Abstract
Human cytomegalovirus uses a variety of mechanisms to evade immune recognition through major histocompatibility complex class I molecules. One mechanism mediated by the immunoevasin protein US2 causes rapid disposal of newly synthesized class I molecules by the endoplasmic reticulum-associated degradation pathway. Although several components of this degradation pathway have been identified, there are still questions concerning how US2 targets class I molecules for degradation. In this study we identify cyclophilin C, a peptidyl prolyl isomerase of the endoplasmic reticulum, as a component of US2-mediated immune evasion. Cyclophilin C could be co-isolated with US2 and with the class I molecule HLA-A2. Furthermore, it was required at a particular expression level since depletion or overexpression of cyclophilin C impaired the degradation of class I molecules. To better characterize the involvement of cyclophilin C in class I degradation, we used LC-MS/MS to detect US2-interacting proteins that were influenced by cyclophilin C expression levels. We identified malectin, PDIA6, and TMEM33 as proteins that increased in association with US2 upon cyclophilin C knockdown. In subsequent validation all were shown to play a functional role in US2 degradation of class I molecules. This was specific to US2 rather than general ER-associated degradation since depletion of these proteins did not impede the degradation of a misfolded substrate, the null Hong Kong variant of α1-antitrypsin.
Highlights
Major histocompatibility complex class I molecules (MHC class I, MHC I) play a crucial role in cellular immunity by presenting antigenic peptides to CD8+ T cells
Since previous work had demonstrated a role for cyclophilin B (CypB) in ER-associated degradation (ERAD) [33], we were interested in determining if either of the endoplasmic reticulum (ER)-localized cyclophilins (CypB or cyclophilin C (CypC)) was involved in MHC I ERAD mediated by US2 or US11
There appeared to be a modest increase in surface MHC I compared to that obtained by depleting CypC alone (Fig 1C), this was not statistically significant in replicate experiments (Fig 1D)
Summary
Major histocompatibility complex class I molecules (MHC class I, MHC I) play a crucial role in cellular immunity by presenting antigenic peptides to CD8+ T cells. Both US2- and US11-mediated degradation mechanisms involve the molecular chaperone BiP [15] and the translocon-associated protein TRAM1 [16], and result in MHC I being ubiquitinated and retrotranslocated to the cytosol, de-glycosylated by peptide N-glycanase [17] and degraded by the proteasome Despite these basic similarities, there are key differences in the ERAD machinery utilized by each immunoevasion molecule. We hypothesized that CypC may promote complex formation between MHC class I, US2, and other ERAD components [34] In investigating this model, we identified several ER proteins including malectin, PDIA6 (P5), and TMEM33 whose associations with US2 were altered upon CypC depletion or overexpression, and whose presence enhanced US2-mediated degradation of MHC I. These findings indicate that US2 co-opts a diverse array of host proteins to accomplish the efficient degradation of MHC I and subsequent evasion of immune surveillance by cytotoxic T cells
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