DNA transfection is routinely used for delivering expression of gene of interest to target cells. Transfected DNA has been known to activate cellular DNA sensor(s) and innate immune responses, but the effects of such responses on transfected DNA are not fully understood. STING (stimulator of interferon genes) is an important adaptor protein in cellular innate immune response to various DNA and RNA stimuli and upon activation induces significant type I interferon responses. In this work, we characterized the effects of STING on gene expression driven by transfected double-stranded DNA. We observed that gene expression from transfected DNA was repressed in the presence of overexpressed STING, but increased if endogenous STING was knocked down through RNA interference. Endogenous chromosomal genes and chromosome-integrated exogenous genes were not affected by such STING-mediated restriction, which did not depend on DNA circularity or linearity, promoter used, or bacterial sequences in transfected DNA. Mechanistically, STING-mediated repression of transfected DNA correlates with reduced mRNA levels, and partially involves the induction of interferon β production by STING. Collectively, these data indicate that episomal double-stranded DNA is targeted by STING-mediated cell defense.
Keywords: DNA transfection; Innate immune response; Transcriptional repression; Type I interferon.
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