PLoS ONE (Jan 2016)

MUC1 Vaccines, Comprised of Glycosylated or Non-Glycosylated Peptides or Tumor-Derived MUC1, Can Circumvent Immunoediting to Control Tumor Growth in MUC1 Transgenic Mice.

  • Vani Lakshminarayanan,
  • Nitin T Supekar,
  • Jie Wei,
  • Dustin B McCurry,
  • Amylou C Dueck,
  • Heidi E Kosiorek,
  • Priyanka P Trivedi,
  • Judy M Bradley,
  • Cathy S Madsen,
  • Latha B Pathangey,
  • Dominique B Hoelzinger,
  • Margreet A Wolfert,
  • Geert-Jan Boons,
  • Peter A Cohen,
  • Sandra J Gendler

DOI
https://doi.org/10.1371/journal.pone.0145920
Journal volume & issue
Vol. 11, no. 1
p. e0145920

Abstract

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It remains challenging to produce decisive vaccines against MUC1, a tumor-associated antigen widely expressed by pancreas, breast and other tumors. Employing clinically relevant mouse models, we ruled out such causes as irreversible T-cell tolerance, inadequate avidity, and failure of T-cells to recognize aberrantly glycosylated tumor MUC1. Instead, every tested MUC1 preparation, even non-glycosylated synthetic 9mer peptides, induced interferon gamma-producing CD4(+) and CD8(+) T-cells that recognized glycosylated variants including tumor-associated MUC1. Vaccination with synthetic peptides conferred protection as long as vaccination was repeated post tumor challenge. Failure to revaccinate post challenge was associated with down-regulated tumor MUC1 and MHC molecules. Surprisingly, direct admixture of MUC1-expressing tumor with MUC1-hyperimmune T-cells could not prevent tumor outgrowth or MUC1 immunoediting, whereas ex vivo activation of the hyperimmune T-cells prior to tumor admixture rendered them curative. Therefore, surrogate T-cell preactivation outside the tumor bed, either in culture or by repetitive vaccination, can overcome tumor escape.