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In vitro and in vivo effects of deoxynivalenol (DON) mycotoxin on porcine reproductive and respiratory syndrome virus (PRRSV) in pigletsPinilla, Vicente 04 1900 (has links)
Les récoltes de céréales sont souvent contaminées par des moisissures qui se développent pendant la récolte et l’entreposage et produisent des métabolites secondaires appelés mycotoxines. Le porc est reconnu pour être sensible au déoxynivalénol (DON). L’infection virale la plus importante chez le porc est causée par le virus du syndrome reproducteur et respiratoire porcin (VSRRP). Celui-ci provoque un syndrome grippal et des troubles de reproduction. L’objectif du présent projet était de déterminer l'effet in vitro de DON sur la réplication du VSRRP dans de lignées cellulaires permissives, MARC-145 et PAM, et déterminer in vivo l'impact de DON dans des aliments naturellement contaminés sur l’infection au VSRRP chez le porcelet. Tout d’abord, les cellules ont été incubées avec des doses croissantes de DON et ont été infectées avec du VSRRP pour évaluer la viabilité et la mortalité cellulaire, la réplication virale et l’expression de cytokines. Les résultats ont montré que les concentrations de DON de 560ng/ml et plus affectaient significativement la survie des cellules MARC-145 et PAM infectées par le VSRRP. En revanche, il y avait une augmentation significative de la viabilité et une réduction de la mortalité cellulaire à des concentrations de DON de 140 à 280 ng/ml pour les cellules PAM et de 70 à 280 ng/ml pour les cellules MARC-145 avec une réduction de l'effet cytopathique provoqué parle VSRRP. Au niveau in vivo, 30 porcelets divisés en 3 groupes de 10 porcelets et nourris pendant 2 semaines avec 3 différentes diètes naturellement ont été contaminées avec DON (0; 2,5 et 3,5 mg/kg). Les porcelets ont été subdivisés en 6 groupes, 3 groupes de 6 porcelets et ont été exposés au DON pendant 2 semaines et infectés par voie intratrachéale et intramusculaire avec le virus. Les 3 autres groupes de 4 porcelets servaient de contrôle non infectés. Les signes cliniques ont été enregistrés pendant 21 jours. La virémie a été évaluée par PCR. À la fin de l’expérimentation, les porcelets ont été euthanasiés et les lésions pulmonaires ont été évaluées. Les résultats ont montré que l’ingestion de DON à 3,5 mg/kg a augmenté l’effet du VSRRP sur la sévérité des signes cliniques, les lésions pulmonaires et la mortalité. L’ingestion de DON à 2,5 mg/kg a entrainé une augmentation de la virémie au jour 3 après l’infection mais sans impact sur les signes cliniques et les lésions pulmonaires.
Mot clés: DON, VSRRP, MARC-145, PAM, effet cytopathique, cytokines, PCR / Cereal crops are often contaminated with moulds that grow during harvest and storage and produce secondary metabolites called mycotoxins. Pig is known to be sensitive to deoxynivalenol (DON). On the other hand, infection by porcine reproductive and respiratory syndrome virus (PRRSV) causes a flu-like syndrome and reproductive disorders. The objectives of this project were to determine the in vitro effect of DON on the replication of PRRSV in permissive cell lines, MARC-145 and PAM and the in vivo impact of DON-naturally contaminated feed on PRRSV infection in piglets. Firstly, cells were incubated with gradually increasing doses of DON and were infected with PRRSV to evaluate cytopathic effect and to assess cell viability, virus replication and cytokine mRNA expression on infected and uninfected cells. Results showed that DON concentrations of 560 ng/ml and higher were significantly detrimental to the survival of MARC-145 cells infected with PRRSV. In contrast, there was a significant increase of cell viability and decreased of cell mortality at DON concentrations within 140 to 280 ng/ml for PAM cells and 70 to 280 ng/ml ranges for MARC-145 showing a reduced cytopathic effect (CPE) caused by PRRSV.
In vivo study was carried out on 30 piglets divided into 3 groups of 10 piglets fed naturally contaminated diets with different levels of DON; 0, 2.5 and 3.5 mg/kg. After 2 weeks, pigs were further divided into 6 subgroups, 3 subgroups of 6 piglets were infected intra tracheally and intramuscularly with PRRSV. The other 3 subgroups of 4 piglets were used as uninfected controls. Clinical signs were recorded for 21 days post-infection (p.i.). Sera were evaluated for viremia by PCR. At the end of the experiment, piglets were euthanized and pulmonary lesions were evaluated. Results showed that ingestion of diet highly contaminated with DON at 3.5 mg/kg increased the effect of PRRSV infection on the severity of clinical signs, weight loss, lung lesions and mortality. Diet with DON at 2.5 mg/kg showed an increase of viremia at day 3 but had not significant impact on clinical signs and lung lesions.
Keywords: DON, PRRSV, MARC-145, PAM, cytopathic effect, cytokines, PCR
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Screening of large collection of compounds for anti-human parainfluenza virus type-2 activity and evaluation of hit compoundsRai, Vijeta January 2017 (has links)
Human parainfluenza virus type-2 (HPIV-2) is a highly contagious respiratory pathogen that can cause severe respiratory disease known as laryngotracheobronchitis or croup-like disease in children. No specific vaccine or an antiviral drug is currently approved for treatment of HPIV-2 infections. In this project, a library of 14400 diverse compounds had been screened for anti-HPIV-2 activities in cultures of African green monkey kidney cells. All compounds that inhibited the virus induced syncytium-forming activity in these cells were considered as hit compounds. Three hit compounds showed moderate anti-HPIV-2 activity characterized by the IC50 values of 20 µM and selectivity indices of approximately 5. This suggests that the antiviral activity of these compounds was due to targeting activities of cellular rather than viral components. Another hit compound, referred to as compound 5, showed anti-HPIV-2 activity that was manifested as a reduction of area of the virus-induced plaques in cells at not cytotoxic concentrations. Interestingly, this compound did not inhibit initial infection nor the virus production in infected cells as revealed by the time-of-addition assay. Moreover, it showed no direct the virus-inactivating (virucidal activity) against HPIV-2 particles. However, relatively short pre-treatment (4 hours) of the cells with compound 5 prior to the virus infection was sufficient for its plaque size-reducing activity suggesting that anti-HPIV-2 activity of compound 5 was due to targeting activities of cellular rather than viral components. Further studies are needed to elucidate the anti-HPIV-2 mechanism of activity of hit compounds identified in the present study.
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Governing Dynamics of Divalent Copper Binding by Influenza A Matrix Protein 2 His37 ImidazoleMcGuire, Kelly Lewis 04 August 2020 (has links)
Influenza A is involved in hundreds of thousands of deaths globally every year resulting from viral infection-related complications. Previous efforts to subdue the virus by preventing proper function of wild-type (WT) neuraminidase (N), and M2 proteins using oseltamivir and amantadine (AMT) or rimantadine (RMT), respectively, exhibited success initially. Over time, these drugs began exhibiting mixed success as the virus developed drug resistance. M2 is a proton channel responsible for the acidification of the viral interior which facilitates release of the viral RNA into the host. M2 has a His37-tetrad that is the selective filter for protons. This protein has been demonstrated to be a feasible target for organic compounds. However, due to a mutation from serine to asparagine at residue 31 of M2, which is found in the majority of influenza strains circulating in humans, AMT and RMT block is insufficient. From simulations, it is unclear whether the insensitivity results from weak binding or incomplete block. The question of how the S31N mutation caused MT and RMT insensitivity in M2 is addressed here by analyzing the binding kinetics of AMT and RMT using the two-electrode voltage clamp electrophysiology method. The dissociation rate constant (k2) is dramatically increased compared to WT for both AMT and RMT, by 1500-fold and 17000-fold respectively. Testing of AMT at 10 mM demonstrates complete block, albeit weak, of the S31N M2 channel. At 10 mM, RMT does not reach complete block even though the binding site is saturated. When RMT is in the bound state, it is not blocking all the current, and is binding without block. These results motivated the development of novel M2 blockers using copper complexes focusing on the His37 complex in M2. I hypothesized that copper complexes would bind with the imidazole of a histidine in the His37 complex and prevent proton conductance. The His37 complex is highly conserved in the M2 channel and, therefore, would be important target for influenza therapeutics. By derivatizing the amines of known M2 blockers, AMT and cyclooctyalmine, to form the iminodiacetate or iminodiacetamide, we have synthesized Cu(II) containing complexes and characterized them by NMR, IR, MS, UV–vis, and inductively coupled plasma mass spectroscopy (ICP-MS). The copper complexes, but not the copper-free ligands, demonstrated H37-specific blocking of M2 channel currents and low micromolar anti-viral efficacies in both Amt-sensitive and Amt-resistant IAV strains with, for the best case, nearly 10-fold less cytotoxicity than CuCl2. Isothermal titration calorimetry was used to obtain enthalpies that showed the copper complexes bind to one imidazole and curve fitting to the electrophysiology data provided rate constants for binding in the M2 channel. Computational chemistry was used to obtain binding geometries and energies of the copper complexes to the His37-tetrad. The results show that the copper complexes do bind with the His37 complex and prevent proton conductance and influenza infection.
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