A B cell-derived gene expression signature associates with an immunologically active tumor microenvironment and response to immune checkpoint blockade therapy

A B cell-derived gene expression signature associates with an immunologically active tumor microenvironment and response to immune checkpoint blockade therapy

Immune checkpoint inhibitors have shown great potential in treating solid tumors, inducing durable remission and prolonged survival time in responders. Despite their promise, a large fraction of patients remains unresponsive to these treatments highlighting the need for biomarkers that can predict p...

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Main Authors: Frederick S. Varn, Yue Wang, Chao Cheng
Format: Article
Language:English
Published: Taylor & Francis Group 2019-01-01
Series:OncoImmunology
Subjects:
immunotherapy
genomics
tumor immunology
b cells
immune checkpoint blockade
gene signatures
biomarkers
Online Access:http://dx.doi.org/10.1080/2162402X.2018.1513440
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spelling doaj-438e03523e7841cbb8d8022767fcc6592020-11-25T02:52:19ZengTaylor & Francis GroupOncoImmunology2162-402X2019-01-018110.1080/2162402X.2018.15134401513440A B cell-derived gene expression signature associates with an immunologically active tumor microenvironment and response to immune checkpoint blockade therapyFrederick S. Varn0Yue Wang1Chao Cheng2Geisel School of Medicine at DartmouthGeisel School of Medicine at DartmouthGeisel School of Medicine at DartmouthImmune checkpoint inhibitors have shown great potential in treating solid tumors, inducing durable remission and prolonged survival time in responders. Despite their promise, a large fraction of patients remains unresponsive to these treatments highlighting the need for biomarkers that can predict patient sensitivity. Pre-treatment gene expression profiles for patients receiving immune checkpoint inhibitors have recently become available, establishing a new medium by which to discover biomarkers that predict therapy response. In this study, we mined for transcriptomic correlates of response by applying immune cell-derived gene expression signatures to publicly available datasets containing matched gene expression and response efficacy information. These datasets were comprised of urothelial carcinoma patients receiving anti-PD-L1 (n = 25), melanoma patients receiving anti-PD-1 (n = 28), and melanoma patients receiving anti-CTLA-4 (n = 42). We identified one signature, derived from a subpopulation of B cells, with scores that were significantly and reproducibly elevated in patients experiencing clinical benefit following therapy targeting the PD-1/PD-L1 axis and were additionally elevated in patients responsive to anti-CTLA-4 therapy. Multivariate models revealed that this signature was associated with response independent of other response-predictive biomarkers, including tumor mutation burden. Functional annotation of the signature revealed it to be associated with features indicative of an immunologically active microenvironment, including B and T cell activation as well as antigen presentation activity. The preliminary findings presented detail a transcriptomic signature associated with response to multiple checkpoint inhibitors and suggest novel biological associations that warrant further investigation.http://dx.doi.org/10.1080/2162402X.2018.1513440immunotherapygenomicstumor immunologyb cellsimmune checkpoint blockadegene signaturesbiomarkers
collection DOAJ
language English
format Article
sources DOAJ
author Frederick S. Varn
Yue Wang
Chao Cheng
spellingShingle Frederick S. Varn
Yue Wang
Chao Cheng
A B cell-derived gene expression signature associates with an immunologically active tumor microenvironment and response to immune checkpoint blockade therapy
OncoImmunology
immunotherapy
genomics
tumor immunology
b cells
immune checkpoint blockade
gene signatures
biomarkers
author_facet Frederick S. Varn
Yue Wang
Chao Cheng
author_sort Frederick S. Varn
title A B cell-derived gene expression signature associates with an immunologically active tumor microenvironment and response to immune checkpoint blockade therapy
title_short A B cell-derived gene expression signature associates with an immunologically active tumor microenvironment and response to immune checkpoint blockade therapy
title_full A B cell-derived gene expression signature associates with an immunologically active tumor microenvironment and response to immune checkpoint blockade therapy
title_fullStr A B cell-derived gene expression signature associates with an immunologically active tumor microenvironment and response to immune checkpoint blockade therapy
title_full_unstemmed A B cell-derived gene expression signature associates with an immunologically active tumor microenvironment and response to immune checkpoint blockade therapy
title_sort b cell-derived gene expression signature associates with an immunologically active tumor microenvironment and response to immune checkpoint blockade therapy
publisher Taylor & Francis Group
series OncoImmunology
issn 2162-402X
publishDate 2019-01-01
description Immune checkpoint inhibitors have shown great potential in treating solid tumors, inducing durable remission and prolonged survival time in responders. Despite their promise, a large fraction of patients remains unresponsive to these treatments highlighting the need for biomarkers that can predict patient sensitivity. Pre-treatment gene expression profiles for patients receiving immune checkpoint inhibitors have recently become available, establishing a new medium by which to discover biomarkers that predict therapy response. In this study, we mined for transcriptomic correlates of response by applying immune cell-derived gene expression signatures to publicly available datasets containing matched gene expression and response efficacy information. These datasets were comprised of urothelial carcinoma patients receiving anti-PD-L1 (n = 25), melanoma patients receiving anti-PD-1 (n = 28), and melanoma patients receiving anti-CTLA-4 (n = 42). We identified one signature, derived from a subpopulation of B cells, with scores that were significantly and reproducibly elevated in patients experiencing clinical benefit following therapy targeting the PD-1/PD-L1 axis and were additionally elevated in patients responsive to anti-CTLA-4 therapy. Multivariate models revealed that this signature was associated with response independent of other response-predictive biomarkers, including tumor mutation burden. Functional annotation of the signature revealed it to be associated with features indicative of an immunologically active microenvironment, including B and T cell activation as well as antigen presentation activity. The preliminary findings presented detail a transcriptomic signature associated with response to multiple checkpoint inhibitors and suggest novel biological associations that warrant further investigation.
topic immunotherapy
genomics
tumor immunology
b cells
immune checkpoint blockade
gene signatures
biomarkers
url http://dx.doi.org/10.1080/2162402X.2018.1513440
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