Abstract
The ability of viruses to subvert host pathways is central in disease pathogenesis. Over the past decade, a critical role for the Ubiquitin Proteasome System (UPS) in counteracting host immune factors during viral infection has emerged. This counteraction is commonly achieved by the expression of viral proteins capable of sequestering host ubiquitin E3 ligases and their regulators. In particular, many viruses hijack members of the Cullin-RING E3 Ligase (CRL) family. Viruses interact in many ways with CRLs in order to impact their ligase activity; one key recurring interaction involves re-directing CRL complexes to degrade host targets that are otherwise not degraded within host cells. Removal of host immune factors by this mechanism creates a more amenable cellular environment for viral propagation. To date, a small number of target host factors have been identified, many of which are degraded via a CRL-proteasome pathway. Substantial effort within the field is ongoing to uncover the identities of further host proteins targeted in this fashion and the underlying mechanisms driving their turnover by the UPS. Elucidation of these targets and mechanisms will provide appealing anti-viral therapeutic opportunities. This review is focused on the many methods used by viruses to perturb host CRLs, focusing on substrate sequestration and viral regulation of E3 activity.
Highlights
IntroductionSuccessful viral replication requires modifying and hijacking key cellular pathways within host cells
Successful viral replication requires modifying and hijacking key cellular pathways within host cells.In particular, viruses must overcome host immune responses to successfully survive and propagate.To achieve this, viruses regularly usurp the host cells degradation machinery
The aim of this review is to focus on how specific viruses rewire ubiquitination of Cullin-RING E3 Ligase (CRL) substrates and how these in turn impact on viral infection
Summary
Successful viral replication requires modifying and hijacking key cellular pathways within host cells. The UPS can rapidly respond to environmental changes such as viral infection [1] In this system, a cascade of three enzymes activate (E1); conjugate (E2); and ligate (E3) a polypeptide of ubiquitin to protein substrate targets, resulting mostly (though critically not always) in their elimination from the cell by the proteasome [1,2]. A pivotal mechanism in hijacking the UPS is through host–viral interactions with ubiquitin E3 ligases (and their regulators)—as these enzyme complexes are directly responsible for substrate selection and turnover. There are a number of well-established examples, one of the best defined being the papillomavirus E6 protein This viral protein binds cellular E3s redirecting them to degrade host proteins including p53, driving oncogenesis in infected cells [12]. * includes mumps and para-influenzavirus; Four ectromelia proteins: EVM018, EVM027, EVM150 & EVM167
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