Abstract
Recent studies have demonstrated that embryonic stem cells (ESCs) are deficient in expressing type I interferons (IFN), the cytokines that play key roles in antiviral responses. However, the underlying molecular mechanisms and biological implications of this finding are poorly understood. In this study, we developed a synthetic RNA-based assay that can simultaneously assess multiple forms of antiviral responses. Dicer is an enzyme essential for RNA interference (RNAi), which is used as a major antiviral mechanism in invertebrates. RNAi activity is detected in wild-type ESCs but is abolished in Dicer knockout ESCs (D−/−ESCs) as expected. Surprisingly, D−/−ESCs have gained the ability to express IFN, which is otherwise deficient in wild-type ESCs. Furthermore, D−/−ESCs have constitutively active double-stranded RNA (dsRNA)-activated protein kinase (PKR), an enzyme that is also involved in antiviral response. D−/−ESCs show increased sensitivity to the cytotoxicity resulting from RNA transfection. The effects of dsRNA can be partly replicated with a synthetic B2RNA corresponding to the retrotransposon B2 short interspersed nuclear element. B2RNA has secondary structure features of dsRNA and accumulates in D−/−ESCs, suggesting that B2RNA could be a cellular RNA that activates PKR and contributes to the decreased cell proliferation and viability of D−/−ESCs. Treatment of D−/−ESCs with a PKR inhibitor and IFNβ-neutralizing antibodies increased cell proliferation rate and cell viability. Based on these findings, we propose that, in ESCs, Dicer acts as a repressor of antiviral responses and plays a key role in the maintenance of proliferation, viability, and pluripotency of ESCs.
Highlights
Two alternative antiviral mechanisms have been proposed; embryonic stem cell (ESC) may use a subset of preexisting IFN-stimulated genes (ISGs) that are independent of IFN stimulation [10], or they may use the RNA interference (RNAi) antiviral pathway that may not be operational in differentiated mammalian cells [11]
A logical explanation for these results would be that the different effect between dsGFP and dsLuc in ESCs is due to sequence-specific reduction of green fluorescent protein (GFP)-mRNA by dsGFP via Dicer-dependent RNAi activity, which is abolished in D−/−ESCs
Using GFP expressed from its synthetic mRNA as an siRNA target, we detected Dicer-dependent RNAi activity in ESCs, a conclusion similar to the results reported in a study using GFP expressed from a plasmid [23]
Summary
We demonstrate that D−/−ESCs have gained the ability to express the type I IFN system, and constitutively active PKR, which together contribute to the reduced cell proliferation and cell viability of D−/−ESCs. Our data revealed a critical role of Dicer as a repressor of antiviral responses in ESCs, which represents a novel mechanism essential for ESCs to maintain rapid proliferation and to prevent potential cell damage resulting from dysregulated endogenous RNA transcripts.
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