Human immunodeficiency virus (HIV) type 2 is known to be less pathogenic than HIV-1, possibly due to more effective immune control mechanisms. The mechanism of innate sensing of HIV-2 by T cells is at present unclear. In this study, we show that several primary isolates of HIV-2 (CBL20 and CI85) and HIV-1 (A8 and D2), similar to the molecular clone HIV-1 NL4.3-GFP-I, induce a significant type I interferon response in its main target, activated CD4+ T cells. However, they are unable to do so after shRNA-mediated knock-down of cGAS. In addition, both HIV-1- and HIV-2-induced type I interferon response in CD4+ T cells was dependent on productive infection and integration, as the presence of RT or integrase inhibitor dramatically suppressed the sensing. Our findings collectively showed that the cGAS-dependent type I interferon response of CD4+ T cells to HIV infection is conserved over HIV types and critically depends on productive infection.IMPORTANCEBy unveiling the role of cGAS in sensing Human immunodeficiency virus types 1 and 2 (HIV-1 and HIV-2) across CD4+ T cells and highlighting its broader relevance that might be mirrored in other cell types, our research provides insights into the uniform mechanism of innate immune activation by different HIV isolates. By demonstrating the necessity of productive infection, we highlight the robust and specific nature of the observed cGAS-mediated innate response, dispelling concerns about contaminating plasmids triggering an immune response. Our preliminary data suggest that the lower pathogenicity of HIV-2 may not be directly correlated to superior innate immune control mediated by cGAS.
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