| Literature DB >> 30327365 |
Caterina Bartolacci1, Cristina Andreani2, Claudia Curcio3,4, Sergio Occhipinti4, Luca Massaccesi5, Mirella Giovarelli4, Roberta Galeazzi5, Manuela Iezzi3, Martina Tilio2, Valentina Gambini2, Junbiao Wang2, Cristina Marchini2, Augusto Amici1.
Abstract
Δ16HER2 is a splice variant of HER2 and defined as the transforming isoform in HER2-positive breast cancer. It has been shown that Δ16HER2 promotes breast cancer aggressiveness and drug resistance. In the present work, we used in silico modeling to identify structural differences between Δ16HER2 and the wild-type HER2 proteins. We then developed DNA vaccines specifically against the Δ16HER2 isoform and showed that these immunotherapies hampered carcinogenesis in a breast cancer transplantable model. However, the vaccines failed to elicit immune protection in Δ16HER2 transgenic mice because of tolerogenic mechanisms toward the human HER2 self-antigen, a scenario commonly seen in HER2+ patients. Thus, we engineered bacteriophages with immunogenic epitopes of Δ16HER2 exposed on their coat for use as anticancer vaccines. These phage-based vaccines were able to break immune tolerance, triggering a protective anti-Δ16HER2 humoral response. These findings provide a rationale for the use of phage-based anti-HER2/Δ16HER2 vaccination as a safe and efficacious immunotherapy against HER2-positive breast cancers. ©2018 American Association for Cancer Research.Entities:
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Year: 2018 PMID: 30327365 DOI: 10.1158/2326-6066.CIR-18-0179
Source DB: PubMed Journal: Cancer Immunol Res ISSN: 2326-6066 Impact factor: 11.151