Alphavirus vectors as recombinant vaccines /

Berglund, Peter,

January 1900

Diss. (sammanfattning) Stockholm : Karol. inst. / Härtill 6 uppsatser.

Alphavirus: genetics.

Semliki forest virus-derived packaging system for production of retroviral vectors /

Li, Ke-Jun,

January 1900

Diss. (sammanfattning) Stockholm : Karol. inst. / Härtill 3 uppsatser.

Alphavirus: genetics.

Protein interactions involved in alphavirus assembly /

Skoging Nyberg, Ulrica,

January 1900

Diss. (sammanfattning) Stockholm : Karol. inst. / Härtill 4 uppsatser.

Alphavirus infections.

Análise metabolômica de alterações induzidas pelo vírus mayaro em células vero.

Castro, Ceyla Maria Oeiras de

03 September 2015

Submitted by Fabíola Silva (fabiola.silva@famerp.br) on 2017-08-03T11:44:01Z No. of bitstreams: 1 ceylamariaodecastro_tese.pdf: 1353174 bytes, checksum: 1308d049511e8f07c8b5a5d1f5aa3df6 (MD5) / Made available in DSpace on 2017-08-03T11:44:01Z (GMT). No. of bitstreams: 1 ceylamariaodecastro_tese.pdf: 1353174 bytes, checksum: 1308d049511e8f07c8b5a5d1f5aa3df6 (MD5) Previous issue date: 2015-09-03 / This study aimed at assessing the extracellular metabolic profile of Vero cells infected by Mayaro virus. In this metabolomic study, the use of nuclear magnetic resonance associated to multivariate analytical methods, devices of standard recognition, showed metabolic variations which can be attributed to the effect of Mayaro virus infection. Vero cells were infected and incubated for 2, 6 and 12 hour periods. Differentiated variations in the levels of several metabolites such as amino acids, organic acids, guanidine compound, monoamine, carbohydrates and fatty acids have occurred in each period. These organic compounds are metabolites involved in the glycolysis pathway, tricarboxylic acid cycle, pentose phosphate pathway, and the oxidation pathway of fatty acids (via the β-oxidation). This study demonstrates footprinting analysis representing the effect of the virus action on the Vero cell metabolism, furthermore, these analyzes point out the intracellular metabolic state, improving the knowledge of the microorganism influence on cellular metabolism. / O presente estudo tem como objetivo avaliar o perfil metabólico extracelular de células Vero infectadas pelo vírus Mayaro. Neste estudo metabolômico o uso da ressonância magnética nuclear combinado a métodos analíticos multivariados, ferramentas de reconhecimento padrão que demonstraram variações metabólicas que podem ser atribuídas ao efeito da infecção do vírus Mayaro. As células Vero foram infectadas e incubadas em períodos de 2, 6 e 12 horas. Em cada período ocorrem variações diferenciadas nos níveis de vários metabólitos, como aminoácidos, ácidos orgânicos, composto de guanidina, monoamina, carboidratos e ácidos graxos. Esses compostos orgânicos são metabólitos envolvidos na via da glicólise, ciclo do ácido tricarboxílico, via das pentoses-fosfato, e via da oxidação dos ácidos graxos (via da β-oxidação). Este estudo demonstra footprinting analysis que representa o efeito da ação do vírus no metabolismo da célula Vero, além disso, essas análises indicaram o estado metabólico intracelular, e contribuem para o conhecimento da influência do microorganismo no metabolismo celular.

Alphavirus

Células Vero

Metabolismo

Alphavirus

Vero Cells

Metabolism

CIENCIAS DA SAUDE

Etude de la physiopathologie des infections à alphavirus arthritogènes par une approche d’imagerie in vivo / Deciphering the physiopathology of arthritogenic alphaviral infections using in vivo bioluminescence imaging

Belarbi, Essia

19 April 2017

Les alphavirus arthritogènes de la rivière Ross (RRV) et du chikungunya (CHIKV) sont des arbovirus à l’origine de maladies inflammatoires musculosquelettiques chez l'homme. Ils sont largement distribués dans le monde et provoquent périodiquement des épidémies explosives. Les principaux signes cliniques lors d’une infection par un alphavirus arthritogène sont les myalgies, polyarthrites et arthralgies intenses pouvant persister plusieurs mois après l'infection. Les mécanismes de développement de l’infection et des manifestations persistantes sont peu connus. Pour étudier la pathogenèse de l'infection par RRV, nous avons généré un virus recombinant exprimant une nouvelle luciférase brillante et brillante. Nous avons montré que les monocytes humains, malgré une faible susceptibilité à l'infection in vitro par RRV, étaient capables de maintenir une réplication virale jusqu'à 45 jours post infection indiquant leur rôle potentiel dans les formes chroniques. Grâce un modèle expérimental de l’infection par RRV, nous avons suivi les phases aiguë et chronique de la maladie in vivo. Nous avons montré que les cinétiques de réplication du virus recombinant étaient proches de celles du virus parental. Nous avons également observé un tropisme musculaire et articulaire et une corrélation entre le signal bioluminescent et la charge virale confirmant ainsi la relevance de ce modèle. En étudiant la dissémination virale, nous avons montré que le Bindarit, une molécule anti-inflammatoire diminuant le développement de la maladie dans le modèle murin, induit une plus grande réplication dans le tissu cardiaque. Enfin, nous avons pu observer une réplication virale dans les tissus musculaires durant la phase chronique de la maladie et avons montré le rôle de la dose inoculée dans le développement de la persistance virale. Suite à un traitement immunosuppresseur, nous avons observé une légère augmentation du signal bioluminescent indiquant un contrôle de la réplication virale persistante par la réponse immunitaire adaptative. Ce nouveau modèle d’imagerie in vivo permet un suivi en temps réel de la dissémination virale permettant des études de pathogenèse et l'évaluation de stratégies thérapeutiques. / Ross River virus (RRV) and chikungunya virus (CHIKV) are mosquito-transmitted viruses that cause musculoskeletal inflammatory diseases in humans. They are widely distributed and periodically cause explosive epidemics. After infection with RRV, patients experience fever, maculopapular rash, myalgia and intense pain in the peripheral joints. Approximately 30% of patients develop a chronic form of the disease with myalgia and poly-arthralgia persisting for months to years after infection. The mechanisms underlying these persistent symptoms remain unclear. To study the dynamics and pathogenesis of RRV infection in vitro and in living animals, we generated a recombinant virus expressing a novel small and bright luciferase. First we showed that human monocytes, despite a low susceptibility to RRV infection, were able to maintain viral replication in vitro up to 45 days post infection. Then, using a murine model of RRV infection, we monitored the acute and chronic phases of the disease. We observed near native replication kinetics and a muscular/articular tropism after infection with our recombinant virus. Moreover, the bioluminescent signal correlated with the viral load further confirming the relevance of this new imaging model. After monitoring of the viral dissemination in live mice, we showed that Bindarit, an anti-inflammatory molecule known to prevent the development of the alphaviral disease in a mouse model, induces a higher replication in the cardiac tissue; thereby indicating that caution must be used before treatment of patients. We were also able to observe viral replication in the muscles during the chronic stage of the disease when using a low inoculation dose. Finally, following an immunosuppressive treatment, we observed a slight increase in the bioluminescent signal indicating a control of remnant viral replication by the adaptive immune response. This new model provides a non-invasive real-time assessment of viral replication and dissemination allowing pathogenesis studies and therapeutic strategies evaluation.

Alphavirus

Physiopathologie

Imagerie in vivo

Bioluminescence

Alphavirus

Physiopathology

In vivo imaging

Bioluminescence

Production and evaluation of recombinant single-chain antibodies for the detection of Venezuelan equine encephalomyelitis virus

Duggan, Jacqueline Marie

January 2000

No description available.

610.28

Alphavirus; Togaviridae; Equine disease

Genetic vaccination against acute viral disease /

Fleeton, Marina N.,

January 1900

Diss. (sammanfattning) Stockholm : Karol. inst. / Härtill 5 uppsatser.

Mammalian cell stress responses during Semliki Forest virus infection

Ferguson, Mhairi Catriona

January 2013

Virus infection of mammalian cells induces several stress mechanisms, including autophagy and type-I interferon (IFN). Autophagy, a cellular homeostatic mechanism in which intracellular materials are sequestered into double-membrane vesicles and targeted to lysosomes for degradation, is also activated in response to virus infection. Most positive single-stranded RNA viruses studied to date utilise autophagy to increase virus replication. IFN is a potent anti-viral mechanism, which can be divided into two parts: (i) induction and secretion of IFN and (ii) IFN signalling and priming of uninfected cells for a rapid response upon infection and induction of an anti-viral state in infected cells. Alphaviruses are medically important RNA viruses. Semliki Forest virus (SFV) provides a well-characterised model for studying alphavirus infection. A number of strains have been identified, which differ in virulence in adult mice. In this thesis three hypotheses were investigated: (i) that SFV infection induces autophagy in cell culture and utilises this response to enhance virus replication, (ii) that the quality, quantity and/or protective efficacy of the IFN response differ between virus strains and between human and murine cells and (iii) that non-structural protein (nsP)-2 and/or nsP3 antagonise the IFN response. SFV4, SFV L10 and SFV A7(74) infection induced autophagy in Huh7 cells as early as one hour post-infection. Pharmacological induction or inhibition of autophagy had no affect on SFV4 replication, except at a very low multiplicity of infection. NsP3, capsid and dsRNA rarely colocalised with the autophagosome marker LC3. Taken together these results indicate that SFV does not use autophagosomes for replication and autophagy is not important in controlling SFV4 infection at a high MOI, at least in Huh7 cells. However, autophagy may be important in controlling SFV4 spread at a low MOI. An IFN bioassay was established. In fibroblasts, SFV4, SFV L10 and SFV A7(74) induced relatively little IFN in comparison to that induced by Sendai virus. In human fibroblasts, similar levels of IFN were induced by all three virus strains. In mouse fibroblasts, SFV4 induced more IFN than SFV L10. Treatment of fibroblasts with IFN prior to infection greatly reduced, but did not abolish, the replication and spread of all three strains. Therefore, SFV is sensitive to IFN. Analysis of IFN signalling demonstrated that all three strains of SFV inhibited STAT1 phosphorylation during infection of fibroblasts. The growth and viability of SFV infected cells varied between human and mouse cells. The complete genetic sequences of SFV L10 and SFV A7(74) were determined using Solexa (Illumina) sequencing and compared to the sequence of SFV4. The sequences of SFV L10 and SFV4 were extremely similar; only seven differences were identified. Multiple amino acid substitutions were identified in SFV A7(74) compared to SFV4, these mostly mapped to nsP3. To investigate the hypothesis that nsP2 and or nsP3 antagonise the IFN response, two virus mutants were studied: SFV4nsP2RDR and SFV4nsP3Δ50. SFV4nsP2RDR encodes a point mutation in the nuclear localisation signal of nsP2, which largely restricts nsP2 to the cell cytoplasm. SFV4nsP3Δ50 contains a deletion of 50 amino acids in the C-terminus hyperphosphorylated region of nsP3. Neither mutant inhibited STAT1 phosphorylation as efficiently as WT SFV4; SFV4nsP2RDR was particularly poor at inhibiting STAT1 phosphorylation. Both mutants induced more IFN in fibroblasts than SFV4. In summary, autophagy had a limited affect on SFV replication. In contrast, strains of SFV were highly sensitive to IFN, but antagonised this response through the nsP2 protein inhibiting STAT1 phosphorylation.

A silent public health threat: emergence of Mayaro virus and co-infection with Dengue in Peru

Aguilar-Luis, Miguel Angel, del Valle-Mendoza, Juana, Sandoval, Isabel, Silva-Caso, Wilmer, Mazulis, Fernando, Carrillo-Ng, Hugo, Tarazona-Castro, Yordi, Martins-Luna, Johanna, Aquino-Ortega, Ronald, Peña-Tuesta, Isaac, Cornejo-Tapia, Angela, Del Valle, Luis J.

01 December 2021

Objective: To describe frequency and clinical characteristics of MAYV infection in Piura, as well as the association of this pathogen with DENV. Results: A total of 86/496 (17.3%) cases of MAYV were detected, of which 54 were MAYV mono-infection and 32 were co-infection with DENV, accounting for 10.9% and 6.4%, respectively. When evaluating monoinfection by MAYV the main groups were 18–39 and 40–59 years old, with 25.9% and 20.4% respectively. Co-infections were more common in the age group 18–39 and those > 60 years old, with 34.4% and 21.9%, respectively. The most frequent clinical presentation were headaches (94.4%, 51/54) followed by arthralgias (77.8%, 42/54). During the 8-month study period the most cases were identified in the months of May (29.1%) and June (50.0%). / National Research Foundation of Korea / Revisión por pares

Alphavirus

Arbovirus

Dengue

Mayaro virus

PCR

Peru

New tools for the study of virus-vector interactions in mosquitoes

Wiley, Michael R.

06 March 2012

Mosquito-borne diseases continue to be a burden to global health. The viruses that cause these diseases are maintained in nature through a biological transmission cycle involving susceptible vertebrate and mosquito hosts. While knowledge of the interactions occurring between mosquito-borne viruses and vertebrates is considerable, much less is known about the interactions of these viruses with their disease vectors. Studies with Drosophila melanogaster have been important in understanding how insects respond to viral infections. However, mosquitoes and the viruses they vector have co-evolved during a long period of time. Unfortunately, many of the genetic advantages of a fly model are not available when working with mosquitoes. Nevertheless, a sequenced genome, and molecular tools such as high-throughput sequencing and RNAi knockdown are helping to bridge these gaps. Here we describe several additional tools for the study of virus-vector interactions in the mosquito. / Ph. D.

IRES

B2

RNA-based immunity

alphavirus

mosquito