Less Severe Inflammation in Cyclic GMP-AMP Synthase (cGAS)-Deficient Mice with Rabies, Impact of Mitochondrial Injury, and Gut-Brain Axis.

Activation of cGAS, a receptor recognizing cytosolic DNA, in macrophages might be associated with rabies (an RNA virus) through mitochondrial damage. A similar mortality rate was observed between cGAS-deficient (cGAS-/-) and wild-type (WT) mice post-CVS-11 strain injection. However, 2 out of 12 cGAS-/- mice (but not WT) survived for 15 days post-injection. At 7 days post-infection, less severe brain inflammation in cGAS-/- mice was demonstrated by the viral abundance in the hippocampus, the expression of proinflammatory genes (TNF-α and IL-1β), and the Evans blue dye assay (blood-brain barrier defect) with the presence of higher anti-inflammatory genes (TGF-β and arginase-1). Fecal Proteobacteria was more prominent in the infected WT mice, while serum cytokines (TNF-α and IL-1β) were similar in both mouse strains. There were less prominent responses against the rabies virus in cGAS-/- macrophages than in WT cells, as indicated by supernatant IL-6 and the gene expression of TLR-3, RIG-1, MDA-5, and iNOS. On the other hand, mitochondrial injury and cGAS activation were more prominent in WT macrophages over cGAS-/- cells, as indicated by cGAS expression, supernatant cGAMP (a secondary messenger of cGAS), and mitochondrial oxidative stress (MitoSox) together with a decrease in mitochondrial DNA and maximal respiration (extracellular flux analysis). In conclusion, (i) rabies-damaged mitochondria led to cGAS activation that was less severe in cGAS-/- than in WT, (ii) rabies-induced dysbiosis was demonstrated, and (iii) cGAS manipulation and gut-brain axis-associated inflammation warrants further investigation.