The viral protein ICP6, encoded by herpes simplex virus 1 (HSV-1), harbours a RIP-homotypic interaction motif (RHIM), that plays a role in viral inhibition of host cell death pathways. Other members of the Herpesviridae family also encode RHIM-containing proteins that interfere with host-cell death pathways, including the M45 protein from murine cytomegalovirus, and ORF20 protein from varicella zoster virus. We have used amyloid assembly assays, electron microscopy and single molecule fluorescence spectroscopy to show that the ICP6 RHIM is amyloidogenic and can interact with host RHIM-containing proteins to form heteromeric amyloid complexes, in a manner similar to that of M45 and ORF20 RHIMs. The core tetrad sequence of the ICP6 RHIM is important for both amyloid formation and interaction with host RHIM-containing proteins. Notably, we show that the amyloid forming capacity of the ICP6 RHIM is affected by the redox environment. We propose that the formation of an intramolecular disulfide bond within ICP6 triggers the formation of amyloid assemblies that are distinct from previously characterised viral amyloids M45 and ORF20. Formation of viral-host heteromeric amyloid assemblies may underlie a general mechanism of viral adaptation against host immune machineries.
Keywords: Amyloid; ICP6; Necroptosis; RIP homotypic interaction motif.
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