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The potential of exosomes as a tool to guide human pluripotent stem cells to insulin producing cells.Mohamed, Idil January 2024 (has links)
The ability of human pluripotent stem cells (hPSCs) to differentiate into different types of cells has been regarded as a significant discovery in the development of cell replacement therapy for type 1 diabetic patients. MicroRNAs can be transported to recipient cells via vesicles, so-called exosomes. Exosomal microRNA differ from those of the parent cells suggesting that cells possess an active selecting mechanism of exosomes and their contents. Therefore, microRNAs may directly or indirectly regulate the expression of pancreatic islet-specific transcription factors to control the differentiation and maturation of pancreatic islet cells. In this study, the dynamic expression of exosomal and intracellular microRNAs from human pancreatic islets were analyzed and were compared with that in stem cell-derived islet-like clusters. The study also aimed to analyze the expression levels of intracellular microRNA in human pancreatic islets and stem cell-derived islet-like clusters compared to exosomal microRNA extracted from human islet media and stem cell media, respectively. The primary method of exosome extraction was ultracentrifugation, followed by microRNA isolation using a kit. The exosomes were then characterized with NTA, and the isolated microRNAs were detected using RT-qPCR. The results showed that the expression of microRNAs was generally low in human islets compared to isolated exosomes. The microRNA expression levels in stem cell-derived islet-like clusters and their respective isolated exosomes were also analyzed and it showed that let-7a, miR-375 and miR-26a were more abundant in exosomes. The results can contribute to the generation of more functional stem cell-derived islet-like cell clusters prepared from hPSCs to some extent. However, continued research in this area is required.
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Induction de résistances chez le blé (Triticum aestivum L.) lors d’une interaction compatible avec Blumeria graminis (DC. E.O Speer) : mécanismes mis en jeu après applications de tréhalose et d’heptanoyl d’acide licylique, dérivé fonctionnalisé de l’acide salicylique / Induction of resistances in wheat (Triticum aestivum L.) during a compatible interaction with Blumeria graminis (DC. EO Speer) : mechanisms involved after application of trehalose and heptanoyl salicylic acid, a functionalized derivative of salicylic acid.Tayeh, Christine 18 December 2012 (has links)
L’utilisation de molécules stimulatrices des défenses des plantes (SDP), également appelées inducteurs de résistance, constitue une alternative potentielle aux traitements fongicides conventionnels pour combattre les maladies dues à des champignons phytopathogènes. Trois SDPs, le tréhalose (TR), l’acide salicylique (SA) et l’heptanoyl d’acide salicylique (HSA), un dérivé fonctionnel du SA, protègent le blé (Triticum aestivum L.) contre l’oïdium (Blumeria graminis f.sp. tritici), lorsqu’ils sont utilisés de façon préventive. La protection obtenue n’est pas liée à un effet fongistatique direct sur la germination des spores du champignon, mais à l’induction chez le blé de défenses qui diminuent le développement de la maladie. Notre travail consistait à caractériser les mécanismes de défense mis en jeu après applications foliaires de TR, de HSA et de SA chez un cultivar de blé sensible à l’oïdium. Un suivi de l’expression de gènes marqueurs de défense, réalisé par RTqPCR, a été mené en cinétique,depuis le traitement par les SDPs jusqu'à 4 jours après infection. Les activités enzymatiques correspondantes ont été également mesurées, et l’influence indirecte des SPDs sur le processus infectieux a été observé en microscopie in planta. Ainsi, les réactions de défense déclenchées par le TR, le SA et le HSA ralentissent l’évolution de l’infection, jouant respectivement sur la germination des conidies, structures infectieuses de Bgt, sur la germination du tube germinatif appressorial (AGT) et sur la proportion d’AGTs qui parviennent à pénétrer dans les tissus foliaires. Le TR est à l’origine d’une augmentation de l’expression des gènes codant pour une lipoxygénase, une protéine de transfert des lipides et une phospholipase C, impliquées dans le métabolisme lipidique et la signalisation, et de gènes codant pour des protéines PR comme les chitinases et PR1, tous connus comme marqueurs de défense. Ainsi, les réactions déclenchées par le TR correspondent à un effet inducteur de défenseplutôt qu’à une réaction de stress osmotique. Le HSA modifie particulièrement le métabolisme lipidique, en induisant fortement et pendant toute la cinétique, l’expression du gène codant pour la LOX et l’activité correspondante, aussi bien hors contexte infectieux qu’en contexte infectieux. Cette augmentation de l’activité LOX n’est pas retrouvée chez des feuilles traitées au SA et caractérise donc le HSA. L’importance des réactions observées avec le TR, le SA et le HSA, hors contexte infectieux et en présence de Bgt amène à discuter les effets éliciteurs et potentialisateurs de ces 3 SDPs. / The use of plant elicitors, also known as resistance inducers, is an alternative to conventional fungicides to control diseases caused by phytopathogenic fungi. Three resistance inducers, trehalose (TR), salicylic acid (SA) and heptanoyl salicylic acid (HSA), a functional derivative of SA, protect wheat (Triticum aestivum L.) against powdery mildew (Blumeria graminis f . sp. tritici) when applied prior to infection. The protection obtained is not linked to any direct fungistatic effect on the fungal spore germination, but to the induction of wheat defences that impair the development of the disease. Our work aimed at characterizing the defence mechanisms triggered after foliar applications of TR, HSA and SA in a wheat cultivar susceptible to powdery mildew. Monitoring of defence markers genes expression by RTqPCR was conducted during a time-course experiment from the treatment time until 4 days after infection. Corresponding enzyme activities were also measured, and the indirect influence of elicitors on the infectious process was observed by microscopy in planta. Thus, defence responses triggered by TR, SA and HSA slow the progression of the infection, respectively altering the germination of infectious structures such as conidia, the differentiation of appressorial germ tube (AGT) and the proportion of AGTs that manage to penetrate the epidermis. TR causes an increase in the expression of genes encoding a lipoxygenase, a lipid transfer protein and a phospholipase C, which are involved in lipid metabolism and signaling, and genes encoding for PR-proteins such as chitinases and PR1, all known as markers of defence. Thus, the reactions triggered by TR match with the ones triggered during induced defence rather than during osmotic stress response. HSA specifically targeted lipid metabolism, inducing strongly and throughout the time-course, the expression ofthe gene encoding LOX and the corresponding enzyme activity, both in infectious and non-infectious contexts. This increase in LOX activity was not found in leaves treated with SA and thus characterizes HSA mode of action. The importance of the reactions observed with TR, SA and HSA, in non-infectious conditions and in the presence of Bgt have to be considered regarding either elicitation or potentiation.
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Molecular regulators of smoltification and viral infection management tools for salmon aquacultureMcGowan, Michael John January 2018 (has links)
Accurate smoltification and disease management in Atlantic salmon (Salmo salar) are key issues for the aquaculture industry. Due to their anadromous lifecycle the transfer of salmon from fresh water (FW) to seawater (SW) is crucial to their survival; too early can cause mortality, too late can cause desmoltification and long-term health problems. Both scenarios can increase susceptibility to four viral diseases: Salmon alphavirus (SAV), Infectious salmon anemia virus (ISAV), orthoreovirus (PRV), and Piscine myocarditis virus (PMCV). They all show similar clinical and histopathological symptoms and can easily spread throughout farms. Understanding the initial innate immune response to these viruses may provide biomarkers that could help identify and monitor infections. An in house and onsite Na+/K+ ATPase (NKA) qRT-PCR assay was developed for the salmon biomarker ATPase to test smoltification readiness in salmon smolts. Tested against NKA enzymatic assays it showed a similar success rate over 3 years: NKA qRT-PCR (57%), NKA activity assay (60%). Onsite tests confirmed that the ATPase mRNA transcript is a useful biomarker for smoltification detection. An in-lab and mobile multiplex qRT-PCR assay was developed for detection of SAV, PRV and PMCV. The analytical sensitivity of the SAV (86.5% SE 0.11), PRV (90.94%, SE 0.09) and PMCV (100.46%, SE 0.19) assays was 102 copies for PMCV and 103 for SAV and PRV. Initial results suggest individual assays could be run on site at farms. Addition of an internal control, probit analysis and viral positive tests are still required for multiplex assay integration. Salmon erythrocytes were infected with ISAV, SAV and Poly I:C to investigate whether they induce and up-regulate innate immune response genes. All genes were expressed at low levels in all parameters investigated including non-infected control erythrocytes. These findings suggest erythrocytes act as an initial buffer to viral infections and may help stimulate the innate immune response.
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Investigating The Roles Of Micrornas In Biotic Stress Responses And Functional Characterization Of A Novel Ztl-type F-box Protein Via Virus Induced Gene SilencingDagdas, Yasin Fatih 01 June 2009 (has links) (PDF)
Barley and wheat are the two most important crop species in Turkey. Molecular studies for increasing crop yield of these species are very important for the economic benefits of Turkey. Powdery mildew and yellow rust are the two main pathogens, infecting barley and wheat, respectively in our country and causing a great amount of yield loss each year. Till now, classical genetics studies were performed in order to develop resistant barley and wheat cultivars, but these studies have not been succesful. Therefore, molecular plant-pathogen interactions studies are starting to become the new tool to fight against pathogens. In this thesis, two important aspects of plant microbe interactions were investigated.
In the first part, the role of microRNAs (miRNAs) in powdery mildew-barley pathosysytem, and yellow rust-wheat pathosystem were studied. The expression levels of miRNAs and their putative targets were investigated via miRNA microarray analysis and qRT-PCR, respectively, in response to virulent and avirulent pathogen infections. These data were used to establish a new model for powdery mildew-barley and yellow rust-wheat pathosystems.
In the second part, functional analysis of a novel F-box gene, which was a ZTL-type F-box, was performed by using Barley Stripe Mosaic Virus mediated Virus Induced Gene Silencing. This F-box gene (HvDRF) (Hordeum vulgare Disease Related F-box) was induced upon yellow rust infection and we studied its role in powdery mildew infection. The results confirmed HvDRF as a positive regulator of race specific immunity and enlarged the roles of ZTL-type F-box proteins to biotic stress responses.
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Transcription Level Determination Of Candidate Genes Upon Infections Of Powdery Mildew On BarleyAtici, Elif 01 February 2012 (has links) (PDF)
Immune systems are fundamentally based on the differentiation of self and non-self. Unlike mammals, plants have an innate immune system responding to the pathogen only at the site of attack. One of these pathogens is Blumeria graminis f. sp. hordei which is an obligate biotrophic pathogen causing powdery mildew disease and resulting in up to 30% yield loss for both cultivated and wild barley.
In this study, Pallas-01 (P-01) and Pallas-03 (P-03) barley lines were inoculated with powdery mildew race Bgh103 (64/01) resulting incompatible and compatible interactions, respectively. 6, 12, 24, 48 and 72 hour-post-inoculation (hpi) samples were used in order to define the differential gene expression of NAD malic enzyme, chloroplast lipocalin, phosphoglyceromutase (PGM), Mg chelatase and 26S protease regulatory subunit 6B homolog. In the proteomics study previously conducted in the laboratory, except for the NAD-dependent malic enzyme, the other four proteins were shown to be involved in the incompatible interaction of P-01 and Bgh103 at protein level, whereas NAD-dependent malic enzyme was changing in the compatible interaction. The expression level for both proteomics and transcriptomics were assumed to be similar. However, the level of transcript would not always reflect its protein level or correlate with the level of proteins, due to complex cellular regulation processes. Post-transcriptional modifications such as synthesis, processing, degradation and post-translational modifications are changing the level of proteins expressed, thus a parallel correlation between the protein and mRNA levels can be lost. Other possible reasons for this variation can be changes in mRNA and protein stability, efficiency of translation and protein&rsquo / s turnover rate.
The transcription level changes of the genes investigated in this study are found to be differentially expressed, supporting the proteomics data indicating that these genes are possibly involved in resistance. For further investigations, genetic tools such as gene silencing with RNAi and knockout experiments are required in order to elucidate the mechanism of these candidate genes in the plant-pathogen interaction.
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La performance diagnostique des marqueurs tumoraux messagers dans le diagnostic et le suivi du cancer du seinEl Manaa, Karama 12 1900 (has links)
Selon plusieurs évidences, la présence de cellules tumorales occultes dans la circulation sanguine aux premières étapes du cancer du sein pourrait être à l’origine des lésions métastasiques. Plusieurs études de recherche ont montré que l’utilisation de la RT-PCR en temps réel pour la détection des cellules tumorales circulantes CTC offre la meilleure sensibilité dans la quantification des marqueurs tumoraux. Présentement de routine, le suivi du cancer du sein est réalisé par le dosage immunologique des marqueurs sériques CA15-3 et CEA. Cependant, la faible sensibilité de ces marqueurs aux stades précoces de la maladie et leur manque de spécificité tissulaire ne permet pas leur utilisation pour le diagnostic et le pronostic du cancer du sein. Le diagnostic de la maladie est plutôt basé sur l’analyse d’une biopsie de la tumeur ou des ganglions lymphatiques, des méthodes invasives, coûteuses et peu adaptées pour un suivi de routine dans l’évaluation du risque de rechute et de la réponse au traitement. Malgré les études, la détection de ces cellules dans les laboratoires hospitaliers est rare.
Nous avons envisagé de mettre en place un nouveau test RT-PCR pour la détection de cellules malignes du cancer du sein dans la circulation. La spécificité et la sensibilité de plusieurs marqueurs potentiels ont été comparées. Le but ultime de ce projet est d’offrir la détection d’un ou d’une combinaison de ces marqueurs de routine aux patientes.
Nos résultats montrent une corrélation positive entre l’expression des ARNm des marqueurs CK19 et de HER2 avec les données cliniques des patientes. De plus, la sensibilité et la spécificité des tests RT-PCR sont comparables à la littérature récente. Finalement, la comparaison de notre test avec le dosage immunologique des marqueurs tumoraux sériques CA15.3 et CEA a montré que la détection de la CK19 et de HER2 par RT-PCR est plus sensible chez les patientes de cancer du sein métastatique. / According to several evidences, the presence of occult tumor cells in blood circulation in the early stages of breast cancer could be the origin of metastatic lesions. Recent research studies have shown that the use of qRT-PCR for the detection of circulating tumor cells CTC offers the best sensitivity in the quantification of tumor markers. Currently routine monitoring of breast cancer is performed by immunoassay of serum markers CA15.3 and CEA. However, the low sensitivity of these markers in the early stages of the disease and the lack of tissue specificity does not allow their use in diagnosis and prognosis of breast cancer. The diagnosis of the disease is rather based on the analysis of biopsies of the tumor or lymph nodes. This is an invasive procedure, expensive and not suitable for routine monitoring of the risk of relapse and response to treatment. Despite these studies, detection of these cells in hospital laboratories is rare.
Our objective is to set up a new RT-PCR assay for the detection of malignant breast cancer cells in the circulation. The specificity and sensitivity of some potential markers will be compared. The ultimate goal of this project is to routinely offer the detection of one or of a combination of these markers routinely to patients with breast cancer.
Our results show a positive correlation between the expression of CK19 and HER2 mRNA with clinical data of patients. Furthermore, the sensitivity and specificity of our RT-PCR tests are similar to the recent literature. Finally, the comparison of our test with the immunoassay of serum tumor markers CEA and CA15.3 showed that the detection of HER2 and CK19 by RT-PCR is more sensitive in patients with metastatic breast cancer
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Evaluation of the Expression of LIN28A and LIN28B within the Hypothalamic-pituitary-gonadal AxisGrieco, Anthony 07 December 2011 (has links)
The genes that regulate pubertal timing in the general population are not well understood. Recently, genome-wide association studies have demonstrated that genetic variants near LIN28B associate with variation in pubertal timing in humans. To investigate where within the hypothalamic-pituitary-ovarian (HPO) axis Lin28b, and its homologue Lin28a, regulate pubertal timing, expression of these genes was assessed across the pubertal transition. The finding that Lin28a/b expression decreases only in the ovary suggests that the Lin28 pathway may exert its regulatory effects with respect to puberty in the ovary. Another aim of this thesis was to examine the effect of estrogen on Lin28b expression in immortalized GnRH neuronal cells, but the data remains equivocal and detailed future studies are needed to make definitive conclusions. The ovarian expression data lay the foundation for further studies using conditional knockout mice to verify the importance of the tissue and age specific developmental pattern that was identified.
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Evaluation of the Expression of LIN28A and LIN28B within the Hypothalamic-pituitary-gonadal AxisGrieco, Anthony 07 December 2011 (has links)
The genes that regulate pubertal timing in the general population are not well understood. Recently, genome-wide association studies have demonstrated that genetic variants near LIN28B associate with variation in pubertal timing in humans. To investigate where within the hypothalamic-pituitary-ovarian (HPO) axis Lin28b, and its homologue Lin28a, regulate pubertal timing, expression of these genes was assessed across the pubertal transition. The finding that Lin28a/b expression decreases only in the ovary suggests that the Lin28 pathway may exert its regulatory effects with respect to puberty in the ovary. Another aim of this thesis was to examine the effect of estrogen on Lin28b expression in immortalized GnRH neuronal cells, but the data remains equivocal and detailed future studies are needed to make definitive conclusions. The ovarian expression data lay the foundation for further studies using conditional knockout mice to verify the importance of the tissue and age specific developmental pattern that was identified.
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Silicon and acibenzolar-S-methyl induced defence responses in cotton (Gossypium hirsutum L.) infected with Fusarium oxysporum f. sp. vasinfectumJennifer Whan Unknown Date (has links)
In previous studies silicon has been associated with reduced disease severity and incidence, the enhanced accumulation of phenolic compounds and lignin, and with changes in the defence-related enzyme activity and transcript abundance of defence and stress related genes. All of these aspects of plant defence were considered in this study on cotton infected with Fusarium oxysporum f. sp. vasinfectum (Fov), and the results obtained have greatly enhanced our understanding of the effects of silicon on this interaction. In all experiments conducted, defence responses were only significantly enhanced by silicon treatment following inoculation with Fov, strongly suggesting that silicon can prime defence responses in cotton infected with Fov. Sicot F-1 was the cultivar most resistant to Fov infection at the commencement of this research, whilst Sicot 189 was considered to have moderate resistance to the pathogen. Vascular discolouration was significantly reduced in the more resistant cultivar, Sicot F-1 following treatment with potassium silicate, compared to mock inoculated plants and inoculated plants treated with potassium sulphate or calcium sulphate. No significant differences between treatments were observed in the moderately resistant cultivar, Sicot 189, though further trials may need to be conducted to confirm this result. In both cultivars, silicon content was significantly greater in plants which had been treated regularly with liquid potassium silicate, rather than with calcium silicate powder. Histological investigation of cotton infected with Fov, with and without silicon treatment, was conducted to ascertain the effects of this element on the accumulation of fungitoxic phenolic compounds, cell ultrastructural changes and fungal infection structures. Fov proliferated through the cortex and stele of plants from both the resistant (Sicot F-1), and moderately resistant (Sicot 189) cultivars, regardless of silicon treatment. However, defences were more rapidly and intensely induced in endodermal and vascular regions of inoculated, potassium silicate treated Sicot F-1 plants. Significantly more phenolic compounds were present at seven days post infection (dpi) in root extracts of inoculated, potassium silicate treated Sicot F-1 plants. Phenolic compounds were not significantly increased in inoculated, potassium silicate treated root extracts of Sicot 189 plants at three or seven dpi. Lignin assays demonstrated that the dry weight percentage of lignin in root material from inoculated, potassium silicate treated Sicot F-1 plants was significantly higher than that of extracts from inoculated plants not receiving silicon treatment at three dpi. This trend was also observed at seven dpi; however lignin content was not significantly different in this case. Percentage lignin content in the roots of Sicot 189 plants was not significantly different between inoculated potassium silicate treated plants and those not treated with silicon. Histological alterations were not observed in mock inoculated water or potassium silicate treated plants, nor were any significant increases in phenolic compounds or lignin accumulation detected in control treatments not inoculated with the pathogen. The expression of several defence related genes was assessed with quantitative reverse transcriptase real-time polymerase chain reaction. The results obtained verify that potassium silicate can enhance defence responses in Sicot 189 and Sicot F-1 plants inoculated with Fov, with silicon having a more pronounced effect on the more resistant cultivar, Sicot F-1. Genes upregulated at three and four dpi in potassium silicate treated, Fov inoculated Sicot F-1 plants included peroxidase, cadinene synthase and polygalacturonase inhibiting protein (PGIP), with peroxidase associated with phenol oxidation and lignification and cadinene synthase with phytoalexin biosynthesis. Osmotin-like protein and chitinase class I were consistently upregulated in potassium silicate treated, inoculated Sicot 189 plants; both genes coding for pathogenesis related (PR) proteins, with chitinase also classified as an antifungal protein. In both cultivars, silicon treatment without Fov inoculation did not result in the significant up-regulation of any of the defence genes assessed, providing further evidence for the role of silicon in priming in this interaction. The activities of three defence related enzymes, peroxidase, chitinase and β-1, 3- glucanase was assessed in root and shoot material by colourimetric assays. Regular application of potassium silicate significantly increased the activity of peroxidase in root extracts from the highly resistant cultivar Sicot F-1, at three, four and seven dpi with Fov, and in root extracts from the moderately resistant Sicot 189 at three and four dpi. Significant increases in chitinase activity in inoculated, silicon treated Sicot 189 plants were observed in root extracts at three dpi, and in shoot extracts at four dpi. Soluble potassium silicate treatment resulted in significant increases in β-1, 3- glucanase activity in Sicot 189 root extracts at four dpi. Few significant differences between treatments in terms of chitinase and β-1, 3- glucanase activity were detected in Sicot F-1 plants, though higher levels of each of these enzymes were present in root and shoot extracts from this cultivar. In this study the effects of acibenzolar-S-methyl, applied in the form of Bion®, on defence gene expression and enzyme activity in cotton infected with Fov were more pronounced in plants cultivated from treated seed, rather than in plants treated via foliar spray; a finding which is particularly relevant to the industry presently. Significant up-regulation of chitinase class I, peroxidase, and β-1, 3-glucanase transcripts and enzyme activities occurred in the Bion® seed soak treatment with Fov inoculation compared to all other treatments. It was possible to compare the actions of silicon with those of Bion® in this study. Bion® primed defence responses in cotton infected with Fov, in a manner similar to that observed in silicon treated cotton. The use of silicon and Bion® treatments, both alone and in combination as part of integrated disease management programmes, may potentially contribute to increased protection against this pathogen in Australian cotton fields in the future.
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Avalia??o do potencial antiviral do extrato bruto da planta Caesalpinia echinata e da rifampicina contra v?rus dengue-2 em cultura de c?lulasAlmeida J?nior, Renato Ferreira de 16 March 2015 (has links)
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Previous issue date: 2015-03-16 / Os v?rus dengue pertence ? fam?lia Flaviviridae e ao g?nero Flavivirus, sendo composto por 4
sorotipos antigenicamente distintos, s?o considerados os arbov?rus mais importantes no
mundo por causar altas taxas de morbidade e mortalidade em regi?es tropicais e subtropicais
do planeta, colocando em risco at? 3,6 bilh?es de pessoas em mais de 100 pa?ses. Por ser uma
doen?a com amplo espectro cl?nico e por n?o possuir vacina ou tratamento eficaz, o estudo de
poss?veis antivirais que visam diminuir a viremia do paciente ? de suma import?ncia, j? que
este ? um dos fatores que pode levar a febre hemorr?gica da dengue e a s?ndrome do choque
da dengue que s?o as formas grave da doen?a. No presente estudo foi avaliado o potencial
antiviral do extrato da folhada planta Caesalpinia echinata contra o v?rus dengue-2 (DENV-2)
em cultura de c?lulas C6/36 e Vero e a a??o antiviral da Rifampicina em c?lulas Vero. A
escolha da Caesalpinia echinata se deve ao fato de que j? foi observada sua a??o antiinflamat?ria
e antimal?rica, al?m de n?o ter sido encontrado nenhum trabalho que tenha
avaliado seu potencial de a??o frente a v?rus. A Rifampicina foi escolhida por demonstrado
a??o antiviral, principalmente contra os poxvirus, por?m poucos s?os os relatos da utiliza??o
deste f?rmaco contra v?rus de RNA. O resultado foi obtido atrav?s da quantifica??o da carga
viral pela t?cnica da qRT-PCR em Tempo Real. As c?lulas infectadas por DENV-2 foram
submetidas ao tratamento pelo per?odo de 7 dias em diferentes concentra??es do extrato da
planta Caesalpinia echinataque variou entre 0,68 a 0,0068mg/mL. N?o foi poss?vel observar
neste estudo, evid?ncias de inibi??o significativa da replica??o do v?rus DENV-2 em ambas as
culturas celulares. ARifampicina foi utilizada em diferentes condi??es de tratamento, no qual
foi avaliado ao longo de 72 horas a carga viral produzida nas c?lulas Vero.Nas condi??es de
tratamento p?s-infec??o e no ensaio virucida o f?rmaco apresentou atividade antiviral,
reduzindo a taxa de replica??o em 100 vezes em rela??o ao controle. De acordo com os
nossos resultados conclui-se que a Rifampicina mostrou-se eficaz no combate a infec??o do
DENV-2 em cultura de c?lulas Vero. / The dengue virus belongs to the Flaviviridae family and the Flavivirus genus, consisting of
four serotypes antigenically distinct, are considered the most important arbovirus in the world
to cause high rates of morbidity and mortality in tropical and subtropical regions of the world,
threatening to 3, 6 billion people in over 100 countries. Because it is a disease with a wide
clinical spectrum and has no vaccine or effective treatment, the study of possible antiviral
drugs aimed at reducing viremia of patients is of paramount importance, since this is one of
the factors which can lead to dengue hemorrhagic fever and dengue shock syndrome that are
severe forms of the disease. In the present study we evaluated the antiviral potential of the leaf
extract of the plant Caesalpinia echinata against dengue-2 virus (DENV-2) in cultured C6/36
and Vero cells and the antiviral action of Rifampicin on Vero cells. The choice of Caesalpinia
echinata is due to the fact that has been observed its action anti-inflammatory and antimalarial
, and not have been found no study evaluated its antiviral effect. Rifampin was
chosen was chosen for demonstrated antiviral action, especially against poxviruses, but few
sane reports usage of this drug against RNA viruses. The result was obtained by quantifying
the viral load bythe technique of Real-time qRT-PCR. Cells infected with DENV-2 were
subjected to treatment for 7 days in different concentrations of plant extract Caesalpinia
echinata (0.68 - 0,0068mg / ml). As a result, we could not observe a inhibition significant of
virus replication in both cell cultures. The Rifampicin was used for different treatment
condition,which were evaluated over 72 hours the amount of viral load produced in Vero
cells, In the conditions treatment and the test virucidal theantiviral activity, which is capable
of reducing the rate of 100X replication as compared to control. According to our results we
can conclude that Rifampicin was effective in action against to infection DENV-2 in Vero cell
culture.
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