RNAi Screening of the Kinome to Identify Mediators of proliferation and trastuzumab (Herceptin) resistance in HER2 Breast Cancers

Lapin, Valentina

17 July 2013

Breast cancers with overexpression or amplification of the HER2 tyrosine kinase receptor are more aggressive, resistant to chemotherapy, and associated with a worse prognosis. Currently, these breast cancers are treated with the monoclonal antibody trastuzumab (Herceptin®). Unfortunately, not all patients respond to trastuzumab drug therapy; some patients show de novo resistance, while others acquire resistance during treatment. This thesis describes our RNAi studies to identify novel regulators of the HER2 signaling pathway in breast cancer. Three kinome-wide siRNA screens were performed on five HER2 amplified and seven HER2 non-amplified breast cancer cell lines, two normal breast cell lines, as well as two HER2-positive breast cancer cell lines with acquired trastuzumab resistance and their isogenic trastuzumab-sensitive controls. To understand the main kinase drivers of HER2 signaling, we performed a comprehensive screen that selected against growth inhibitors of the non-HER2 amplified breast cancer cell lines. This screen identified the loss of the HER2/HER3 heterodimer as the most prominent selective inhibitor of HER2-amplified breast cancers. In a trastuzumab sensitization screen on five trastuzumab-treated breast cancer cell lines, we identified several siRNA against the PI3K pathway as well as various other signaling pathways that inhibited proliferation. Finally, in a screen for acquired trastuzumab resistance, PKCη and its downstream targets were identified. Loss of PKCη resulted in a decrease in G1/S transition and upregulation of the cyclin dependent kinase inhibitor p27. Initial data suggest that PKCη promotes p27 ubiquitination and degradation. Taken together, these studies provide novel insight into the complex signaling of HER2-positive breast cancers and the mechanisms of resistance to trastuzumab therapy. This work describes how various kinases can modulate cell proliferation, and points to possible novel drug targets for the treatment of HER2-positive breast cancers.

RNAi

HER2

high-throughput screen

breast cancer

trastuzumab

Herceptin

drug resistance

siRNA

0992

0307

0369

Characterisation of the response of Aedes mosquito cells to Semliki Forest virus infection

Siu, Ricky Wai Chi

January 2012

Arboviruses are transmitted to vertebrates by arthropod vectors such as mosquitoes or ticks. The replication of Semliki Forest virus (SFV) (Togaviridae; Alphavirus) in vertebrate cells is well established and triggers cell death. SFV infection of Aedes albopictus mosquito cells was characterised. Virus growth curves were compared in three cell lines. Infection of U4.4 cells was persistent and did not affect growth of the culture. In contrast, infection of C6/36 and C7-10 cells resulted in a static culture with no cell division and no cell death. The response of U4.4 cells was characterised in greater detail using viruses containing fluorescent or luciferase markers within the replicase or structural open reading frame of the virus genome. Activation of the STAT/IMD pathway prior to SFV infection significantly reduced virus driven luciferase expression and virus production. Activation of the Toll pathway prior to SFV infection had no effect. However, activation of Toll in addition to STAT/IMD had a cumulative effect on luciferase expression and virus production. viRNAs were characterised by Illumina Solexa sequencing. Two percent of the small RNA species found in virus infected cells were derived from virus RNA. These were predominantly 21 nt long and mapped along the entire SFV genome and genome complementary RNAs. Generation of these viRNAs was not random. Some areas produced high frequencies and others no or very few; hot and cold spots respectively. There were no correlations between viRNA frequency and base pairing or secondary structures predictions. Cold spot-derived viRNAs were more effective than hot-spot viRNAs in inhibiting virus replication. Similar results were observed in Aedes aegypti-derived cells. Attempts were made to investigate the source of these viRNAs using a virus containing an IRES element which had been reported to prevent virus replication in insect cells but which did not efficiently do so in this study. A virus containing the RNAi inhibitor p19 was characterised and shown to increase virus production. Techniques for infecting mosquitoes via a blood meal feed were established. No infection was observed with virus replicon particles carrying a fluorescent marker gene. Infection was established using virus containing p19.

579.2

Engrailed genes in mammary development and tumorigenesis

Martin, Nicole

January 2006

Thèse numérisée par la Direction des bibliothèques de l'Université de Montréal.

Engrailed

Homéodomaine

Glande mammaire

Cancer du sein

Oncogène

Morphogénèse ductale

Transplantation

Puberté

RNAI

Micro-puce

Screening for inhibitors of and novel proteins within the homologous recombination DNA repair pathway

Kingham, Guy L.

January 2012

The homologous recombination (HR) pathway of DNA repair is essential for the faithful repair of double-stranded DNA breaks (DSBs) in all organisms and as such helps maintain genomic stability. Furthermore, HR is instrumental in the cellular response to exogenous DNA damaging agents such as those used in the clinic for chemo- and radiotherapy. HR in humans is a complex, incompletely understood process involving numerous stages and diverse biochemical activities. Advancing our knowledge of the HR pathway in humans aids the understanding of how chemo- and radiotherapies act and may be used to develop novel therapeutic strategies. Recent studies have identified inhibition of HR as one of the mechanisms via which a number of recently developed chemotherapeutics have their effect. Accordingly, the clinical potential of HR inhibitors is under investigation. My work has centred around the identification of both novel HR proteins and novel, small molecule HR inhibitors. To further these aims, I have successfully employed high-throughput RNAi and small molecule screening strategies. RNAi screens are commonly used to identify genes involved in a given cellular process via genetic loss of function, whilst small molecule, cell based screens are a powerful tool in the drug discovery process.

572.887

A Virus-Derived Stacked RNAi Construct Confers Robust Resistance to Cassava Brown Streak Disease

Beyene, Getu, Chauhan, Raj Deepika, Ilyas, Muhammad, Wagaba, Henry, Fauquet, Claude M., Miano, Douglas, Alicai, Titus, Taylor, Nigel J.

18 January 2017

Cassava brown streak disease (CBSD) threatens food and economic security for smallholder farmers throughout East and Central Africa, and poses a threat to cassava production in West Africa. CBSD is caused by two whitefly-transmitted virus species: Cassava brown streak virus (CBSV) and Ugandan cassava brown streak virus (UCBSV) (Genus: Ipomovirus, Family Potyviridae). Although varying levels of tolerance have been achieved through conventional breeding, to date, effective resistance to CBSD within East African cassava germplasm has not been identified. RNAi technology was utilized to integrate CBSD resistance into the Ugandan farmer-preferred cassava cultivar TME 204. Transgenic plant lines were generated expressing an inverted repeat construct (p5001) derived from coat-protein (CP) sequences of CBSV and UCBSV fused in tandem. Northern blots using probes specific for each CP sequence were performed to characterize 169 independent transgenic lines for accumulation of CP-derived siRNAs. Transgenic plant lines accumulating low, medium and high levels of siRNAs were bud graft challenged with the virulent CBSV Naliendele isolate alone or in combination with UCBSV. Resistance to CBSD in the greenhouse directly correlated to levels of CP-derived siRNAs as determined by visual assessment of leaf and storage root symptoms, and RT-PCR diagnosis for presence of the pathogens. Low expressing lines were found to be susceptible to CBSV and UCBSV, while medium to high accumulating plant lines were resistant to both virus species. Absence of detectable virus in the best performing p5001 transgenic lines was further confirmed by back-inoculation via sap or graft challenge to CBSD susceptible Nicotiana benthamiana and cassava cultivar 60444, respectively. Data presented shows robust resistance of transgenic p5001 TME 204 lines to both CBSV and UCBSV under greenhouse conditions. Levels of resistance correlated directly with levels of transgene derived siRNA expression such that the latter can be used as predictor of resistance to CBSD.

cassava brown streak disease (CBSD)

resistance to CBSD

RNAi

TME 204

transgenic

siRNA

CBSV

UCBSV

Reação à infecção pelo vírus da tristeza dos citros (CTV) em plantas transgênicas de laranja \'Hamlin\' (Citrus sinensis (L.) Osbeck) expressando seqüências gênicas do CTV / Reaction to Citrus tristeza virus (CTV) infection of transgenic \'Hamlin\' sweet orange (Citrus sinensis (L.) Osbeck) plants transformed with CTV genetic sequences

Souza, Amancio José de

12 June 2008

O vírus da tristeza dos citros (CTV) é uma das maiores ameaças à citricultura mundial. No Brasil, mesmo com a pré-imunização e com a substituição de porta-enxertos, estirpes fortes de CTV ainda causam prejuízos consideráveis. Com o aparecimento da Morte Súbita dos Citros em 1999 e a possível relação desta doença com o CTV, este vírus voltou a figurar como patógeno de importância no cenário da citricultura brasileira. Uma das possíveis soluções para o controle de viroses em fruteiras é a obtenção de plantas transgênicas resistentes ou imunes. O objetivo deste trabalho foi avaliar a resistência ao CTV de plantas transgênicas de laranja \'Hamlin\' contendo três construções gênicas oriundas de seqüências do genoma do CTV. Estas construções gênicas visaram ativar rotas de RNAi (hairpin da capa protéica e seqüência conservada antisenso do CTV) e mecanismos de defesa relacionados à expressão da capa protéica do CTV. As plantas transgênicas foram desafiadas com uma estirpe fraca de CTV (CTV-IAC) por meio de borbulhas e pulgões pretos (Toxoptera citricida Kirkaldy) contendo o vírus. A avaliação da resistênica à replicação viral foi feita por análises de ELISA. As plantas transgênicas foram consideradas não resistentes à infecção e translocação viral quando inoculadas com borbulhas. Entretanto algumas plantas mostraram retardamento da infecção. Não foi possível determinar se houve resistência à transmissão de CTV por pulgões já que a técnica utilizada não foi capaz de infectar os controles de maneira uniforme. / The Citrus tristeza virus (CTV) is one of the greatest threats to the citrus industry worldwide. In Brazil, CTV continues to cause damage through strong strains despite the use of techniques like cross-protection and substitution of intolerant rootstocks. With the appearance and spread of the Citrus Sudden Death disease in 1999 and its possible relation to CTV, this virus was again among important pathogens within the Brazilian citrus industry. One of the possible solutions for controlling virus diseases in fruit crops is the development of immune or resistant transgenic plants. The objective of this work was to evaluate the resistance to CTV of transgenic \'Hamlin\' sweet orange plants containing three transgenic constructs obtained from CTV genomic sequences. The genetic constructs used aimed to activate RNAi defense routes (coat protein hairpin and a conserved sequence from CTV) and resistance mechanisms related to the coat protein expression. The transgenic plants were challenged with a weak strain of CTV, CTV-IAC, by bud and aphid (Toxoptera citricida Kirkaldy) inoculation. The evaluation of viral replication was done by ELISA analysis. The transgenic plants were considered susceptible to viral replication and translocation when bud inoculated. However, a few plants showed retardation of infection. It was not possible to determine resistance in the aphid transmission assay since the controls were not uniformly inoculated.

Citrus.

Closterovirus

CTV

Gene silencing

Genetic transformation

Laranja

Plantas transgênicas

RNAi

Tristeza cítrica.

The antiviral siRNA interactome in Drosophila melanogaster / L'interactome antivirale de la voie des siARNs de Drosophila melanogaster

Majzoub, Karim

23 September 2013

La voie de l’ARN interférence (ARNi), en particulier celle des siRNA, constitue la défense antivirale majeure chez les plantes,les nématodes et les insectes. Le génome de l’organisme modèle Drosophila melanogaster code pour trois protéines, Dcr-­‐2, AGO2 et R2D2, indispensables à cette voie. Les mouches mutantes pour une de ces trois protéines sont plus susceptibles et succombent plus rapidement aux infections virales comparées aux mouches sauvages. Beaucoup d’études biochimiques ont permis d’obtenir une image assez précise de la fonction moléculaire de ces trois protéines in vitro. Cependant, plusieurs études in vivo ont révélé une réalité plus complexe, probablement liée à l’association de ces molécules avec des cofacteurs. Ce manuscrit décrit les approches adoptées afin d’identifier les partenaires protéiques de la voie des siRNA et d’étudier leurs rôles, notamment dans un contexte infectieux. Dcr-­‐2, AGO2 et R2D2 ont été étiquetés par génie génétique avec un tag de 16 acides aminés, reconnu par la biotin-­‐ligase BirA, qui permet leur biotinylation après leurs transfections dans les cellules S2. Les cellules transfectées ont été ensuite soumises à différentes infections virales,notamment avec le virus C de la Drosophile (DCV) (Dicistroviridae), le virus de la stomatite vésiculaire (VSV) (Rhabdoviridae) ou le Flock House virus (FHV) (Nodaviridae). Les cellules ont été ensuite lysées au pic de l’infection et les complexes protéiques purifiés et analysés par spectrométrie de masse.[...] / Fighting viral infections is hampered by the scarcity of viral targets and their variability resulting in development of resistance. Viruses depend on cellular molecules for their life cycle, which are attractive alternative targets, provided that they are dispensable for normal cell fonctions. Using the mode! organism Drosophila melanogaster, we identify the ribosomal protein RACK1 as a cellular factor required for infection by the internai ribosome entry site (IRES) containing virus Drosophila C virus (DCV). We further demonstrate that inhibition of RACK1 in human liver cells impairs hepatitis C virus (HCV) IRES-mediated translation and infection. Inhibition of RACK1 in Drosophila and hurnan cells does not affect cell viability and proliferation, and RACK1-silenced adult flies are viable, indicating that this protein is not essential for general translation. Our findings demonstrate a specific function for ribosomal protein RACK 1 in selective mRNA translation and uncover a promising targe! for the development of broad antiviral intervention.

SiARN

Virus

Hôte pathogène

Drosophile

ARNi

SiRNA

Virus

Host-pathogen

Drosophila

RNAi

572.8

Identificação e caracterização do papel da glutamil-tRNA sintetase na localização de proteínas cloroplásticas / Identification and characterization of the role of glutamyl-tRNA synthetase on the localization of chloroplastic proteins

Scarso, Marcela Emanuele

11 January 2012

A regulação da localização de proteínas é um dos aspectos fundamentais na biologia celular vegetal. Os cloroplastos importam mais de 90% de suas proteínas do citosol, portanto, é importante caracterizar os fatores citosólicos que podem estar envolvidos no direcionamento de proteínas para as organelas. Um ensaio de duplohíbrido em leveduras com as proteínas cloroplastidiais HMPPK/TMPPase (TH1) e Glutamina Sintetase (GS) II usados como iscas revelou que a forma citosólica da glutamil-tRNA sintetase - GluRS (At5g26710) de Arabidopsis thaliana interagiu com ambas as proteínas. Estudos de Complementação da Fluorescência Bimolecular (BiFC) confirmaram tais interações in planta. Estudos com deleções na região Nterminal da GluRS mostraram que esta região é responsável pelas interações com HMPPK/TMPPase e GSII. Além disso, seis resíduos de aminoácidos parecem ser cruciais para a interação entre as proteínas. Curiosamente, foi mostrado que a GluRS está envolvida na localização de proteínas em leveduras. A fim de obter mais informações sobre o envolvimento da GluRS ns localização de proteínas nos cloroplastos, foram produzidos plantas de tabaco transgênicas expressando uma proteína quimérica, feita pela fusão do gene codificador da HMPPK/TMPPase, TH1- GFP, e GSII-GFP e posteriormente usados em ensaios de agroinfiltração com RNA de interferência (RNAi) para GluRS. Análises em microscópio confocal mostraram que TH1-GFP e GSII-GFP acumulam no citosol em vez de serem direcionados aos cloroplastos. Neste trabalho, mostramos pela primeira vez que a GluRS está envolvida na localização de proteínas cloroplastidiais em plantas e esse mecanismo é também conservado em Saccharomyces cerevisiae. / Regulation of protein localization is one of the key aspects in plant cell biology. Chloroplasts import more than 90% of their proteins from the cytosol, therefore, it is important to identify and characterize cytosolic factors that might be involved in protein delivery to the organelar envelope. A yeast two-hybrid screen with a chloroplastlocalized HMPPK/TMPPase protein and glutamine synthetase (GS), used as baits, revealed that the cytosolic form of the glutamyl-tRNA synthetase (GluRS) (At5g26710) from Arabidopsis thaliana interacted with both proteins. Bimolecular Fluorescence Complementation (BiFC) studies confirmed such interactions in planta. Deletion studies of GluRS showed that the N-terminal region of the protein is responsible for proteinprotein interactions (PPI) with TH1 and GS. In addition, six amino acid residues appeared to be crucial for PPI. Interestingly, GluRS has been also shown to be involved in regulating protein localization in yeast. In order to gain more information about the involvement of GluRS on protein localization in chloroplasts, we produced transgenic tobacco plants expressing a chimeric protein made by the fusion of TH1- GFP and GSIIGFP and agroinfiltrated with a RNA interference (RNAi) construct against GluRS. Confocal analysis showed that TH1-GFP and GSII-GFP accumulated in the cytosol instead of being targeted to chloroplasts. Here, we show for the same time that GluRS is involved in protein localization in plants and this mechanism is also conserved in Saccharomyces cerevisiae.

Aminoacil RNA sintetases

Glutamina

Glutamyl-tRNA synthetase

Leveduras

Protein localization

Proteínas - localização

RNAi

Investigating the role of RNA interference in the fission yeast Schizosaccharomyces japonicus

Chapman, Elliott

January 2018

RNA interference (RNAi) is a conserved pathway that plays key roles in heterochromatin formation, gene regulation and genome surveillance across a wide range of eukaryotes. One of the most utilised model organisms for studying the RNAi pathway is the fission yeast Schizosaccharomyces pombe. However, this species is somewhat atypical, in that it has not retained the ancestral role for RNAi in the silencing of mobile genetic elements. In contrast, the related fission yeast S. japonicus has a large and diverse retrotransposon complement that appears to give rise to abundant siRNAs. For this reason, we believe that S. japonicus may be a more suitable model for studying the role of RNAi in silencing mobile genetic elements, a function that is conserved in many higher eukaryotes. Functional analysis of the S. japonicus RNAi pathway proved more challenging than expected, as it was generally not possible to recover strains bearing deletions of core RNAi components (Ago1/Clr4/Rdp1/Arb1/Arb2). This suggests that a functional RNAi pathway may be required for viability in S. japonicus, unlike in S. pombe. However, disruption mutants were isolated for the sole Dicer ribonuclease Dcr1, at very low frequency. Analysis of these mutants revealed that disruption of Dcr1 impaired the generation of retrotransposon derived siRNAs, and caused de-repression of retroelement transcript accumulation and mobilisation in an element dependent manner. Surprisingly however, Dcr1 appeared dispensable for the maintenance of H3K9me2 at transposons, suggesting that, in contrast to S. pombe, silencing may occur principally at the post-transcriptional level. It is also possible that the isolated Dcr1 mutants represent rare survivors that are viable due to the presence of suppressor mutations elsewhere in the genome. I utilised my genome wide RNA sequencing data to help improve the annotation of the S. japonicus genome, with a specific focus on the retrotransposon complement. From this, I identified 12 new families of LTR retrotransposon, which increased the annotated retrotransposon complement by around 40% in S. japonicus. Finally, I characterised the integrative preference of the S. japonicus retrotransposon Tj1, and found that it shares characteristics associated with the S. cerevisiae retrotransposons Ty1 and Ty3, mostly integrating upstream of RNA PolIII transcribed tRNA genes. The findings of this work highlight some potentially key differences in the way the RNAi pathway functions across the fission yeast clade, both in terms of its importance for viability and its mode of action. The work undertaken here also contributes to the establishment of S. japonicus as a model for the study of RNA interference and genome regulation.

Reação à infecção pelo vírus da tristeza dos citros (CTV) em plantas transgênicas de laranja \'Hamlin\' (Citrus sinensis (L.) Osbeck) expressando seqüências gênicas do CTV / Reaction to Citrus tristeza virus (CTV) infection of transgenic \'Hamlin\' sweet orange (Citrus sinensis (L.) Osbeck) plants transformed with CTV genetic sequences

Amancio José de Souza

12 June 2008

O vírus da tristeza dos citros (CTV) é uma das maiores ameaças à citricultura mundial. No Brasil, mesmo com a pré-imunização e com a substituição de porta-enxertos, estirpes fortes de CTV ainda causam prejuízos consideráveis. Com o aparecimento da Morte Súbita dos Citros em 1999 e a possível relação desta doença com o CTV, este vírus voltou a figurar como patógeno de importância no cenário da citricultura brasileira. Uma das possíveis soluções para o controle de viroses em fruteiras é a obtenção de plantas transgênicas resistentes ou imunes. O objetivo deste trabalho foi avaliar a resistência ao CTV de plantas transgênicas de laranja \'Hamlin\' contendo três construções gênicas oriundas de seqüências do genoma do CTV. Estas construções gênicas visaram ativar rotas de RNAi (hairpin da capa protéica e seqüência conservada antisenso do CTV) e mecanismos de defesa relacionados à expressão da capa protéica do CTV. As plantas transgênicas foram desafiadas com uma estirpe fraca de CTV (CTV-IAC) por meio de borbulhas e pulgões pretos (Toxoptera citricida Kirkaldy) contendo o vírus. A avaliação da resistênica à replicação viral foi feita por análises de ELISA. As plantas transgênicas foram consideradas não resistentes à infecção e translocação viral quando inoculadas com borbulhas. Entretanto algumas plantas mostraram retardamento da infecção. Não foi possível determinar se houve resistência à transmissão de CTV por pulgões já que a técnica utilizada não foi capaz de infectar os controles de maneira uniforme. / The Citrus tristeza virus (CTV) is one of the greatest threats to the citrus industry worldwide. In Brazil, CTV continues to cause damage through strong strains despite the use of techniques like cross-protection and substitution of intolerant rootstocks. With the appearance and spread of the Citrus Sudden Death disease in 1999 and its possible relation to CTV, this virus was again among important pathogens within the Brazilian citrus industry. One of the possible solutions for controlling virus diseases in fruit crops is the development of immune or resistant transgenic plants. The objective of this work was to evaluate the resistance to CTV of transgenic \'Hamlin\' sweet orange plants containing three transgenic constructs obtained from CTV genomic sequences. The genetic constructs used aimed to activate RNAi defense routes (coat protein hairpin and a conserved sequence from CTV) and resistance mechanisms related to the coat protein expression. The transgenic plants were challenged with a weak strain of CTV, CTV-IAC, by bud and aphid (Toxoptera citricida Kirkaldy) inoculation. The evaluation of viral replication was done by ELISA analysis. The transgenic plants were considered susceptible to viral replication and translocation when bud inoculated. However, a few plants showed retardation of infection. It was not possible to determine resistance in the aphid transmission assay since the controls were not uniformly inoculated.

Closterovirus

Laranja

Plantas transgênicas

Tristeza cítrica.

Citrus.

CTV

Gene silencing

Genetic transformation

RNAi