Combined tumor and immune signals from genomes or transcriptomes predict outcomes of checkpoint inhibition in melanoma

Immune checkpoint blockade (CPB) improves melanoma outcomes, but many patients still do not respond. Tumor mutational burden (TMB) and tumor-infiltrating T cells are associated with response, and integrative models improve survival prediction. However, integrating immune/tumor-intrinsic features usi...

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Autores principales: Freeman, Samuel S., Sade-Feldman, Moshe, Kim, Jaegil, Stewart, Chip, Gonye, Anna L.K., Ravi, Arvind, Arniella, Monica B., Gushterova, Irena, LaSalle, Thomas J., Blaum, Emily M., Yizhak, Keren, Frederick, Dennie T., Sharova, Tatyana, Leshchiner, Ignaty, Elagina, Liudmila, Spiro, Oliver G., Livitz, Dimitri, Rosebrock, Daniel, Aguet, François, Carrot-Zhang, Jian, Ha, Gavin, Lin, Ziao, Chen, Jonathan H., Barzily-Rokni, Michal, Hammond, Marc R., Vitzthum von Eckstaedt, Hans C., Blackmon, Shauna M., Jiao, Yunxin J., Gabriel, Stacey, Lawrence, Donald P., Duncan, Lyn M., Stemmer-Rachamimov, Anat O., Wargo, Jennifer A., Flaherty, Keith T., Sullivan, Ryan J., Boland, Genevieve M., Meyerson, Matthew, Getz, Gad, Hacohen, Nir
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2022
Materias:
Report
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8861826/
https://www.ncbi.nlm.nih.gov/pubmed/35243413
http://dx.doi.org/10.1016/j.xcrm.2021.100500
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author Freeman, Samuel S.
Sade-Feldman, Moshe
Kim, Jaegil
Stewart, Chip
Gonye, Anna L.K.
Ravi, Arvind
Arniella, Monica B.
Gushterova, Irena
LaSalle, Thomas J.
Blaum, Emily M.
Yizhak, Keren
Frederick, Dennie T.
Sharova, Tatyana
Leshchiner, Ignaty
Elagina, Liudmila
Spiro, Oliver G.
Livitz, Dimitri
Rosebrock, Daniel
Aguet, François
Carrot-Zhang, Jian
Ha, Gavin
Lin, Ziao
Chen, Jonathan H.
Barzily-Rokni, Michal
Hammond, Marc R.
Vitzthum von Eckstaedt, Hans C.
Blackmon, Shauna M.
Jiao, Yunxin J.
Gabriel, Stacey
Lawrence, Donald P.
Duncan, Lyn M.
Stemmer-Rachamimov, Anat O.
Wargo, Jennifer A.
Flaherty, Keith T.
Sullivan, Ryan J.
Boland, Genevieve M.
Meyerson, Matthew
Getz, Gad
Hacohen, Nir
author_facet Freeman, Samuel S.
Sade-Feldman, Moshe
Kim, Jaegil
Stewart, Chip
Gonye, Anna L.K.
Ravi, Arvind
Arniella, Monica B.
Gushterova, Irena
LaSalle, Thomas J.
Blaum, Emily M.
Yizhak, Keren
Frederick, Dennie T.
Sharova, Tatyana
Leshchiner, Ignaty
Elagina, Liudmila
Spiro, Oliver G.
Livitz, Dimitri
Rosebrock, Daniel
Aguet, François
Carrot-Zhang, Jian
Ha, Gavin
Lin, Ziao
Chen, Jonathan H.
Barzily-Rokni, Michal
Hammond, Marc R.
Vitzthum von Eckstaedt, Hans C.
Blackmon, Shauna M.
Jiao, Yunxin J.
Gabriel, Stacey
Lawrence, Donald P.
Duncan, Lyn M.
Stemmer-Rachamimov, Anat O.
Wargo, Jennifer A.
Flaherty, Keith T.
Sullivan, Ryan J.
Boland, Genevieve M.
Meyerson, Matthew
Getz, Gad
Hacohen, Nir
author_sort Freeman, Samuel S.
collection PubMed
description Immune checkpoint blockade (CPB) improves melanoma outcomes, but many patients still do not respond. Tumor mutational burden (TMB) and tumor-infiltrating T cells are associated with response, and integrative models improve survival prediction. However, integrating immune/tumor-intrinsic features using data from a single assay (DNA/RNA) remains underexplored. Here, we analyze whole-exome and bulk RNA sequencing of tumors from new and published cohorts of 189 and 178 patients with melanoma receiving CPB, respectively. Using DNA, we calculate T cell and B cell burdens (TCB/BCB) from rearranged TCR/Ig sequences and find that patients with TMB(high) and TCB(high) or BCB(high) have improved outcomes compared to other patients. By combining pairs of immune- and tumor-expressed genes, we identify three gene pairs associated with response and survival, which validate in independent cohorts. The top model includes lymphocyte-expressed MAP4K1 and tumor-expressed TBX3. Overall, RNA or DNA-based models combining immune and tumor measures improve predictions of melanoma CPB outcomes.
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spelling pubmed-88618262022-03-02 Combined tumor and immune signals from genomes or transcriptomes predict outcomes of checkpoint inhibition in melanoma Freeman, Samuel S. Sade-Feldman, Moshe Kim, Jaegil Stewart, Chip Gonye, Anna L.K. Ravi, Arvind Arniella, Monica B. Gushterova, Irena LaSalle, Thomas J. Blaum, Emily M. Yizhak, Keren Frederick, Dennie T. Sharova, Tatyana Leshchiner, Ignaty Elagina, Liudmila Spiro, Oliver G. Livitz, Dimitri Rosebrock, Daniel Aguet, François Carrot-Zhang, Jian Ha, Gavin Lin, Ziao Chen, Jonathan H. Barzily-Rokni, Michal Hammond, Marc R. Vitzthum von Eckstaedt, Hans C. Blackmon, Shauna M. Jiao, Yunxin J. Gabriel, Stacey Lawrence, Donald P. Duncan, Lyn M. Stemmer-Rachamimov, Anat O. Wargo, Jennifer A. Flaherty, Keith T. Sullivan, Ryan J. Boland, Genevieve M. Meyerson, Matthew Getz, Gad Hacohen, Nir Cell Rep Med Report Immune checkpoint blockade (CPB) improves melanoma outcomes, but many patients still do not respond. Tumor mutational burden (TMB) and tumor-infiltrating T cells are associated with response, and integrative models improve survival prediction. However, integrating immune/tumor-intrinsic features using data from a single assay (DNA/RNA) remains underexplored. Here, we analyze whole-exome and bulk RNA sequencing of tumors from new and published cohorts of 189 and 178 patients with melanoma receiving CPB, respectively. Using DNA, we calculate T cell and B cell burdens (TCB/BCB) from rearranged TCR/Ig sequences and find that patients with TMB(high) and TCB(high) or BCB(high) have improved outcomes compared to other patients. By combining pairs of immune- and tumor-expressed genes, we identify three gene pairs associated with response and survival, which validate in independent cohorts. The top model includes lymphocyte-expressed MAP4K1 and tumor-expressed TBX3. Overall, RNA or DNA-based models combining immune and tumor measures improve predictions of melanoma CPB outcomes. Elsevier 2022-02-15 /pmc/articles/PMC8861826/ /pubmed/35243413 http://dx.doi.org/10.1016/j.xcrm.2021.100500 Text en © 2021 The Author(s) https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Report
Freeman, Samuel S.
Sade-Feldman, Moshe
Kim, Jaegil
Stewart, Chip
Gonye, Anna L.K.
Ravi, Arvind
Arniella, Monica B.
Gushterova, Irena
LaSalle, Thomas J.
Blaum, Emily M.
Yizhak, Keren
Frederick, Dennie T.
Sharova, Tatyana
Leshchiner, Ignaty
Elagina, Liudmila
Spiro, Oliver G.
Livitz, Dimitri
Rosebrock, Daniel
Aguet, François
Carrot-Zhang, Jian
Ha, Gavin
Lin, Ziao
Chen, Jonathan H.
Barzily-Rokni, Michal
Hammond, Marc R.
Vitzthum von Eckstaedt, Hans C.
Blackmon, Shauna M.
Jiao, Yunxin J.
Gabriel, Stacey
Lawrence, Donald P.
Duncan, Lyn M.
Stemmer-Rachamimov, Anat O.
Wargo, Jennifer A.
Flaherty, Keith T.
Sullivan, Ryan J.
Boland, Genevieve M.
Meyerson, Matthew
Getz, Gad
Hacohen, Nir
Combined tumor and immune signals from genomes or transcriptomes predict outcomes of checkpoint inhibition in melanoma
title Combined tumor and immune signals from genomes or transcriptomes predict outcomes of checkpoint inhibition in melanoma
title_full Combined tumor and immune signals from genomes or transcriptomes predict outcomes of checkpoint inhibition in melanoma
title_fullStr Combined tumor and immune signals from genomes or transcriptomes predict outcomes of checkpoint inhibition in melanoma
title_full_unstemmed Combined tumor and immune signals from genomes or transcriptomes predict outcomes of checkpoint inhibition in melanoma
title_short Combined tumor and immune signals from genomes or transcriptomes predict outcomes of checkpoint inhibition in melanoma
title_sort combined tumor and immune signals from genomes or transcriptomes predict outcomes of checkpoint inhibition in melanoma
topic Report
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8861826/
https://www.ncbi.nlm.nih.gov/pubmed/35243413
http://dx.doi.org/10.1016/j.xcrm.2021.100500
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