Javascript must be enabled to continue!
Apoptotic caspases cleave DRP1 to promote mitochondrial fusion and anti-viral immune responses
View through CrossRef
Apoptosis has been recognized as a suicidal host-defense programmed cell death pathway against invading pathogens. However, recent evidences showed that viruses can employ caspases to cleave and inactivate immune signaling molecules to facilitate infection. Whether caspases can promote anti-viral immune responses is currently unknown. Here, we demonstrated that the NSs protein of RVFV triggers activation of apoptotic caspases, which cleave the mitochondrial fission factor DRP1 resulting in mitochondrial elongation. Elongated mitochondria promote MAVS aggregation leading to enhanced anti-viral immunity. Apoptotic caspases, including caspase-3, -6, -7 and -8, cleave DRP1 at the motifs of D500FAD503 and/or AEAD556, suggesting that this cleavage event may occur during infection of different viruses. Indeed, infection of H1N1, SeV and HSV-1 all triggered apoptotic caspases activation to cleave DRP1 promoting anti-viral immune responses. Compared with wild-type DRP1, introduction of caspase-resistant DRP1 strongly attenuated immune responses triggered by virus infection. These results revealed a novel mechanism through which apoptotic caspases promote anti-viral immunity by regulating mitochondrial morphodynamics.
eLife Sciences Publications, Ltd
Title: Apoptotic caspases cleave DRP1 to promote mitochondrial fusion and anti-viral immune responses
Description:
Apoptosis has been recognized as a suicidal host-defense programmed cell death pathway against invading pathogens.
However, recent evidences showed that viruses can employ caspases to cleave and inactivate immune signaling molecules to facilitate infection.
Whether caspases can promote anti-viral immune responses is currently unknown.
Here, we demonstrated that the NSs protein of RVFV triggers activation of apoptotic caspases, which cleave the mitochondrial fission factor DRP1 resulting in mitochondrial elongation.
Elongated mitochondria promote MAVS aggregation leading to enhanced anti-viral immunity.
Apoptotic caspases, including caspase-3, -6, -7 and -8, cleave DRP1 at the motifs of D500FAD503 and/or AEAD556, suggesting that this cleavage event may occur during infection of different viruses.
Indeed, infection of H1N1, SeV and HSV-1 all triggered apoptotic caspases activation to cleave DRP1 promoting anti-viral immune responses.
Compared with wild-type DRP1, introduction of caspase-resistant DRP1 strongly attenuated immune responses triggered by virus infection.
These results revealed a novel mechanism through which apoptotic caspases promote anti-viral immunity by regulating mitochondrial morphodynamics.
Related Results
Apoptotic caspases cleave DRP1 to promote mitochondrial fusion and anti-viral immune responses
Apoptotic caspases cleave DRP1 to promote mitochondrial fusion and anti-viral immune responses
Apoptosis has been recognized as a suicidal host-defense programmed cell death pathway against invading pathogens. However, recent evidences showed that viruses can employ caspases...
Apoptotic caspases cleave DRP1 to promote mitochondrial fusion and anti-viral immune responses
Apoptotic caspases cleave DRP1 to promote mitochondrial fusion and anti-viral immune responses
Abstract
Apoptosis has been recognized as a suicidal host-defense programmed cell death pathway against invading pathogens. However, recent evide...
The Protective Effect of LCZ696 in Coxsackievirus B3-Induced Acute Viral Myocarditis Mice
The Protective Effect of LCZ696 in Coxsackievirus B3-Induced Acute Viral Myocarditis Mice
Abstract
Aims
Acute viral myocarditis (AVMC) is the aetiology of heart failure (HF) with few specific treatments. The imp...
Abstract MIP-059: MITOCHONDRIAL DYNAMICS AND DYSFUNCTION IN OVARIAN CANCER
Abstract MIP-059: MITOCHONDRIAL DYNAMICS AND DYSFUNCTION IN OVARIAN CANCER
Abstract
Altered mitochondrial function remains a key feature of many tumor cells and drives pathways such gene expression, metabolic and stress responses, cell cycl...
Mitochondrial Fission-Induced mtDNA Stress Promotes ESCC Progression by cGAS-STING Mediated Autophagy
Mitochondrial Fission-Induced mtDNA Stress Promotes ESCC Progression by cGAS-STING Mediated Autophagy
Abstract
Background
Mitochondrial dynamics homeostasis is important for cell metabolism, growth, proliferation, and immune responses. The critical GTPase for mitochondrial...
Mitochondria Fusion and Fission
Mitochondria Fusion and Fission
Abstract
Mitochondrial structural dynamics is regulated by the fusion or fission of these organelles. Recently published evidence indicates the ...
Myeloid DRP1 Sulfenylation Drives Reparative Macrophage Polarization and Neovascularization in Ischemic Muscle
Myeloid DRP1 Sulfenylation Drives Reparative Macrophage Polarization and Neovascularization in Ischemic Muscle
Abstract
Reparative macrophage polarization and macrophage-derived reactive oxygen species (ROS) are required for ischemia-induced revascularizat...
DRP1-Mediated Mitochondrial Fission Regulates the Lung Epithelial Response to Allergen
DRP1-Mediated Mitochondrial Fission Regulates the Lung Epithelial Response to Allergen
Abstract
Background: Mitochondria regulate a myriad of cellular needs and functions. Dysregulation of mitochondrial control within airway epithelial cells has been implicat...

