Publication date: Oct 26, 2024
Apart from the skin and mucosal immune barrier, the first line of defense of the human immune system includes MDA5 (ifih1 gene) which acts as a cellular sensor protein for certain viruses including SARS-CoV-2. Upon binding with viral RNA, MDA5 activates cell-intrinsic innate immunity, humoral responses, and MAVS (mitochondrial antiviral signaling). MAVS signaling induces type I and III interferon (IFN) expressions that further induce ISGs (interferon stimulatory genes) expressions to initiate human cell-mediated immune responses and attenuate viral replication. SARS-CoV-2 counteracts by producing NSP1, NSP2, NSP3, NSP5, NSP7, NSP12, ORF3A, ORF9, N, and M protein and directs anti-MDA5 antibody production presumably to antagonize IFN signaling. Furthermore, COVID-19 resembles several diseases that carry anti-MDA5 antibodies and the current COVID-19 vaccines induced anti-MDA5 phenotypes in healthy individuals. GWAS (genome-wide association studies) identified several polymorphisms (SNPs) in the ifih1-ifn pathway genes including rs1990760 in ifih1 that are strongly associated with COVID-19, and the associated risk allele is correlated with reduced IFN production. The genetic association of SNPs in ifih1 and ifih1-ifn pathway genes reinforces the molecular findings of the critical roles of MDA5 in sensing SARS-CoV-2 and subsequently the IFN responses to inhibit viral replication and host immune evasion. Thus, MDA5 or its pathway genes could be targeted for therapeutic development of COVID-19.
Concepts | Keywords |
---|---|
Diseases | COVID-19 |
Healthy | Gene therapy |
Host | ifih1 |
Mucosal | MDA5 |
Rs1990760 | Polymorphisms |
SARS-CoV-2 | |
Virus sensor |
Semantics
Type | Source | Name |
---|---|---|
disease | MESH | Critically Ill |
disease | MESH | COVID-19 |
pathway | REACTOME | Immune System |
disease | IDO | protein |
disease | IDO | cell |
pathway | KEGG | Viral replication |
disease | IDO | production |
disease | IDO | host |
disease | MESH | Long Covid |