transforming-growth-factor-beta and Astroviridae-Infections

transforming-growth-factor-beta has been researched along with Astroviridae-Infections* in 2 studies

Other Studies

2 other study(ies) available for transforming-growth-factor-beta and Astroviridae-Infections

Article	Year
Astrovirus-induced epithelial-mesenchymal transition via activated TGF-β increases viral replication. PLoS pathogens, 2022, Volume: 18, Issue:4 Human astroviruses (HAstV), positive sense single-stranded RNA viruses, are one of the leading causes of diarrhea worldwide. Despite their high prevalence, the cellular mechanisms of astrovirus pathogenesis remain ill-defined. Previous studies showed HAstV increased epithelial barrier permeability by causing a re-localization of the tight junction protein, occludin. In these studies, we demonstrate that HAstV replication induces epithelial-mesenchymal transition (EMT), by upregulating the transcription of EMT-related genes within 8 hours post-infection (hpi), followed by the loss of cell-cell contacts and disruption of polarity by 24 hpi. While multiple classical HAstV serotypes, including clinical isolates, induce EMT, the non-classical genotype HAstV-VA1 and two strains of reovirus are incapable of inducing EMT. Unlike the re-localization of tight junction proteins, HAstV-induced EMT requires productive replication and is dependent transforming growth factor-β (TGF-β) activity. Finally, inhibiting TGF-β signaling and EMT reduces viral replication, highlighting its importance in the viral life cycle. This finding puts classical strains of HAstV-1 in an exclusive group of non-oncogenic viruses triggering EMT. Topics: Astroviridae Infections; Epithelial-Mesenchymal Transition; Humans; Mamastrovirus; Transforming Growth Factor beta; Virus Replication	2022
Astrovirus induces diarrhea in the absence of inflammation and cell death. Journal of virology, 2003, Volume: 77, Issue:21 Astroviruses are a leading cause of infantile viral gastroenteritis worldwide. Very little is known about the mechanisms of astrovirus-induced diarrhea. One reason for this is the lack of a small-animal model. Recently, we isolated a novel strain of astrovirus (TAstV-2) from turkeys with the emerging infectious disease poult enteritis mortality syndrome. In the present studies, we demonstrate that TAstV-2 causes growth depression, decreased thymus size, and enteric infection in infected turkeys. Infectious TAstV-2 can be recovered from multiple tissues, including the blood, suggesting that there is a viremic stage during infection. In spite of the severe diarrhea, histopathologic changes in the intestine were mild and there was a surprising lack of inflammation. This may be due to the increased activation of the potent immunosuppressive cytokine transforming growth factor beta during astrovirus infection. These studies suggest that the turkey will be a useful small-animal model with which to study astrovirus pathogenesis and immunity. Topics: Animals; Astroviridae Infections; Cell Death; Cell Line; Diarrhea; Female; Humans; Inflammation; Male; Mamastrovirus; Poult Enteritis Mortality Syndrome; Poultry Diseases; Transforming Growth Factor beta; Turkeys	2003

Article

Year

Astrovirus-induced epithelial-mesenchymal transition via activated TGF-β increases viral replication.

PLoS pathogens, 2022, Volume: 18, Issue:4

Human astroviruses (HAstV), positive sense single-stranded RNA viruses, are one of the leading causes of diarrhea worldwide. Despite their high prevalence, the cellular mechanisms of astrovirus pathogenesis remain ill-defined. Previous studies showed HAstV increased epithelial barrier permeability by causing a re-localization of the tight junction protein, occludin. In these studies, we demonstrate that HAstV replication induces epithelial-mesenchymal transition (EMT), by upregulating the transcription of EMT-related genes within 8 hours post-infection (hpi), followed by the loss of cell-cell contacts and disruption of polarity by 24 hpi. While multiple classical HAstV serotypes, including clinical isolates, induce EMT, the non-classical genotype HAstV-VA1 and two strains of reovirus are incapable of inducing EMT. Unlike the re-localization of tight junction proteins, HAstV-induced EMT requires productive replication and is dependent transforming growth factor-β (TGF-β) activity. Finally, inhibiting TGF-β signaling and EMT reduces viral replication, highlighting its importance in the viral life cycle. This finding puts classical strains of HAstV-1 in an exclusive group of non-oncogenic viruses triggering EMT.

Topics: Astroviridae Infections; Epithelial-Mesenchymal Transition; Humans; Mamastrovirus; Transforming Growth Factor beta; Virus Replication

2022

Astrovirus induces diarrhea in the absence of inflammation and cell death.

Journal of virology, 2003, Volume: 77, Issue:21

Astroviruses are a leading cause of infantile viral gastroenteritis worldwide. Very little is known about the mechanisms of astrovirus-induced diarrhea. One reason for this is the lack of a small-animal model. Recently, we isolated a novel strain of astrovirus (TAstV-2) from turkeys with the emerging infectious disease poult enteritis mortality syndrome. In the present studies, we demonstrate that TAstV-2 causes growth depression, decreased thymus size, and enteric infection in infected turkeys. Infectious TAstV-2 can be recovered from multiple tissues, including the blood, suggesting that there is a viremic stage during infection. In spite of the severe diarrhea, histopathologic changes in the intestine were mild and there was a surprising lack of inflammation. This may be due to the increased activation of the potent immunosuppressive cytokine transforming growth factor beta during astrovirus infection. These studies suggest that the turkey will be a useful small-animal model with which to study astrovirus pathogenesis and immunity.

Topics: Animals; Astroviridae Infections; Cell Death; Cell Line; Diarrhea; Female; Humans; Inflammation; Male; Mamastrovirus; Poult Enteritis Mortality Syndrome; Poultry Diseases; Transforming Growth Factor beta; Turkeys

2003