G3BP1 Inhibition Alleviates Intracellular Nucleic Acid-Induced Autoimmune Responses.
Hong CaiXin LiuFeng ZhangQiu-Ying HanZhao-Shan LiuWen XueZeng-Lin GuoJiang-Man ZhaoLi-Ming SunNa WangJie MaoKun HeTian XiaYuan ChenLiang ChenAi-Ling LiTao ZhouXue-Min ZhangWei-Hua LiTao LiPublished in: Journal of immunology (Baltimore, Md. : 1950) (2021)
The detection of intracellular nucleic acids is a fundamental mechanism of host defense against infections. The dysregulated nucleic acid sensing, however, is a major cause for a number of autoimmune diseases. In this study, we report that GTPase-activating protein SH3 domain-binding protein 1 (G3BP1) is critical for both intracellular DNA- and RNA-induced immune responses. We found that in both human and mouse cells, the deletion of G3BP1 led to the dampened cGAS activation by DNA and the insufficient binding of RNA by RIG-I. We further found that resveratrol (RSVL), a natural compound found in grape skin, suppressed both intracellular DNA- and RNA-induced type I IFN production through inhibiting G3BP1. Importantly, using experimental mouse models for Aicardi-Goutières syndrome, an autoimmune disorder found in humans, we demonstrated that RSVL effectively alleviated intracellular nucleic acid-stimulated autoimmune responses. Thus, our study demonstrated a broader role of G3BP1 in sensing different kinds of intracellular nucleic acids and presented RSVL as a potential treatment for autoimmune conditions caused by dysregulated nucleic acid sensing.
Keyphrases
- nucleic acid
- drug induced
- reactive oxygen species
- immune response
- binding protein
- multiple sclerosis
- high glucose
- diabetic rats
- mouse model
- signaling pathway
- induced apoptosis
- oxidative stress
- dendritic cells
- toll like receptor
- inflammatory response
- amino acid
- single molecule
- cell cycle arrest
- cell free
- human health
- smoking cessation
- label free
- real time pcr
- induced pluripotent stem cells
- dna binding