RNA Transcription and Splicing Errors as a Source of Cancer Frameshift Neoantigens for Vaccines

Luhui Shen; Jian Zhang; Hojoon Lee; Milene Tavares Batista; Stephen Albert Johnston

doi:10.1038/s41598-019-50738-4

RNA Transcription and Splicing Errors as a Source of Cancer Frameshift Neoantigens for Vaccines

Luhui Shen, Jian Zhang, Hojoon Lee, Milene Tavares Batista, Stephen Albert Johnston

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Abstract

The success of checkpoint inhibitors in cancer therapy is largely attributed to activating the patient’s immune response to their tumor’s neoantigens arising from DNA mutations. This realization has motivated the interest in personal cancer vaccines based on sequencing the patient’s tumor DNA to discover neoantigens. Here we propose an additional, unrecognized source of tumor neoantigens. We show that errors in transcription of microsatellites (MS) and mis-splicing of exons create highly immunogenic frameshift (FS) neoantigens in tumors. The sequence of these FS neoantigens are predictable, allowing creation of a peptide array representing all possible neoantigen FS peptides. This array can be used to detect the antibody response in a patient to the FS peptides. A survey of 5 types of cancers reveals peptides that are personally reactive for each patient. This source of neoantigens and the method to discover them may be useful in developing cancer vaccines.

Original language	English (US)
Article number	14184
Journal	Scientific reports
Volume	9
Issue number	1
DOIs	https://doi.org/10.1038/s41598-019-50738-4
State	Published - Dec 1 2019

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title = "RNA Transcription and Splicing Errors as a Source of Cancer Frameshift Neoantigens for Vaccines",

abstract = "The success of checkpoint inhibitors in cancer therapy is largely attributed to activating the patient{\textquoteright}s immune response to their tumor{\textquoteright}s neoantigens arising from DNA mutations. This realization has motivated the interest in personal cancer vaccines based on sequencing the patient{\textquoteright}s tumor DNA to discover neoantigens. Here we propose an additional, unrecognized source of tumor neoantigens. We show that errors in transcription of microsatellites (MS) and mis-splicing of exons create highly immunogenic frameshift (FS) neoantigens in tumors. The sequence of these FS neoantigens are predictable, allowing creation of a peptide array representing all possible neoantigen FS peptides. This array can be used to detect the antibody response in a patient to the FS peptides. A survey of 5 types of cancers reveals peptides that are personally reactive for each patient. This source of neoantigens and the method to discover them may be useful in developing cancer vaccines.",

author = "Luhui Shen and Jian Zhang and Hojoon Lee and Batista, {Milene Tavares} and Johnston, {Stephen Albert}",

note = "Funding Information: This work was supported by grants from DoD (CDRMP W81XWH-07-1-0549) and the Keck Foundation to S.A.J. and from Calviri, Inc to CIM. We thank Felicia Craciunescu, Jose Cano Buendia, Chun hui Bu, Danielle Lussier and Kari Kotlarczyk for help on the FS analysis and vaccine tests in the mouse models; Phillip Stafford for help on the FS peptide array analysis; Laurence Miller and Tricia Carrigan for breast tumor tissue collection; Kathryn Sykes for comments and suggestions for the project; Debra Hansen for the suggestions on the paper and all the members of the CIM for supporting this work. We particularly thank Tsukasa Oyama and Bao-Xi Qu for early work on this project. Publisher Copyright: {\textcopyright} 2019, The Author(s).",

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RNA Transcription and Splicing Errors as a Source of Cancer Frameshift Neoantigens for Vaccines

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