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The major substrates for TAP in vivo are derived from newly synthesized proteins

Author

Listed:
  • Eric A. J. Reits

    (The Netherlands Cancer Institute)

  • Jan C. Vos

    (The Netherlands Cancer Institute)

  • Monique Grommé

    (The Netherlands Cancer Institute)

  • Jacques Neefjes

    (The Netherlands Cancer Institute)

Abstract

The transporter associated with antigen processing (TAP) is a member of the family of ABC transporters that translocate a large variety of substrates across membranes1. TAP transports peptides from the cytosol into the endoplasmic reticulum for binding to MHC class I molecules and for subsequent presentation to the immune system2. Here we follow the lateral mobility of TAP in living cells. TAP's mobility increases when it is inactive and decreases when it translocates peptides. Because TAP activity is dependent on substrate, the mobility of TAP is used to monitor the intracellular peptide content in vivo. Comparison of the diffusion rates in peptide-free and peptide-saturated cells indicates that normally about one-third of all TAP molecules actively translocate peptides. However, during an acute influenza infection TAP becomes fully employed owing to the production and degradation of viral proteins. Furthermore, TAP activity depends on continuing protein translation. This implies that MHC class I molecules mainly sample peptides that originate from newly synthesized proteins, to ensure rapid presentation to the immune system.

Suggested Citation

  • Eric A. J. Reits & Jan C. Vos & Monique Grommé & Jacques Neefjes, 2000. "The major substrates for TAP in vivo are derived from newly synthesized proteins," Nature, Nature, vol. 404(6779), pages 774-778, April.
    • Handle: RePEc:nat:nature:v:404:y:2000:i:6779:d:10.1038_35008103
    DOI: 10.1038/35008103
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    Cited by:

    1. Fredrik Trulsson & Vyacheslav Akimov & Mihaela Robu & Nila Overbeek & David Aureliano Pérez Berrocal & Rashmi G. Shah & Jürgen Cox & Girish M. Shah & Blagoy Blagoev & Alfred C. O. Vertegaal, 2022. "Deubiquitinating enzymes and the proteasome regulate preferential sets of ubiquitin substrates," Nature Communications, Nature, vol. 13(1), pages 1-17, December.

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