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Current Molecular Medicine

Editor-in-Chief

ISSN (Print): 1566-5240
ISSN (Online): 1875-5666

The Role of the Ubiquitin-proteasome Pathway in MHC Class I Antigen Processing: Implications for Vaccine Design

Author(s): A. Sijts, D. Zaiss and P-M Kloetzel

Volume 1, Issue 6, 2001

Page: [665 - 676] Pages: 12

DOI: 10.2174/1566524013363230

Price: $65

Abstract

Proteasomes are multisubunit enzyme complexes that reside in the cytoplasm and nucleus of eukaryotic cells. By selective protein degradation, proteasomes regulate many cellular processes including MHC class I antigen processing. Three constitutively expressed catalytic subunits are responsible for proteasome mediated proteolysis. These subunits are exchanged for three homologous subunits, the immunosubunits, in IFNg-exposed cells and in cells with specialized antigen presenting function. Both constitutive and immunoproteasomes degrade endogenous proteins into small peptide fragments that can bind to MHC class I molecules for presentation on the cell surface to cytotoxic T lymphocytes. However, immunoproteasomes seem to fulfill this function more efficiently. IFNg further induces the expression of a proteasome activator, PA28, which can also enhance antigenic peptide production by proteasomes. In this review, we will introduce the ubiquitin-proteasome system and summarize recent findings regarding the role of the IFNg-inducible proteasome subunits and proteasome regulators in antigen processing. We review the different ways by which tumors and viruses have been found to target the proteasome system to avoid MHC class I presentation of their antigens, and discuss recent progressions in the development of computer assisted approaches to predict CTL epitopes within larger protein sequences, based on proteasome cleavage specificity. The availability of such programs as well as a general insight into the proteasome mediated steps in MHC class I antigen processing provides us with a rational basis for the design of new antiviral and anticancer T cell vaccines.

Keywords: Ubiquitin-proteasome Pathway, polyubiquitin-linked substrates, immunoproteasome expression, Tumor necrosis factor, Murine leukemia virus, Murine cytomegalovirus, Core antigen


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