The type III interferons (IFN-lambda1, 2, and 3) induce an antiviral response similar to IFN-alpha/beta, but mediate their activity through a unique receptor. We found that like IFN-alpha/beta, IFN-lambda prevents the assembly of HBV capsids, demonstrating convergence of the two signaling pathways through a single antiviral mechanism. In contrast to IFN-lambda, the structurally related cytokine interleukin (IL)-22 only minimally reduced HBV replication. The transcriptional program activated by IL-22 displayed little similarity to that induced by IFN-lambda, but instead resembled the response elicited by IL-6. We also found that murine IFN-lambda2 had only weak antiviral activity against HBV in the liver of transgenic mice, and that human IFN-lambda2 activity in serum correlated with the sensitivity of the cytokine to proteases. These results demonstrate that the IFN-alpha/beta and IFN-lambda anti-HBV responses operate through a single molecular mechanism, and support the notion that IFN-lambda plays a local, rather than systemic, role in antiviral immunity.
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