Membrane-localized neoantigens predict the efficacy of cancer immunotherapy

Membrane-localized neoantigens predict the efficacy of cancer immunotherapy

Immune checkpoint immunotherapy (ICI) can re-activate immune reactions against neoantigens, leading to remarkable remission in cancer patients. Nevertheless, only a minority of patients are responsive to ICI, and approaches for prediction of responsiveness are needed to improve the success of cancer...

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Veröffentlicht in:Cell reports. Medicine 2023-08, Vol.4 (8), p.101145-101145, Article 101145
Hauptverfasser: Goldberger, Zoe, Hauert, Sylvie, Chang, Kevin, Kurtanich, Trevin, Alpar, Aaron T, Repond, Grégoire, Wang, Yue, Gomes, Suzana, Krishnakumar, Raga, Siddarth, Prabha, Swartz, Melody A, Hubbell, Jeffrey A, Briquez, Priscilla S
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container_end_page 101145
container_issue 8
container_start_page 101145
container_title Cell reports. Medicine
container_volume 4
creator Goldberger, Zoe
Hauert, Sylvie
Chang, Kevin
Kurtanich, Trevin
Alpar, Aaron T
Repond, Grégoire
Wang, Yue
Gomes, Suzana
Krishnakumar, Raga
Siddarth, Prabha
Swartz, Melody A
Hubbell, Jeffrey A
Briquez, Priscilla S
description Immune checkpoint immunotherapy (ICI) can re-activate immune reactions against neoantigens, leading to remarkable remission in cancer patients. Nevertheless, only a minority of patients are responsive to ICI, and approaches for prediction of responsiveness are needed to improve the success of cancer treatments. While the tumor mutational burden (TMB) correlates positively with responsiveness and survival of patients undergoing ICI, the influence of the subcellular localizations of the neoantigens remains unclear. Here, we demonstrate in both a mouse melanoma model and human clinical datasets of 1,722 ICI-treated patients that a high proportion of membrane-localized neoantigens, particularly at the plasma membrane, correlate with responsiveness to ICI therapy and improved overall survival across multiple cancer types. We further show that combining membrane localization and TMB analyses can enhance the predictability of cancer patient response to ICI. Our results may have important implications for establishing future clinical guidelines to direct the choice of treatment toward ICI.
doi_str_mv 10.1016/j.xcrm.2023.101145
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title Membrane-localized neoantigens predict the efficacy of cancer immunotherapy
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