Biochemical mapping of the measles virus H and F envelope glycoprotein protein-protein interface

Panchbhai, Neha Arun

10 May 2014

The Paramyxoviridae family includes several viruses that are important to human health, including measles virus. The envelope glycoproteins are essential for attachment and entry of the virus into the host cell [1, 2]. To develop novel therapeutics against the virus, detailed knowledge of envelope glycoprotein protein-protein interaction is important. The goal of this study is to characterize the MeV entry machinery on a molecular level. Interaction of haemaglutinin (H) and fusion (F) protein in pre-fusion form can be biochemically detected with DTSSP. To map the interaction site of H and F protein in pre-fusion form, we have mutated lysine (K) to arginine (R) in the F protein, and examined surface expression. The mutated F was still expressed on the surface and amount of surface expression correlated with fusion activity. The altered F proteins produced in this study will be used to further characterize the H-F interaction.

Measles

Glycoproteins

haemaglutinin (H) and fusion (F) protein

DTSSP.

Crystal structures of the Fanconi anemia proteins : structure of the interstrand cross-linking repair protein Fanconi anemia protein I (FANCI); structure of the human FANCF C-terminal domain; reconstitution and crystallilzation of the sub-complexes in the Fanconi anemia core complex /

Xu, Guozhou.

January 2009

Thesis (Ph. D.)--Cornell University, May, 2009. / Vita. Includes bibliographical references.

Développement de lignées de poissons zébrés transgéniques pour l'étude du rôle de la protéine F dans la pathogenèse de l'hépatite C

Quesnel-Vallières, Mathieu

03 1900

Le virus de l’hépatite C (VHC) est une des principales causes d’hépatite chronique. La protéine F du VHC est codée par un cadre de lecture alternatif du gène de la capside, Core. La protéine F a été découverte après que l’on ait associé Core à plusieurs des fonctions pathogènes du VHC. Nous proposons donc que certaines fonctions biologiques et pathogènes attribuées à la protéine Core résultent de l’activité de la protéine F. Nous avons choisi de développer trois lignées de poissons zébrés (Danio rerio) qui expriment différentes versions de la protéine F afin d’étudier les effets de la protéine F et leur incidence dans la pathogenèse du VHC. Deux versions de la séquence codant pour la protéine F (AF11 et AUG26) et une version mutante du gène core (CoremutI) ont été introduites sur les vecteurs d’un système d’expression répressible spécifique au foie. Ces vecteurs ont été co-injectés dans des embryons unicellulaires de poissons zébrés pour générer les poissons fondateurs des lignées transgéniques. 19, 21 et 36 poissons ont été choisis comme fondateurs pour les lignées AF11, AUG26 et CoremutI respectivement. De ce nombre, 9, 11 et 11 poissons ont atteint la maturité, dans l’ordre pour les mêmes lignées, et seront croisés pour donner naissance à des lignées transgéniques stables. Les résultats de ces expériences nous permettront de mieux cerner les propriétés biologiques de la protéine F et de définir son rôle dans la pathogenèse du VHC. / Hepatitis C virus (HCV) is a major cause of liver steatosis, fibrosis and hepatocellular carcinoma. HCV F protein is expressed from an alternative reading frame within the Core sequence. F protein was discovered after many of the pathogenic determinants of HCV had been associated with the effects of Core. Hence, we propose that a part of the functions attributed to Core result from the activity of the F protein. We produced and selected 19, 21 and 36 transgenic zebrafish (Danio rerio) to give rise to 3 independent lines expressing different versions of the F protein. Of these founders, 9, 11 and 11 were raised to maturity and will be bred to generate stable transgenic lines. Characterizing the phenotype of these transgenic fish will help determine the precise role of the F protein in the pathogenesis of hepatitis C.

Virus de l'hépatite C (VHC)

protéine F

ARFP

poisson zébré

transgénèse

Hepatitis C virus (HCV)

F protein

ARFP

zebrafish

transgenesis

Étude de l’implication de la protéine F du virus de l’hépatite C dans le développement de pathologie hépatique chez deux lignées de poissons zébrés transgéniques

Pagliuzza, Amélie

11 1900

La protéine core du virus de l’hépatite C (VHC) serait responsable des principaux effets pathogènes du VHC, dont le développement de fibrose, stéatose, cirrhose et carcinome hépatocellulaire. Un cadre de lecture alternatif existe dans le gène de core, permettant la synthèse d’une autre protéine appelée ARFP (pour alternatate reading frame protein) ou protéine F (pour frameshift), dont le rôle reste encore mal compris. La présence de la protéine F lors de l’étude des fonctions biologiques de core ne pouvant être exclue, il est possible que certains rôles attribués à core reflètent en réalité l’activité de la protéine F. Afin de déterminer les fonctions biologiques de la protéine F dans les hépatocytes et son influence dans la pathogenèse associée au VHC, nous avons généré des lignées transgéniques de poissons zébrés (Danio rerio) dans lesquelles l’expression de deux versions de la protéine F (AF11opti et AUG26opti) a été ciblée au foie par l’utilisation du promoteur de la liver fatty acid binding protein (L-FABP). Le phénotype des poissons transgéniques de génération F2 a été analysé au niveau morphologique, histologique et microscopique afin de rechercher des signes de pathologie hépatique. Nos résultats ont démontré l’implication de la protéine F dans le développement de stéatose hépatique chez les deux lignées transgéniques, mais aucun signe de fibrose ou d’oncogenèse n’a été détecté. L’identification des mécanismes cellulaires et moléculaires responsables de l’accumulation lipidique induite par la protéine F pourrait permettre de mieux comprendre son rôle dans la pathogenèse du VHC, et mener au développement de nouvelles stratégies antivirales. / Hepatitis C virus (HCV) core protein is thought to be responsible for the major pathogenic effects of HCV, including the development of fibrosis, steatosis, cirrhosis, and hepatocellular carcinoma. An alternate translational open reading frame exists in the core gene that allows the synthesis of another protein called ARFP (alternate reading frame protein) or F protein (frameshift), the role of which remains poorly understood. Since we cannot exclude the presence of F protein in most studies of core biological functions, it is possible that the roles attributed to core reflect the activity of ARFP. To determine the biological functions of F protein in hepatocytes and their influence on HCV-associated pathogenesis, we generated transgenic lines of zebrafish (Danio rerio) in which the liver fatty acid binding protein (L-FABP) promoter was used to direct liver-specific expression of two forms of ARFP (AF11opti and AUG26opti). The phenotype of F2 transgenic zebrafish was analyzed for morphological, histological and microscopic signs of liver-associated pathology. Our results demonstrated the implication of the HCV F protein in the development of hepatic steatosis in transgenic zebrafish liver but not fibrosis or oncogenesis. Identification of the cellular and molecular mechanisms underlying F protein-induced lipid accumulation will lead to a better understanding of the role of ARFP in HCV-associated pathology, which could lead to the development of novel antiviral strategies.

VHC

ARFP

Protéine F

Poisson zébré

Transgénèse

Stéatose hépatique

HCV

ARFP

F protein

Zebrafish

Transgenesis

Hepatic steatosis

Detecção de quasispecies em amostras de vírus respiratório sincicial humano (HSRV) na ausência e na presença de soros policlonais / Quasispecies detection in human respiratory syncytial virus (HRSV) samples in absence and presence of polyclonal serum

Sales, Claudia Trigo Pedroso de Moraes

16 October 2009

O vírus respiratório sincicial humano (HRSV) é um dos agentes patogênicos respiratórios de grande importância clínica, tendo em vista que acomete 64 milhões de crianças por ano em todo o mundo. A resposta imune do hospedeiro e a variabilidade genética do HRSV podem interferir na produção de uma vacina eficaz, tal como a presença de quasispecies na população viral. O objetivo deste trabalho foi detectar quasispecies em amostras de HRSV e verificar se soros obtidos da criança na fase convalescente da doença e de sua respectiva mãe selecionam estes mutantes. Uma alteração não sinonímia foi detectada no gene F em um dos clones seqüenciados, enquanto duas alterações sinonímias e duas não sinonímias foram encontradas no gene G do HRSV, sendo as últimas no mesmo nucleotídeo. Um dos clones pré-selecionados com soro humano apresentou a mesma alteração não-sinonímia, encontrada na ausência de anticorpos no gene G. Os resultados sugerem que diferentes sequencias virais presentes em menor quantidade na população podem ser selecionadas pelo sistema imunológico do hospedeiro. / Human respiratory syncytial virus (HRSV) is one of the most important clinical respiratory pathogens, since 64 millions children in the world are infected by this agent every year. Host immunity and viral genetic variability are important factors to a vaccine development, besides quasispecies presence in the viral population. In this work, HRSV quasispecies were detected in clinical samples in absence and presence of human polyclonal serum collected by children in the convalescent phase and mother serum. A non-synonymy variation was found in the F gene in antibodies absence. Four mutations were found at HRSV G2 in polyclonal serum absence. Two were synonymy and two were non-synonymy variation, the last in the same nucleotide. A non-synonymy mutation was found in the G2 region in presence of polyclonal serum collected from child convalescent phase. This alteration was the same of the observed in absence of polyclonal serum so it is possible that host antibodies can selected different viral minority sequences present in the population.

F protein

G protein

Human polyclonal serum

Human respiratory syncytial virus

Plaque assay

Plaqueamento

Proteína F

Proteína G

Quasispecies

Quasispecies

Soro policlonal humano

Vírus respiratório sincicial human

Efeitos do exercicio físico sobre a expressão de receptores de glutamato no encéfalo de ratos. / Effects of physical exercise on the glutamate receptors expression on the rat brain.

Real, Caroline Cristiano

17 March 2009

Este estudo visou observar os efeitos plásticos induzidos pelo exercício a curto prazo em regiões motoras do encéfalo de ratos. Observou-se a expressão das subunidades GluR1 e GluR2/3. Os animais foram divididos em grupos de: 3 dias(COR3), 7 dias(COR7) e 15 dias(COR15); e um grupo controle(CONT). Empregaram-se as técnicas de imuno-histoquímica e immunoblotting. A expressão de GluR1 no cerebelo, demonstrou um decréscimo em COR3. No hipocampo houve uma queda na expressão em COR3(40%), retornando aos níveis basais em COR7. No córtex cerebral observou-se uma queda da expressão com máxima queda em COR7(52%), retornando à expressão basal em COR15. O estriado não sofreu alterações na expressão de GluR1 ao longo dos primeiros 7 dias, tendo um aumento em COR15(90%). A expressão de GluR2/3 não foi alterada, exceto no cerebelo, onde houve um decréscimo em dois momentos distintos, COR3(55%) e COR15(25%), retornando à expressão basal em COR7. Os nossos dados revelam que o exercício físico a curto prazo foi capaz de promover alterações plásticas ao longo do treinamento. / This study aimed at analyzing the plastic effects of the short-term exercise upon the rat motor area. We check the expression of GluR1 and GluR2/3. We divided into 3 experimental groups based on duration of exercise: 3 days(COR3), 7 days(COR7), and 15 days(COR15); and a control group(CONT). The experimental animals were subjected to a treadmill exercise protocol. The brains were subjected to the techniques of immunohistochemistry and immunoblotting. In the cerebellum, there was a decrease for COR3(17%). In the hippocampus, there was a decrease of the GluR1 expression for COR3 (40%). In the cerebral cortex there was a drop of GluR1 expression for COR3 and COR7(52%). In the striatum, there was no change of GluR1 expression during the first seven days, with a increase for COR15(90%). The GluR2/3 expression did not change in any brain structure analyzed, except in the cerebellum, where there was a significant decrease for two distinct groups, COR3(55%) and COR15(25%). Our data show that short-term physical exercise was able to promote plastic changes during training.

Áreas motoras

Exercício físico

F protein

G protein

Glutamato

Human polyclonal serum

Human respiratory syncytial virus

Plaque assay

Plasticidade

Quasispecies

Receptores do tipo AMPA

Développement de lignées de poissons zébrés transgéniques pour l'étude du rôle de la protéine F dans la pathogenèse de l'hépatite C

Quesnel-Vallières, Mathieu

03 1900

Le virus de l’hépatite C (VHC) est une des principales causes d’hépatite chronique. La protéine F du VHC est codée par un cadre de lecture alternatif du gène de la capside, Core. La protéine F a été découverte après que l’on ait associé Core à plusieurs des fonctions pathogènes du VHC. Nous proposons donc que certaines fonctions biologiques et pathogènes attribuées à la protéine Core résultent de l’activité de la protéine F. Nous avons choisi de développer trois lignées de poissons zébrés (Danio rerio) qui expriment différentes versions de la protéine F afin d’étudier les effets de la protéine F et leur incidence dans la pathogenèse du VHC. Deux versions de la séquence codant pour la protéine F (AF11 et AUG26) et une version mutante du gène core (CoremutI) ont été introduites sur les vecteurs d’un système d’expression répressible spécifique au foie. Ces vecteurs ont été co-injectés dans des embryons unicellulaires de poissons zébrés pour générer les poissons fondateurs des lignées transgéniques. 19, 21 et 36 poissons ont été choisis comme fondateurs pour les lignées AF11, AUG26 et CoremutI respectivement. De ce nombre, 9, 11 et 11 poissons ont atteint la maturité, dans l’ordre pour les mêmes lignées, et seront croisés pour donner naissance à des lignées transgéniques stables. Les résultats de ces expériences nous permettront de mieux cerner les propriétés biologiques de la protéine F et de définir son rôle dans la pathogenèse du VHC. / Hepatitis C virus (HCV) is a major cause of liver steatosis, fibrosis and hepatocellular carcinoma. HCV F protein is expressed from an alternative reading frame within the Core sequence. F protein was discovered after many of the pathogenic determinants of HCV had been associated with the effects of Core. Hence, we propose that a part of the functions attributed to Core result from the activity of the F protein. We produced and selected 19, 21 and 36 transgenic zebrafish (Danio rerio) to give rise to 3 independent lines expressing different versions of the F protein. Of these founders, 9, 11 and 11 were raised to maturity and will be bred to generate stable transgenic lines. Characterizing the phenotype of these transgenic fish will help determine the precise role of the F protein in the pathogenesis of hepatitis C.

Virus de l'hépatite C (VHC)

protéine F

ARFP

poisson zébré

transgénèse

Hepatitis C virus (HCV)

F protein

ARFP

zebrafish

transgenesis

Étude de l’implication de la protéine F du virus de l’hépatite C dans le développement de pathologie hépatique chez deux lignées de poissons zébrés transgéniques

Pagliuzza, Amélie

11 1900

La protéine core du virus de l’hépatite C (VHC) serait responsable des principaux effets pathogènes du VHC, dont le développement de fibrose, stéatose, cirrhose et carcinome hépatocellulaire. Un cadre de lecture alternatif existe dans le gène de core, permettant la synthèse d’une autre protéine appelée ARFP (pour alternatate reading frame protein) ou protéine F (pour frameshift), dont le rôle reste encore mal compris. La présence de la protéine F lors de l’étude des fonctions biologiques de core ne pouvant être exclue, il est possible que certains rôles attribués à core reflètent en réalité l’activité de la protéine F. Afin de déterminer les fonctions biologiques de la protéine F dans les hépatocytes et son influence dans la pathogenèse associée au VHC, nous avons généré des lignées transgéniques de poissons zébrés (Danio rerio) dans lesquelles l’expression de deux versions de la protéine F (AF11opti et AUG26opti) a été ciblée au foie par l’utilisation du promoteur de la liver fatty acid binding protein (L-FABP). Le phénotype des poissons transgéniques de génération F2 a été analysé au niveau morphologique, histologique et microscopique afin de rechercher des signes de pathologie hépatique. Nos résultats ont démontré l’implication de la protéine F dans le développement de stéatose hépatique chez les deux lignées transgéniques, mais aucun signe de fibrose ou d’oncogenèse n’a été détecté. L’identification des mécanismes cellulaires et moléculaires responsables de l’accumulation lipidique induite par la protéine F pourrait permettre de mieux comprendre son rôle dans la pathogenèse du VHC, et mener au développement de nouvelles stratégies antivirales. / Hepatitis C virus (HCV) core protein is thought to be responsible for the major pathogenic effects of HCV, including the development of fibrosis, steatosis, cirrhosis, and hepatocellular carcinoma. An alternate translational open reading frame exists in the core gene that allows the synthesis of another protein called ARFP (alternate reading frame protein) or F protein (frameshift), the role of which remains poorly understood. Since we cannot exclude the presence of F protein in most studies of core biological functions, it is possible that the roles attributed to core reflect the activity of ARFP. To determine the biological functions of F protein in hepatocytes and their influence on HCV-associated pathogenesis, we generated transgenic lines of zebrafish (Danio rerio) in which the liver fatty acid binding protein (L-FABP) promoter was used to direct liver-specific expression of two forms of ARFP (AF11opti and AUG26opti). The phenotype of F2 transgenic zebrafish was analyzed for morphological, histological and microscopic signs of liver-associated pathology. Our results demonstrated the implication of the HCV F protein in the development of hepatic steatosis in transgenic zebrafish liver but not fibrosis or oncogenesis. Identification of the cellular and molecular mechanisms underlying F protein-induced lipid accumulation will lead to a better understanding of the role of ARFP in HCV-associated pathology, which could lead to the development of novel antiviral strategies.

VHC

ARFP

Protéine F

Poisson zébré

Transgénèse

Stéatose hépatique

HCV

ARFP

F protein

Zebrafish

Transgenesis

Hepatic steatosis

Efeitos do exercicio físico sobre a expressão de receptores de glutamato no encéfalo de ratos. / Effects of physical exercise on the glutamate receptors expression on the rat brain.

Caroline Cristiano Real

17 March 2009

Este estudo visou observar os efeitos plásticos induzidos pelo exercício a curto prazo em regiões motoras do encéfalo de ratos. Observou-se a expressão das subunidades GluR1 e GluR2/3. Os animais foram divididos em grupos de: 3 dias(COR3), 7 dias(COR7) e 15 dias(COR15); e um grupo controle(CONT). Empregaram-se as técnicas de imuno-histoquímica e immunoblotting. A expressão de GluR1 no cerebelo, demonstrou um decréscimo em COR3. No hipocampo houve uma queda na expressão em COR3(40%), retornando aos níveis basais em COR7. No córtex cerebral observou-se uma queda da expressão com máxima queda em COR7(52%), retornando à expressão basal em COR15. O estriado não sofreu alterações na expressão de GluR1 ao longo dos primeiros 7 dias, tendo um aumento em COR15(90%). A expressão de GluR2/3 não foi alterada, exceto no cerebelo, onde houve um decréscimo em dois momentos distintos, COR3(55%) e COR15(25%), retornando à expressão basal em COR7. Os nossos dados revelam que o exercício físico a curto prazo foi capaz de promover alterações plásticas ao longo do treinamento. / This study aimed at analyzing the plastic effects of the short-term exercise upon the rat motor area. We check the expression of GluR1 and GluR2/3. We divided into 3 experimental groups based on duration of exercise: 3 days(COR3), 7 days(COR7), and 15 days(COR15); and a control group(CONT). The experimental animals were subjected to a treadmill exercise protocol. The brains were subjected to the techniques of immunohistochemistry and immunoblotting. In the cerebellum, there was a decrease for COR3(17%). In the hippocampus, there was a decrease of the GluR1 expression for COR3 (40%). In the cerebral cortex there was a drop of GluR1 expression for COR3 and COR7(52%). In the striatum, there was no change of GluR1 expression during the first seven days, with a increase for COR15(90%). The GluR2/3 expression did not change in any brain structure analyzed, except in the cerebellum, where there was a significant decrease for two distinct groups, COR3(55%) and COR15(25%). Our data show that short-term physical exercise was able to promote plastic changes during training.

Áreas motoras

Exercício físico

Glutamato

Plasticidade

Receptores do tipo AMPA

F protein

G protein

Human polyclonal serum

Human respiratory syncytial virus

Plaque assay

Quasispecies

Detecção de quasispecies em amostras de vírus respiratório sincicial humano (HSRV) na ausência e na presença de soros policlonais / Quasispecies detection in human respiratory syncytial virus (HRSV) samples in absence and presence of polyclonal serum

Claudia Trigo Pedroso de Moraes Sales

16 October 2009

O vírus respiratório sincicial humano (HRSV) é um dos agentes patogênicos respiratórios de grande importância clínica, tendo em vista que acomete 64 milhões de crianças por ano em todo o mundo. A resposta imune do hospedeiro e a variabilidade genética do HRSV podem interferir na produção de uma vacina eficaz, tal como a presença de quasispecies na população viral. O objetivo deste trabalho foi detectar quasispecies em amostras de HRSV e verificar se soros obtidos da criança na fase convalescente da doença e de sua respectiva mãe selecionam estes mutantes. Uma alteração não sinonímia foi detectada no gene F em um dos clones seqüenciados, enquanto duas alterações sinonímias e duas não sinonímias foram encontradas no gene G do HRSV, sendo as últimas no mesmo nucleotídeo. Um dos clones pré-selecionados com soro humano apresentou a mesma alteração não-sinonímia, encontrada na ausência de anticorpos no gene G. Os resultados sugerem que diferentes sequencias virais presentes em menor quantidade na população podem ser selecionadas pelo sistema imunológico do hospedeiro. / Human respiratory syncytial virus (HRSV) is one of the most important clinical respiratory pathogens, since 64 millions children in the world are infected by this agent every year. Host immunity and viral genetic variability are important factors to a vaccine development, besides quasispecies presence in the viral population. In this work, HRSV quasispecies were detected in clinical samples in absence and presence of human polyclonal serum collected by children in the convalescent phase and mother serum. A non-synonymy variation was found in the F gene in antibodies absence. Four mutations were found at HRSV G2 in polyclonal serum absence. Two were synonymy and two were non-synonymy variation, the last in the same nucleotide. A non-synonymy mutation was found in the G2 region in presence of polyclonal serum collected from child convalescent phase. This alteration was the same of the observed in absence of polyclonal serum so it is possible that host antibodies can selected different viral minority sequences present in the population.

Plaqueamento

Proteína F

Proteína G

Quasispecies

Soro policlonal humano

Vírus respiratório sincicial human

F protein

G protein

Human polyclonal serum

Human respiratory syncytial virus

Plaque assay

Quasispecies