The Fibronectin–ILT3 Interaction Functions as a Stromal Checkpoint that Suppresses Myeloid Cells

Suppressive myeloid cells inhibit antitumor immunity by preventing T-cell responses. Immunoglobulin-like transcript 3 (ILT3; also known as LILRB4) is highly expressed on tumor-associated myeloid cells and promotes their suppressive phenotype. However, the ligand that engages ILT3 within the tumor mi...

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Autores principales: Paavola, Kevin J., Roda, Julie M., Lin, Vicky Y., Chen, Peirong, O'Hollaren, Kyle P., Ventura, Richard, Crawley, Suzanne C., Li, Betty, Chen, Hung-I H., Malmersjö, Seth, Sharkov, Nikolai A., Horner, Geoffrey, Guo, Wei, Kutach, Alan K., Mondal, Kalyani, Zhang, Zhen, Lichtman, Joshua S., Song, Christina, Rivera, Lee B., Liu, Wenhui, Luo, Jian, Wang, Yan, Solloway, Mark J., Allan, Bernard B., Kekatpure, Avantika, Starck, Shelley R., Haldankar, Raj, Fan, Bin, Chu, Chun, Tang, Jie, Molgora, Martina, Colonna, Marco, Kaplan, Daniel D., Hsu, Jer-Yuan
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Association for Cancer Research 2021
Materias:
Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9414285/
https://www.ncbi.nlm.nih.gov/pubmed/34426457
http://dx.doi.org/10.1158/2326-6066.CIR-21-0240
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author Paavola, Kevin J.
Roda, Julie M.
Lin, Vicky Y.
Chen, Peirong
O'Hollaren, Kyle P.
Ventura, Richard
Crawley, Suzanne C.
Li, Betty
Chen, Hung-I H.
Malmersjö, Seth
Sharkov, Nikolai A.
Horner, Geoffrey
Guo, Wei
Kutach, Alan K.
Mondal, Kalyani
Zhang, Zhen
Lichtman, Joshua S.
Song, Christina
Rivera, Lee B.
Liu, Wenhui
Luo, Jian
Wang, Yan
Solloway, Mark J.
Allan, Bernard B.
Kekatpure, Avantika
Starck, Shelley R.
Haldankar, Raj
Fan, Bin
Chu, Chun
Tang, Jie
Molgora, Martina
Colonna, Marco
Kaplan, Daniel D.
Hsu, Jer-Yuan
author_facet Paavola, Kevin J.
Roda, Julie M.
Lin, Vicky Y.
Chen, Peirong
O'Hollaren, Kyle P.
Ventura, Richard
Crawley, Suzanne C.
Li, Betty
Chen, Hung-I H.
Malmersjö, Seth
Sharkov, Nikolai A.
Horner, Geoffrey
Guo, Wei
Kutach, Alan K.
Mondal, Kalyani
Zhang, Zhen
Lichtman, Joshua S.
Song, Christina
Rivera, Lee B.
Liu, Wenhui
Luo, Jian
Wang, Yan
Solloway, Mark J.
Allan, Bernard B.
Kekatpure, Avantika
Starck, Shelley R.
Haldankar, Raj
Fan, Bin
Chu, Chun
Tang, Jie
Molgora, Martina
Colonna, Marco
Kaplan, Daniel D.
Hsu, Jer-Yuan
author_sort Paavola, Kevin J.
collection PubMed
description Suppressive myeloid cells inhibit antitumor immunity by preventing T-cell responses. Immunoglobulin-like transcript 3 (ILT3; also known as LILRB4) is highly expressed on tumor-associated myeloid cells and promotes their suppressive phenotype. However, the ligand that engages ILT3 within the tumor microenvironment and renders tumor-associated myeloid cells suppressive is unknown. Using a screening approach, we identified fibronectin as a functional ligand for ILT3. The interaction of fibronectin with ILT3 polarized myeloid cells toward a suppressive state, and these effects were reversed with an ILT3-specific antibody that blocked the interaction of ILT3 with fibronectin. Furthermore, ex vivo treatment of human tumor explants with anti-ILT3 reprogrammed tumor-associated myeloid cells toward a stimulatory phenotype. Thus, the ILT3–fibronectin interaction represents a “stromal checkpoint” through which the extracellular matrix actively suppresses myeloid cells. By blocking this interaction, tumor-associated myeloid cells may acquire a stimulatory phenotype, potentially resulting in increased antitumor T-cell responses.
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spelling pubmed-94142852023-01-05 The Fibronectin–ILT3 Interaction Functions as a Stromal Checkpoint that Suppresses Myeloid Cells Paavola, Kevin J. Roda, Julie M. Lin, Vicky Y. Chen, Peirong O'Hollaren, Kyle P. Ventura, Richard Crawley, Suzanne C. Li, Betty Chen, Hung-I H. Malmersjö, Seth Sharkov, Nikolai A. Horner, Geoffrey Guo, Wei Kutach, Alan K. Mondal, Kalyani Zhang, Zhen Lichtman, Joshua S. Song, Christina Rivera, Lee B. Liu, Wenhui Luo, Jian Wang, Yan Solloway, Mark J. Allan, Bernard B. Kekatpure, Avantika Starck, Shelley R. Haldankar, Raj Fan, Bin Chu, Chun Tang, Jie Molgora, Martina Colonna, Marco Kaplan, Daniel D. Hsu, Jer-Yuan Cancer Immunol Res Research Articles Suppressive myeloid cells inhibit antitumor immunity by preventing T-cell responses. Immunoglobulin-like transcript 3 (ILT3; also known as LILRB4) is highly expressed on tumor-associated myeloid cells and promotes their suppressive phenotype. However, the ligand that engages ILT3 within the tumor microenvironment and renders tumor-associated myeloid cells suppressive is unknown. Using a screening approach, we identified fibronectin as a functional ligand for ILT3. The interaction of fibronectin with ILT3 polarized myeloid cells toward a suppressive state, and these effects were reversed with an ILT3-specific antibody that blocked the interaction of ILT3 with fibronectin. Furthermore, ex vivo treatment of human tumor explants with anti-ILT3 reprogrammed tumor-associated myeloid cells toward a stimulatory phenotype. Thus, the ILT3–fibronectin interaction represents a “stromal checkpoint” through which the extracellular matrix actively suppresses myeloid cells. By blocking this interaction, tumor-associated myeloid cells may acquire a stimulatory phenotype, potentially resulting in increased antitumor T-cell responses. American Association for Cancer Research 2021-11-01 2021-08-23 /pmc/articles/PMC9414285/ /pubmed/34426457 http://dx.doi.org/10.1158/2326-6066.CIR-21-0240 Text en ©2021 The Authors; Published by the American Association for Cancer Research https://creativecommons.org/licenses/by-nc-nd/4.0/This open access article is distributed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International (CC BY-NC-ND 4.0) license.
spellingShingle Research Articles
Paavola, Kevin J.
Roda, Julie M.
Lin, Vicky Y.
Chen, Peirong
O'Hollaren, Kyle P.
Ventura, Richard
Crawley, Suzanne C.
Li, Betty
Chen, Hung-I H.
Malmersjö, Seth
Sharkov, Nikolai A.
Horner, Geoffrey
Guo, Wei
Kutach, Alan K.
Mondal, Kalyani
Zhang, Zhen
Lichtman, Joshua S.
Song, Christina
Rivera, Lee B.
Liu, Wenhui
Luo, Jian
Wang, Yan
Solloway, Mark J.
Allan, Bernard B.
Kekatpure, Avantika
Starck, Shelley R.
Haldankar, Raj
Fan, Bin
Chu, Chun
Tang, Jie
Molgora, Martina
Colonna, Marco
Kaplan, Daniel D.
Hsu, Jer-Yuan
The Fibronectin–ILT3 Interaction Functions as a Stromal Checkpoint that Suppresses Myeloid Cells
title The Fibronectin–ILT3 Interaction Functions as a Stromal Checkpoint that Suppresses Myeloid Cells
title_full The Fibronectin–ILT3 Interaction Functions as a Stromal Checkpoint that Suppresses Myeloid Cells
title_fullStr The Fibronectin–ILT3 Interaction Functions as a Stromal Checkpoint that Suppresses Myeloid Cells
title_full_unstemmed The Fibronectin–ILT3 Interaction Functions as a Stromal Checkpoint that Suppresses Myeloid Cells
title_short The Fibronectin–ILT3 Interaction Functions as a Stromal Checkpoint that Suppresses Myeloid Cells
title_sort fibronectin–ilt3 interaction functions as a stromal checkpoint that suppresses myeloid cells
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9414285/
https://www.ncbi.nlm.nih.gov/pubmed/34426457
http://dx.doi.org/10.1158/2326-6066.CIR-21-0240
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