AI Article Synopsis
- Intracellular recognition of viral RNA triggers RIG-I-like proteins to activate MAVS, leading to the production of antiviral effectors, but HCMV's vMIA protein helps the virus evade this response by interfering with MAVS at both peroxisomes and mitochondria.
- vMIA prevents MAVS oligomerization specifically at peroxisomes and relies on the organelle's fission machinery, while crucial differences in how vMIA affects peroxisomes and mitochondria highlight their distinct roles in antiviral signaling.
- The findings of this study present potential targets for antiviral therapies by revealing the mechanisms that HCMV uses to disrupt antiviral responses, particularly emphasizing the importance of peroxisomes in fighting the virus.
Article Abstract
Upon intracellular recognition of viral RNA, RIG-I-like proteins interact with MAVS at peroxisomes and mitochondria, inducing its oligomerization and the downstream production of direct antiviral effectors. The human cytomegalovirus (HCMV) is able to specifically evade this antiviral response, its antiapoptotic protein vMIA. Besides suppressing the programmed cell death of infected cells, vMIA inhibits the antiviral signalling at mitochondria by inducing the organelle's fragmentation, consequently hindering the interaction between MAVS and the endoplasmic reticulum protein STING. Here we demonstrate that vMIA interferes with the peroxisomal antiviral signalling a distinct mechanism that is independent of the organelle's morphology and does not affect STING. vMIA interacts with MAVS at peroxisomes and inhibits its oligomerization, restraining downstream signalling, in an MFF-dependent manner. This study also demonstrates that vMIA is totally dependent on the organelle's fission machinery to induce peroxisomal fragmentation, while this dependency is not observed at mitochondria. Furthermore, although we demonstrate that vMIA is also able to inhibit MAVS oligomerization at mitochondria, our results indicate that this process, such as the whole vMIA-mediated inhibition of the mitochondrial antiviral response, is independent of MFF. These observed differences in the mechanisms of action of vMIA towards both organelles, likely reflect their intrinsic differences and roles throughout the viral infection. This study uncovers specific molecular mechanisms that may be further explored as targets for antiviral therapy and highlights the relevance of peroxisomes as platforms for antiviral signalling against HCMV.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9014249 | PMC |
| http://dx.doi.org/10.3389/fcell.2022.871977 | DOI Listing |
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