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Molecular basis of MHC I quality control in the peptide loading complex.

Alexander DomnickChristian WinterLukas SušacLeon HenneckeMario HensenNicole ZitzmannSimon TrowitzschChristoph ThomasRobert Tampé
Published in: Nature communications (2022)
Major histocompatibility complex class I (MHC I) molecules are central to adaptive immunity. Their assembly, epitope selection, and antigen presentation are controlled by the MHC I glycan through a sophisticated network of chaperones and modifying enzymes. However, the mechanistic integration of the corresponding processes remains poorly understood. Here, we determine the multi-chaperone-client interaction network of the peptide loading complex (PLC) and report the PLC editing module structure by cryogenic electron microscopy at 3.7 Å resolution. Combined with epitope-proofreading studies of the PLC in near-native lipid environment, these data show that peptide-receptive MHC I molecules are stabilized by multivalent chaperone interactions including the calreticulin-engulfed mono-glucosylated MHC I glycan, which only becomes accessible for processing by α-glucosidase II upon loading of optimal epitopes. Our work reveals allosteric coupling between peptide-MHC I assembly and glycan processing. This inter-process communication defines the onset of an adaptive immune response and provides a prototypical example of the tightly coordinated events in endoplasmic reticulum quality control.
Keyphrases
  • quality control
  • endoplasmic reticulum
  • immune response
  • electron microscopy
  • heat shock
  • small molecule
  • cell surface
  • dendritic cells
  • machine learning
  • heat shock protein
  • fatty acid
  • room temperature
  • big data
  • heat stress