Abstract
Major histocpmpatibilty complex class I (MHC I) antigen presentation allows CD8+ T cells to detect and eliminate cancerous or virally infected cells. The MHC I pathway is not essential for cell growth and viability and consequently cancers and viruses can evade control by CD8+ T cells by inactivating antigen presentation. In cancers, two common ways for this evasion are the loss of either the MHC I light chain (ß2M) or the cytosol-to-endoplasmic reticulum (ER) peptide transporter (TAP). ß2M-null cells are generally thought to lack the MHC I pathway because the MHC I heavy chain by itself lacks the proper conformation for peptide display. TAP-null cells are thought to have severely defective MHC I antigen presentation because they are incapable of supplying peptides from the cytosol to MHC I molecules in the ER. However, we have found that highly reactive memory CD8+ T cells could still recognize cells that completely lacked ß2M or TAP. This was at least in part because in TAPnull cells, the Sec62 component of the Sec61 translocon supported the transfer of cytosolic peptides into the ER. In ß2M-negative cells, free MHC I heavy chains were able to bind peptides and assume a conformation that was sufficiently recognized by CD8+ T cells. This process required ER chaperones and the peptide-loading complex. We found that these mechanisms supported antigen presentation at a level that was sufficient for memory CD8+ T cells to kill melanoma cells both in vitro and in tumor-bearing mice. The implications for tumor immunotherapy are discussed.