Add to ORKGDeciphering the mechanisms that regulate the sensitivity of pathogen recognition receptors is imperative to understanding infection and inflammation. Here we demonstrate that the RNA triphosphatase dual-specificity phosphatase 11 (DUSP11) acts on both host and virus-derived 5'-triphosphate RNAs rendering them less active in inducing a RIG-I-mediated immune response. Reducing DUSP11 levels alters host triphosphate RNA packaged in extracellular vesicles and induces enhanced RIG-I activation in cells exposed to extracellular vesicles. Virus infection of cells lacking DUSP11 results in a higher proportion of triphosphorylated viral transcripts and attenuated virus replication, which is rescued by reducing RIG-I expression. Consistent with the a...
ABSTRACT Stimulation of the antiviral response depends on the sensing of viral pathogen-associated m...
SummaryRIG-I is a cytosolic sensor of viral RNA that plays crucial roles in the induction of type I ...
<div><p>The pattern recognition receptor RIG-I is critical for Type-I interferon production. However...
The mammalian innate immune system utilizes pattern-recognition receptors (PRRs) that monitor cells ...
Influenza A virus (IAV) poses a continuous public health threat owing to its ability of frequent ant...
DUSP11 (Dual-specificity phosphatase 11) is an understudied human RNA phosphatase with an unclear fu...
Some RNA virus genomes bear 5'-triphosphates, which can be recognized in the cytoplasm of infected c...
Summary: The innate immune sensor RIG-I must sensitively detect and respond to viral RNAs that enter...
[[abstract]]Dual-specificity phosphatase 11 (DUSP11, also named as PIR1) is a member of the atypical...
Mammalian cells possess mechanisms to detect and defend themselves from invading viruses. In the cyt...
SummaryRIG-I and MDA5 have emerged as key cytosolic sensors for the detection of RNA viruses and lea...
International audiencePattern recognition receptors (PRRs) protect against microbial invasion by det...
SummaryThe type I interferon system is essential for antiviral immune response and is a primary targ...
The type I interferon system is essential for antiviral immune response and is a primary target of v...
RIG-I is an intracellular RNA virus sensor that mediates a signaling pathway that triggers the alpha...
ABSTRACT Stimulation of the antiviral response depends on the sensing of viral pathogen-associated m...
SummaryRIG-I is a cytosolic sensor of viral RNA that plays crucial roles in the induction of type I ...
<div><p>The pattern recognition receptor RIG-I is critical for Type-I interferon production. However...
The mammalian innate immune system utilizes pattern-recognition receptors (PRRs) that monitor cells ...
Influenza A virus (IAV) poses a continuous public health threat owing to its ability of frequent ant...
DUSP11 (Dual-specificity phosphatase 11) is an understudied human RNA phosphatase with an unclear fu...
Some RNA virus genomes bear 5'-triphosphates, which can be recognized in the cytoplasm of infected c...
Summary: The innate immune sensor RIG-I must sensitively detect and respond to viral RNAs that enter...
[[abstract]]Dual-specificity phosphatase 11 (DUSP11, also named as PIR1) is a member of the atypical...
Mammalian cells possess mechanisms to detect and defend themselves from invading viruses. In the cyt...
SummaryRIG-I and MDA5 have emerged as key cytosolic sensors for the detection of RNA viruses and lea...
International audiencePattern recognition receptors (PRRs) protect against microbial invasion by det...
SummaryThe type I interferon system is essential for antiviral immune response and is a primary targ...
The type I interferon system is essential for antiviral immune response and is a primary target of v...
RIG-I is an intracellular RNA virus sensor that mediates a signaling pathway that triggers the alpha...
ABSTRACT Stimulation of the antiviral response depends on the sensing of viral pathogen-associated m...
SummaryRIG-I is a cytosolic sensor of viral RNA that plays crucial roles in the induction of type I ...
<div><p>The pattern recognition receptor RIG-I is critical for Type-I interferon production. However...