PLoS ONE (Jan 2015)

Proteasomal Degradation of Proinsulin Requires Derlin-2, HRD1 and p97.

  • Hanneke Hoelen,
  • Arnaud Zaldumbide,
  • Wouter F van Leeuwen,
  • Ellen C W Torfs,
  • Marten A Engelse,
  • Chopie Hassan,
  • Robert Jan Lebbink,
  • Eelco J de Koning,
  • Maaike E Resssing,
  • Arnoud H de Ru,
  • Peter A van Veelen,
  • Rob C Hoeben,
  • Bart O Roep,
  • Emmanuel J H J Wiertz

DOI
https://doi.org/10.1371/journal.pone.0128206
Journal volume & issue
Vol. 10, no. 6
p. e0128206

Abstract

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Patients with type 1 diabetes (T1D) suffer from beta-cell destruction by CD8+ T-cells that have preproinsulin as an important target autoantigen. It is of great importance to understand the molecular mechanism underlying the processing of preproinsulin into these CD8+ T-cell epitopes. We therefore studied a pathway that may contribute to the production of these antigenic peptides: degradation of proinsulin via ER associated protein degradation (ERAD). Analysis of the MHC class I peptide ligandome confirmed the presentation of the most relevant MHC class I-restricted diabetogenic epitopes in our cells: the signal peptide-derived sequence A15-A25 and the insulin B-chain epitopes H29-A38 and H34-V42. We demonstrate that specific silencing of Derlin-2, p97 and HRD1 by shRNAs increases steady state levels of proinsulin. This indicates that these ERAD constituents are critically involved in proinsulin degradation and may therefore also play a role in subsequent antigen generation. These ERAD proteins therefore represent interesting targets for novel therapies aiming at the reduction and possibly also prevention of beta-cell directed auto-immune reactions in T1D.