Cytosolic recognition of microbial DNA in macrophages results in the activation of the interferon (IFN)-dependent antiviral innate immunity. Here, we examined whether activating DNA sensors in peripheral blood monocyte-derived macrophages (MDMs) can inhibit human immunodeficiency virus (HIV). We observed that the stimulation of MDMs with poly(dA:dT) or poly(dG:dC) (synthetic ligands for the DNA sensors) inhibited HIV infection and replication. MDMs treated with poly(dA:dT) or poly(dG:dC) expressed higher levels of both type I and type III IFNs than untreated cells. Activation of the DNA sensors in MDMs also induced the expression of the multiple intracellular anti-HIV factors, including IFN-stimulated genes (ISGs: ISG15, ISG56, Viperin, OAS2, GBP5, MxB, and Tetherin) and the HIV restriction microRNAs (miR-29c, miR-138, miR-146a, miR-155, miR-198, and miR-223). In addition, the DNA sensor activation of MDM upregulated the expression of the CC chemokines (RANTES, MIP-1α, MIP-1β), the ligands for HIV entry coreceptor CCR5. These observations indicate that the cytosolic DNA sensors have a protective role in the macrophage intracellular immunity against HIV and that targeting the DNA sensors has therapeutic potential for immune activation-based anti-HIV treatment.
Keywords: CC chemokines; DNA sensors; HIV; IFN-β; IFN-λ; ISGs; poly(dA:dT).
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