Lischer C, Vera González J (2021)
Publication Type: Book chapter / Article in edited volumes
Publication year: 2021
Edited Volumes: Systems Medicine
Pages Range: 593-607
DOI: 10.1016/B978-0-12-801238-3.11605-8
A current option for anti-cancer immunotherapy is to make use of epitopes which can guide cytotoxic T cells to destroy the tumor. It is however difficult to find immunogenic epitopes which engage the T cells sufficiently to fight cancer effectively. Additionally, cancer heterogeneity makes the development of such epitopes even more difficult since there is little general overlap between two cancers. Hence an epitope-based approach requires the use of many modern aspects of biological science like bioinformatics, next-generation sequencing and biostatistics. In this article, we provide a broad introduction to the topic from a computational perspective and offer insights into current paradigms of data-driven epitope selection, explain some fundamental workflows and outline avenues for future research in vitro and in silico.
APA:
Lischer, C., & Vera González, J. (2021). The Road to Effective Cancer Immunotherapy—A Computational Perspective on Tumor Epitopes in Anti-Cancer Immunotherapy. In Systems Medicine. (pp. 593-607).
MLA:
Lischer, Christopher, and Julio Vera González. "The Road to Effective Cancer Immunotherapy—A Computational Perspective on Tumor Epitopes in Anti-Cancer Immunotherapy." Systems Medicine. 2021. 593-607.
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