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Validation of RNAi Silencing Specificity Using Synthetic Genes: Salicylic Acid-Binding Protein 2 Is Required for Innate Immunity in PlantsKumar, Dhirendra, Gustafsson, Claes, Klessig, Daniel F. 01 March 2006 (has links)
RNA interference (RNAi) is widely used to specifically silence the expression of any gene to study its function and to identify and validate therapeutic targets. Despite the popularity of this technology, recent studies have shown that RNAi may also silence non-targeted genes. Here we demonstrate the utility of a quick, efficient and robust approach to directly validate the specificity of RNAi as an alternative to indirect validation of RNAi through gene expression profiling. Our approach involves reversing (complementing) the RNAi-induced phenotype by introducing a synthetic version of the target gene that is designed to escape silencing. This synthetic gene complementation approach can also be used for mutational analysis of the target gene, or to provide a functional version of a defective protein after silencing the defective gene by RNAi. Using this approach we demonstrate that the loss of systemic acquired resistance, a form of innate immunity in plants, is indeed due to the silencing of salicylic acid-binding protein 2 rather than to off-target effects.
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A toolkit for analysis of gene editing and off-target effects of engineered nucleasesFine, Eli Jacob 27 May 2016 (has links)
Several tools were developed to help researchers facilitate clinical translation of the use of engineered nucleases towards their disease gene of interest. Two major issues addressed were the inability to accurately predict nuclease off-target sites by user-friendly \textit{in silico} methods and the lack of a high-throughput, sensitive measurement of gene editing activity at endogenous loci. These objectives were accomplished by the completion of the following specific aims. An online search interface to allow exhaustive searching of a genome for potential nuclease off-target sites was implemented. Previously discovered off-target sites were collated and ranking algorithms developed that preferentially score validated off-target sites higher than other predictions. HEK-293T cells transfected with newly developed TALENs and ZFNs targeting the beta-globin gene were analyzed at the off-target sites predicted by the tool. Many samples of genomic DNA from cells treated with different ZFNs and TALENs were analyzed for off-target effects to generate a greatly expanded training set of bona fide off-target sites. Modifications to the off-target prediction algorithm parameters were evaluated for improvement through Precision-Recall analysis and several other metrics. An analysis pipeline was developed to process SMRT reads to simultaneously measure the rates of different DNA repair mechanisms by directly examining the DNA sequences. K562 cells were transfected with different types of nucleases and donor repair templates in order to optimize conditions for repairing the beta-globin gene. This work will have significant impact on future studies as the methods developed herein allow other laboratories to optimize nuclease-based therapies for single gene disorders.
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Mort cellulaire immunogène induite par le crizotinib dans le cancer poumon non à petites cellules. / Crizotinib-Induced Immunogenic Cell Death in Non-Small Cell Lung CancerLiu, Peng 20 June 2018 (has links)
De nombreuses données suggèrent que le succès thérapeutique de certaines chimiothérapies conventionnelles, radiothérapies, ainsi que des thérapies ciblées est dû à leur capacité a induire la mort cellulaire immunogène (ICD), ce qui stimule la libération ou l'exposition des motifs moléculaires associés à un dommage (DAMPs) conduisant à leur reconnaissance par le système immunitaire, rétablissant ainsi l'immunosurveillance. En utilisant un criblage non polarisé, le crizotinib a été identifié en tant qu'inhibiteur de tyrosine-kinase ayant la capacité de stimuler la libération de caractéristiques distinctives de l’ICD. Des expériences faites par la suite ont montréque le crizotinib induit l'exposition de la calreticulin, la sécrétion d'ATP et la libération d’HMGB1, ainsi que le stress du réticulum endoplasmique dans les lignées cellulaires cancéreuses murines et humaines, notamment en combinaison avec les agents non immunogènes tel que le cisplatine. L’ICD causée par la combinaison du crizotinib avec la chimiothérapie a aussi été observée dans les cellules du cancer bronchique non à petites cellules (NSCLC), cellules ne possédant pas de mutations activatrices d’ALK ou ROS1 ; cela suggère un mode d'action hors-cible. Des études comparatives ont montré que seule la conformation utilisée en clinique, l’isoforme (R)-crizotinib, a la capacité de stimuler l’ICD ; le (S)-énantiomère ne possède pas ces caractéristiques. Combinées au cisplatine, les cellules fibrosarcome MCA205 et les cellules cancéreuses du poumon TC-1 traitées avec le crizotinib ont vacciné efficacement les souris immunocompétentes syngéniques contre la croissance des cellules vivantes de même type. Le crizotinib a amélioré l'efficacité de la chimiothérapie dans trois modèles de cancer du poumon orthotopiques : transplantable, induit par des carcinogènes et induites par les oncogènes. De façon remarquable, l’effet du crizotinib est aboli si un des signaux de l’ICD est bloqué. L'efficacité anticancéreuse dans chaque modèle s’est révélé être lié à l'infiltration de lymphocytes T, montrant l’implication d’une réaction immunitaire. Cela a été confirmé par des expériences chez des souris immunodéficientes (nu/nu, déficientes en thymodépendantes lymphocytes T) et dans des souris immunocompétentes dans lesquelles l’interféron gamma a été neutralisé à l’aide d’un anticorps ; l’effet du crizotinib était aboli dans les deux modèles. La combinaison du crizotinib avec le cisplatine a entraîné un accroissement de l'expression de PD-1, PDL-1 et CTLA-4 dans la tumeur, s’accompagnant par conséquent d'une sensibilisation importante des NSCLC à l'immunothérapie avec des anticorps anti-PD-1 et CTLA-4. Ainsi, la combinaison du crizotinib avec la chimiothérapie conventionnelle et les inhibiteurs des points de contrôle immunitaire peuvent être actifs contre le NSCLC. Les données présentées dans cette thèse pourraient faciliter la conception d’essais cliniques afin d’établir de nouvelles stratégies combinatoires pour le traitement des NSCLC. / Accumulating evidence suggests that certain conventional chemotherapies, radiotherapies, as well as targeted therapies mediate their long-term therapeutic success by inducing immunogenic cell death (ICD), which stimulate the release or exposure of danger-associated molecular patterns from or on cancer cells, causing their recognition by the immune system, thus reinstating immunosurveillance. An unbiased screen identified crizotinib as a tyrosine kinase inhibitor that is potent in provoking hallmarks of ICD. In subsequent low-throughput validation experiments, crizotinib promoted Calreticulin exposure, ATP secretion, HMGB1 release, as well as ER stress in both human and murine cancer cells, especially if it is combined with normally non-ICD inducing chemotherapeutics such as cisplatin. ICD induced by the combination of chemotherapy and crizotinib was also observed in non-small cell lung carcinoma (NSCLC) cells lacking activating mutations of the crizotinib targets ALK and ROS1, suggesting an off-target-mediated mode of action. Comparative studies indicated that exclusively the clinically used (R) isoform of crizotinib was efficient in inducing cell death and stimulating ICD hallmarks whereas the (S) enantiomer lacked those characteristics. When combined with cisplatin, crizotinib-killed fibrosarcoma MCA205 cells as well as lung cancer TC-1 cells efficiently vaccinated syngeneic immunocompetent mice against a re-challenge with live cancer cells of the same types. Crizotinib improved the efficacy of chemotherapy with non-ICD inducers (such as cisplatin and mitomycin C) on three distinct (transplantable, carcinogen- or oncogene induced) orthotopic NSCLC models, none of which relied on the activation of ALK or ROS1. Of note these anticancer effects were completely lost if any of the ICD signals was blocked. These anticancer efficacies in different models were linked to an increased T lymphocyte infiltration as a sign of an immune response and were lost if such tumors grew on immunodeficient (nu/nu) mice that are athymic and hence lack thymus-dependent T lymphocytes, or on immunocompetent mice with a neutralization of interferon-. The combination of cisplatin and crizotinib led to an increase in the expression of CTLA-4, PD-1 and PD-L1 in tumors, coupled to a strong sensitization of NSCLC to immunotherapy with antibodies blocking CTLA-4 and PD-1. Hence, a combination of crizotinib, conventional chemotherapy and immune checkpoint blockade may be active against NSCLC, and these data might facilitate the design of clinical trials to evaluated novel combination regiments for the treatment of NSCLC.
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