IK1 and TRPC3 channel genes. Thus, our study unravels a novel molecular control mechanism of AF at the miRNA level, suggesting miR-26 as a new and promising therapeutic target for AF.

Arrhythmia

Atrial fibrillation

microRNA

Arythmie

Fibrillation auriculaire

microARN

miR-26

IK1

TRPC3

Variation and Modulation of microRNAs in Prostate Cancer and Biological Fluids

Seashols, Sarah

25 November 2013

Prostate cancer is the second-most diagnosed and fatal carcinoma for males in the United States, and better diagnostic markers and potential therapies are needed. microRNAs are small, single-stranded RNA molecules that affect protein expression at the translational level, and dysregulation can dramatically affect cell metabolism. Comparison of 736 microRNA expression levels between the poorly metastatic SV40T immortalized prostate epithelial cell line P69 to its highly tumorigenic and metastatic subline M12 identified 231 miRs that were overexpressed and 150 miRs that showed loss of expression in the M12 cell line. Further evaluation of fourteen identified miRs was accomplished using other prostate cell lines as well as laser-capture microdissected prostate samples. Inhibition of miR-147b was found to affect proliferative, migratory and invasive capabilities of M12 cells, and reduced tumour growth in nude athymic mice. AATF, an activator of the cell-cycle inhibitor p21, was identified as a target. Overexpression of miR-9 was found to affect the epithelial to mesenchymal transition through suppression of e-cadherin, a protein characterized as lost in EMT, as well as suppression of SOCS5, an attenuator of JAK-STAT signaling. Inhibition of miR-9 resulted in reduction of migratory and invasive potential, and significant reduction of tumorigenesis and metastases in male nude athymic mice. miR-17-3p was previously identified as down-regulated in prostate cancer and loss of miR-17-3p shown to cause vimentin transcriptional activation. Reverse phase microarray analysis (RPMA) identified c-KIT as a potential second mRNA target for miR-17-3p. miR-17-3p was shown to modulate not only protein levels, but also messenger RNA levels of c-KIT. Four miR-17-3p binding sites in the c-KIT mRNA were identified. Thus, a number of microRNAs involved in prostate cancer were identified, and their targets found to be highly relevant to tumour progression and could potentially be used as targets for therapy or diagnostics. Stability of microRNAs in forensically relevant biological fluids was evaluated through heat treatment, ultraviolet radiation, and chemical treatment. The dried body fluids showed some susceptibility to harsh treatment, but in most cases microRNAs were still detectable in the samples. microRNAs could represent a highly stable species for body fluid identification methods in forensic science.

microRNA

prostate cancer

forensic body fluid identification

c-KIT

AATF/Che-1

e-cadherin

SOCS5

Life Sciences

NOVEL STRATEGIES TO IMPROVE METABOLIC PARAMETERS AND PRECONDITION DIABETIC HEARTS AGAINST ISCHEMIA/REPERFUSION INJURY

VARMA, AMIT

16 November 2012

Insulin resistance and chronic hyperglycemia promote vascular damage, increase circulating levels of inflammatory cytokines and lead to increased morbidity and mortality. MicroRNAs (miRs) -103/107 have been shown to negatively regulate insulin sensitivity and glucose homeostasis. Based on complimentary binding profiles, the downstream target gene of miR-103/107 is caveolin-1 (Cav-1). We hypothesized that daily administration of the phosphodiesterase-5 inhibitor tadalafil (TAD) ± the curcumin analogue (HO-3867) will attenuate inflammation, improve metabolic parameters and reduce infarct size after ischemia/reperfusion injury (IRI). Furthermore, we propose that TAD therapy will reduce myocardial expression of miR-103/107 and increase mRNA and protein levels of its target gene, Cav-1. Leptin receptor null mice were randomized to receive daily injections of TAD (1mg/kg), HO-3867 (25mg/Kg), combination therapy, or control for 12weeks with weight and fasting glucose monitored weekly. Upon completion, cardiomyocytes were isolated from each group and were subjected to simulated ischemia and reoxygenation (SI/RO) for cell viability and reactive oxygen species (ROS) measurement. Another set were subjected to IRI in a Langendorff model. Plasma samples were taken to measure plasma concentrations of cytokines. For miR expression, total RNA was isolated from TAD and DMSO treated mice and was subjected to reverse transcription and real time PCR using miR assay probes to determine expression. TAD, HO-3867 and the combination of both attenuated fasting glucose levels, reduced myocardial infarct size after IRI and inflammatory cytokines when compared to control (p<0.05 for each vs. control). Cardiomyocytes isolated from each treatment groups and subjected to SI/RO demonstrated reduced necrosis as shown by trypan blue exclusion assay, ROS generation, and improved mitochondrial membrane potential as compared to DMSO (control). Likewise, both mRNA and protein expression of Cav-1 were reduced in diabetic hearts but were significantly increased in TAD treated diabetic mice, which may be a mechanism to improve insulin signaling through downregulation of miR-103/107 and upregulation of Cav-1. These studies suggest that TAD alone or in combination may be a unique strategy to improve metabolic parameters and precondition diabetic hearts against IRI.

CURCUMIN

PHOSPHODIESTERASE-5 INHIBITORS

INFLAMMATION

INSULIN RESISTANCE

MICRORNA-103/107

DIABETES MELLITUS

ISCHEMIA/REPERFUSION INJURY

Life Sciences

Physiology