Abstract
Peptides presented on major histocompatibility (MHC) class I molecules form an essential part of the immune system's capacity to detect virus-infected or transformed cells. Earlier works have shown that pioneer translation peptides (PTPs) for the MHC class I pathway are as efficiently produced from introns as from exons, or from mRNAs targeted for the nonsense-mediated decay pathway. The production of PTPs is a target for viral immune evasion but the underlying molecular mechanisms that govern this non-canonical translation are unknown. Here, we have used different approaches to show how events taking place on the nascent transcript control the synthesis of PTPs and full-length proteins. By controlling the subcellular interaction between the G-quadruplex structure (G4) of a gly-ala encoding mRNA and nucleolin (NCL) and by interfering with mRNA maturation using multiple approaches, we demonstrate that antigenic peptides derive from a nuclear non-canonical translation event that is independently regulated from the synthesis of full-length proteins. Moreover, we show that G4 are exploited to control mRNA localization and translation by distinguishable mechanisms that are targets for viral immune evasion.
Highlights
Viral interference with the host cell provides windows of opportunities to disclose cell biological processes
Accumulating evidence show that antigenic peptides for the major histocompatibility (MHC) class I pathway are derived from alternative mRNA translation products [2,7,8]
We set up different strategies to modify the way gly-ala repeat (GAr)-carrying mRNAs are processed, trafficked and interact with specific proteins and how this affects the synthesis of full-length proteins and antigenic peptide substrates
Summary
Viral interference with the host cell provides windows of opportunities to disclose cell biological processes. Previous works by our and other teams have focused on how the Epstein-Barr virus (EBV)-encoded EBNA1 employs a cis-acting mechanism to suppress translation of its own mRNA in order to minimize the production of antigenic peptide substrates and thereby avoid host immune response [2,3]. Previous works have shown little difference in antigen presentation if the antigenic peptide is derived from introns or exons, from 3 UTRs or from mRNAs targeted for nonsense-mediated decay (NMD) [7,8,9]. Intron-derived nascent peptides can be detected in the nuclear compartment [8]. These different observations implicate a non-canonical nuclear mRNA translation event producing pioneer translation products (PTPs) for the MHC class I pathway
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