Frontiers in Immunology (Jun 2015)

Alternative antigen processing for MHC class I: multiple roads lead to Rome

  • Claudia eC Oliveira,
  • Thorbald eVan Hall

DOI
https://doi.org/10.3389/fimmu.2015.00298
Journal volume & issue
Vol. 6

Abstract

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The well described conventional antigen processing pathway is accountable for most peptides that end up in MHC class I molecules at the cell surface. These peptides experienced liberation by the proteasome and transport by the peptide transporter TAP. However, there are multiple roads that lead to Rome, illustrated by the increasing number of alternative processing pathways that have been reported during last years. Interestingly, TAP-deficient individuals do not succumb to viral infections, suggesting that CD8 T cell immunity is sufficiently supported by alternative TAP-independent processing pathways. To date, a diversity of viral and endogenous TAP-independent peptides have been identified in the grooves of different MCH class I alleles. Some of these peptides are not displayed by normal TAP-positive cells and we therefore called them TEIPP, for ‘T-cell epitopes associated with impaired peptide processing’. TEIPPs are hidden self-antigens, are derived from normal housekeeping proteins and are processed via unconventional processing pathways. Per definition, TEIPPs are presented via TAP-independent pathways, but recent data suggest that part of this repertoire still depend on proteasome and metalloprotease activity. An exception is the C-terminal peptide of the ER-membrane spanning ceramide synthase Trh4 that is surprisingly liberated by the signal peptide peptidase (SPP), the proteolytic enzyme involved in cleaving leader sequences. The intramembrane cleaving SPP is thereby an important contributor of TAP-independent peptides. Its family members, like the Alzheimer’s related presenilins, might as well, according to our preliminary data. Finally, alternative peptide routing is an emerging field and includes processes like the unfolded protein response, the ER-associated degradation and autophagy-associated vesicular pathways. These data convince us that there is a world to be discovered in the field of unconventional antigen processing.

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