Abstract
Apoptosis is a fundamental host defence mechanism against invading microbes. Inactivation of NF-κB attenuates encephalomyocarditis virus (EMCV) virulence by triggering rapid apoptosis of infected cells, thereby pre-emptively limiting viral replication. Recent evidence has shown that hypoxia-inducible factor (HIF) increases NF-κB-mediated anti-apoptotic response in clear-cell renal cell carcinoma (CCRCC) that commonly exhibit hyperactivation of HIF due to the loss of its principal negative regulator, von Hippel–Lindau (VHL) tumour suppressor protein. Here, we show that EMCV challenge induces a strong NF-κB-dependent gene expression profile concomitant with a lack of interferon-mediated anti-viral response in VHL-null CCRCC, and that multiple established CCRCC cell lines, as well as early-passage primary CCRCC cultured cells, are acutely susceptible to EMCV replication and virulence. Functional restoration of VHL or molecular suppression of HIF or NF-κB dramatically reverses CCRCC cellular susceptibility to EMCV-induced killing. Notably, intratumoural EMCV treatment of CCRCC in a murine xenograft model rapidly regresses tumour growth. These findings provide compelling pre-clinical evidence for the usage of EMCV in the treatment of CCRCC and potentially other tumours with elevated HIF/NF-κB-survival signature.
Highlights
Apoptosis is a fundamental host defence mechanism against invading microbes
Suppression of NF-kB activity in mouse embryonic fibroblasts (MEFs) and clear-cell renal cell carcinoma (CCRCC) cells impairs encephalomyocarditis virus (EMCV) virulence Virulence of EMCV is positively associated with the NF-kBmediated survival pathway
Schwarz et al subsequently showed that mouse embryonic fibroblasts (MEFs) derived from p50À/À or p65À/À mice are resistant to EMCV-induced cytotoxicity, and revealed that NF-kB-mediated upregulation of anti-apoptotic signalling is responsible for increased EMCV viral replication and the resulting lytic death of WT MEFs
Summary
Apoptosis is a fundamental host defence mechanism against invading microbes. Inactivation of NF-kB attenuates encephalomyocarditis virus (EMCV) virulence by triggering rapid apoptosis of infected cells, thereby pre-emptively limiting viral replication. Cells deficient in NF-kB p65 subunit or expressing constitutively stable IkBa are unable to mount NF-kB-dependent survival response and are highly susceptible to TNF-a-induced caspase-dependent apoptosis (Beg & Baltimore, 1996; Van Antwerp et al, 1996) These observations support the general notion that NF-kB activation is a protective response by the host to an invading pathogen. NF-kB p50 subunit knockout mice exhibit accelerated apoptosis of encephalomyocarditis virus (EMCV)-infected cells, which dramatically limits viral replication and survive EMCV infection that otherwise readily kills wild-type (WT) mice (Schwarz et al, 1998; Sha et al, 1995) These results suggest that NF-kB-mediated anti-apoptotic response is required for unrestricted EMCV replication, spread and virulence. An and Rettig demonstrated that VHL-mediated suppression of NF-kB activity is dependent on HIF
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