Proapoptotic signaling induced by RIG-I and MDA-5 results in type I interferon–independent apoptosis in human melanoma cells
Robert Besch, … , Simon Rothenfusser, Gunther Hartmann
Robert Besch, … , Simon Rothenfusser, Gunther Hartmann
Published July 20, 2009
Citation Information: J Clin Invest. 2009;119(8):2399-2411. https://doi.org/10.1172/JCI37155.
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Proapoptotic signaling induced by RIG-I and MDA-5 results in type I interferon–independent apoptosis in human melanoma cells

Abstract

The retinoic acid–inducible gene I (RIG-I) and melanoma differentiation–associated antigen 5 (MDA-5) helicases sense viral RNA in infected cells and initiate antiviral responses such as the production of type I IFNs. Here we have shown that RIG-I and MDA-5 also initiate a proapoptotic signaling pathway that is independent of type I IFNs. In human melanoma cells, this signaling pathway required the mitochondrial adapter Cardif (also known as IPS-1) and induced the proapoptotic BH3-only proteins Puma and Noxa. RIG-I– and MDA-5–initiated apoptosis required Noxa but was independent of the tumor suppressor p53. Triggering this pathway led to efficient activation of mitochondrial apoptosis, requiring caspase-9 and Apaf-1. Surprisingly, this proapoptotic signaling pathway was also active in nonmalignant cells, but these cells were much less sensitive to apoptosis than melanoma cells. Endogenous Bcl-xL rescued nonmalignant, but not melanoma, cells from RIG-I– and MDA-5–mediated apoptosis. In addition, we confirmed the results of the in vitro studies, demonstrating that RIG-I and MDA-5 ligands both reduced human tumor lung metastasis in immunodeficient NOD/SCID mice. These results identify an IFN-independent antiviral signaling pathway initiated by RIG-I and MDA-5 that activates proapoptotic signaling and, unless blocked by Bcl-xL, results in apoptosis. Due to their immunostimulatory and proapoptotic activity, RIG-I and MDA-5 ligands have therapeutic potential due to their ability to overcome the characteristic resistance of melanoma cells to apoptosis.

Authors

Robert Besch, Hendrik Poeck, Tobias Hohenauer, Daniela Senft, Georg Häcker, Carola Berking, Veit Hornung, Stefan Endres, Thomas Ruzicka, Simon Rothenfusser, Gunther Hartmann

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Figure 3

Apoptosis as well as IFN-β induction by pppRNA and poly(I:C) are mediated via IPS-1 in melanoma, but apoptosis is independent of IFN-β secretion.

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Apoptosis as well as IFN-β induction by pppRNA and poly(I:C) are mediate...
(A) 1205Lu cells were treated with pppRNA or poly(I:C) (3 ng/ml) 48 hours after transfection of siRNAs specific for RIG-I, MDA-5, or IPS-1 or control siRNA. IFN-β expression was analyzed by quantitative RT-PCR. (B) 1205Lu cells were treated with pppRNA or poly(I:C) (5 ng/ml) 48 hours after transfection of siRNAs specific for IPS-1 or control siRNA, and rates of apoptosis were determined by FACS. Annexin V–positive and propidium iodide–negative cells are represented. *P ≤ 0.05 compared with control siRNA–transfected cells treated with pppRNA1ds. (C) 1205Lu cells were transfected with vectors expressing wild-type NS3-4A (NS3/4) or an inactive mutant form (mNS3/4) (51). Twenty-four hours after vector transfection, cells were treated with pppRNA. Left: Apoptotic and dead cells (AN+/PI+) were measured. *P ≤ 0.05 compared with mNS3/4- or mock-transfected cells treated with pppRNA. Right: Analysis of IFN-β expression by quantitative RT-PCR. (D) 1205Lu cells were treated with siRNA specific for the type I IFN receptor (IFNAR) or control siRNA and pppRNA, poly(I:C), or transfection reagent alone as described for A. Left: quantification of IFNAR mRNA. Middle: Quantification of IFN-β expression. Right: FACS analysis of apoptotic cells (AN+/PI) treated with pppRNA, poly(I:C), or transfection reagent alone. (E) 1205Lu cells were treated with an IRF-3–specific siRNA or control siRNA and pppRNA as described for A. Left: Analysis of IRF-3 mRNA expression. Right: Analysis of apoptotic cells (AN+/PI). For all panels, mean ± SD of 3 independent experiments is shown.