Profiling of immune features to predict immunotherapy efficacy

Youqiong Ye; Yongchang Zhang; Nong Yang; Qian Gao; Xinyu Ding; Xinwei Kuang; Rujuan Bao; Zhao Zhang; Chaoyang Sun; Bingying Zhou; Li Wang; Qingsong Hu; Chunru Lin; Jianjun Gao; Yanyan Lou; Steven H. Lin; Lixia Diao; Hong Liu; Xiang Chen; Gordon B. Mills; Leng Han

doi:10.1016/j.xinn.2021.100194

Profiling of immune features to predict immunotherapy efficacy

Youqiong Ye, Yongchang Zhang, Nong Yang, Qian Gao, Xinyu Ding, Xinwei Kuang, Rujuan Bao, Zhao Zhang, Chaoyang Sun, Bingying Zhou, Li Wang, Qingsong Hu, Chunru Lin, Jianjun Gao, Yanyan Lou, Steven H. Lin, Lixia Diao, Hong Liu, Xiang Chen, Gordon B. MillsLeng Han

Research output: Contribution to journal › Article › peer-review

22 Scopus citations

Abstract

Immune checkpoint blockade (ICB) therapies exhibit substantial clinical benefit in different cancers, but relatively low response rates in the majority of patients highlight the need to understand mutual relationships among immune features. Here, we reveal overall positive correlations among immune checkpoints and immune cell populations. Clinically, patients benefiting from ICB exhibited increases for both immune stimulatory and inhibitory features after initiation of therapy, suggesting that the activation of the immune microenvironment might serve as the biomarker to predict immune response. As proof-of-concept, we demonstrated that the immune activation score (IS_Δ) based on dynamic alteration of interleukins in patient plasma as early as two cycles (4–6 weeks) after starting immunotherapy can accurately predict immunotherapy efficacy. Our results reveal a systematic landscape of associations among immune features and provide a noninvasive, cost-effective, and time-efficient approach based on dynamic profiling of pre- and on-treatment plasma to predict immunotherapy efficacy.

Original language	English (US)
Article number	100194
Journal	Innovation
Volume	3
Issue number	1
DOIs	https://doi.org/10.1016/j.xinn.2021.100194
State	Published - Jan 25 2022

Keywords

cancer immunotherapy
immune activation score
immune cell population
immune checkpoints
noninvasive biomarker

ASJC Scopus subject areas

General

MD Anderson CCSG core facilities

Bioinformatics Shared Resource

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10.1016/j.xinn.2021.100194

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title = "Profiling of immune features to predict immunotherapy efficacy",

abstract = "Immune checkpoint blockade (ICB) therapies exhibit substantial clinical benefit in different cancers, but relatively low response rates in the majority of patients highlight the need to understand mutual relationships among immune features. Here, we reveal overall positive correlations among immune checkpoints and immune cell populations. Clinically, patients benefiting from ICB exhibited increases for both immune stimulatory and inhibitory features after initiation of therapy, suggesting that the activation of the immune microenvironment might serve as the biomarker to predict immune response. As proof-of-concept, we demonstrated that the immune activation score (ISΔ) based on dynamic alteration of interleukins in patient plasma as early as two cycles (4–6 weeks) after starting immunotherapy can accurately predict immunotherapy efficacy. Our results reveal a systematic landscape of associations among immune features and provide a noninvasive, cost-effective, and time-efficient approach based on dynamic profiling of pre- and on-treatment plasma to predict immunotherapy efficacy.",

keywords = "cancer immunotherapy, immune activation score, immune cell population, immune checkpoints, noninvasive biomarker",

author = "Youqiong Ye and Yongchang Zhang and Nong Yang and Qian Gao and Xinyu Ding and Xinwei Kuang and Rujuan Bao and Zhao Zhang and Chaoyang Sun and Bingying Zhou and Li Wang and Qingsong Hu and Chunru Lin and Jianjun Gao and Yanyan Lou and Lin, {Steven H.} and Lixia Diao and Hong Liu and Xiang Chen and Mills, {Gordon B.} and Leng Han",

note = "Publisher Copyright: {\textcopyright} 2021 The Author(s)",

year = "2022",

month = jan,

day = "25",

doi = "10.1016/j.xinn.2021.100194",

language = "English (US)",

volume = "3",

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T1 - Profiling of immune features to predict immunotherapy efficacy

AU - Ye, Youqiong

AU - Zhang, Yongchang

AU - Yang, Nong

AU - Gao, Qian

AU - Ding, Xinyu

AU - Kuang, Xinwei

AU - Bao, Rujuan

AU - Zhang, Zhao

AU - Sun, Chaoyang

AU - Zhou, Bingying

AU - Wang, Li

AU - Hu, Qingsong

AU - Lin, Chunru

AU - Gao, Jianjun

AU - Lou, Yanyan

AU - Lin, Steven H.

AU - Diao, Lixia

AU - Liu, Hong

AU - Chen, Xiang

AU - Mills, Gordon B.

AU - Han, Leng

PY - 2022/1/25

Y1 - 2022/1/25

N2 - Immune checkpoint blockade (ICB) therapies exhibit substantial clinical benefit in different cancers, but relatively low response rates in the majority of patients highlight the need to understand mutual relationships among immune features. Here, we reveal overall positive correlations among immune checkpoints and immune cell populations. Clinically, patients benefiting from ICB exhibited increases for both immune stimulatory and inhibitory features after initiation of therapy, suggesting that the activation of the immune microenvironment might serve as the biomarker to predict immune response. As proof-of-concept, we demonstrated that the immune activation score (ISΔ) based on dynamic alteration of interleukins in patient plasma as early as two cycles (4–6 weeks) after starting immunotherapy can accurately predict immunotherapy efficacy. Our results reveal a systematic landscape of associations among immune features and provide a noninvasive, cost-effective, and time-efficient approach based on dynamic profiling of pre- and on-treatment plasma to predict immunotherapy efficacy.

AB - Immune checkpoint blockade (ICB) therapies exhibit substantial clinical benefit in different cancers, but relatively low response rates in the majority of patients highlight the need to understand mutual relationships among immune features. Here, we reveal overall positive correlations among immune checkpoints and immune cell populations. Clinically, patients benefiting from ICB exhibited increases for both immune stimulatory and inhibitory features after initiation of therapy, suggesting that the activation of the immune microenvironment might serve as the biomarker to predict immune response. As proof-of-concept, we demonstrated that the immune activation score (ISΔ) based on dynamic alteration of interleukins in patient plasma as early as two cycles (4–6 weeks) after starting immunotherapy can accurately predict immunotherapy efficacy. Our results reveal a systematic landscape of associations among immune features and provide a noninvasive, cost-effective, and time-efficient approach based on dynamic profiling of pre- and on-treatment plasma to predict immunotherapy efficacy.

KW - cancer immunotherapy

KW - immune activation score

KW - immune cell population

KW - immune checkpoints

KW - noninvasive biomarker

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Profiling of immune features to predict immunotherapy efficacy

Abstract

Keywords

ASJC Scopus subject areas

MD Anderson CCSG core facilities

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