Cargando…
The engineered CD80 variant fusion therapeutic davoceticept combines checkpoint antagonism with conditional CD28 costimulation for anti-tumor immunity
Despite the recent clinical success of T cell checkpoint inhibition targeting the CTLA-4 and PD-1 pathways, many patients either fail to achieve objective responses or they develop resistance to therapy. In some cases, poor responses to checkpoint blockade have been linked to suboptimal CD28 costimu...
| Autores principales: | , , , , , , , , , , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
Nature Publishing Group UK
2022
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8980021/ https://www.ncbi.nlm.nih.gov/pubmed/35379805 http://dx.doi.org/10.1038/s41467-022-29286-5 |
| _version_ | 1784681305789693952 |
|---|---|
| author | Maurer, Mark F. Lewis, Katherine E. Kuijper, Joseph L. Ardourel, Dan Gudgeon, Chelsea J. Chandrasekaran, Siddarth Mudri, Sherri L. Kleist, Kayla N. Navas, Chris Wolfson, Martin F. Rixon, Mark W. Swanson, Ryan Dillon, Stacey R. Levin, Steven D. Kimbung, Yengo Raymond Akutsu, Masato Logan, Derek T. Walse, Björn Swiderek, Kristine M. Peng, Stanford L. |
| author_facet | Maurer, Mark F. Lewis, Katherine E. Kuijper, Joseph L. Ardourel, Dan Gudgeon, Chelsea J. Chandrasekaran, Siddarth Mudri, Sherri L. Kleist, Kayla N. Navas, Chris Wolfson, Martin F. Rixon, Mark W. Swanson, Ryan Dillon, Stacey R. Levin, Steven D. Kimbung, Yengo Raymond Akutsu, Masato Logan, Derek T. Walse, Björn Swiderek, Kristine M. Peng, Stanford L. |
| author_sort | Maurer, Mark F. |
| collection | PubMed |
| description | Despite the recent clinical success of T cell checkpoint inhibition targeting the CTLA-4 and PD-1 pathways, many patients either fail to achieve objective responses or they develop resistance to therapy. In some cases, poor responses to checkpoint blockade have been linked to suboptimal CD28 costimulation and the inability to generate and maintain a productive adaptive anti-tumor immune response. To address this, here we utilize directed evolution to engineer a CD80 IgV domain with increased PD-L1 affinity and fuse this to an immunoglobulin Fc domain, creating a therapeutic (ALPN-202, davoceticept) capable of providing CD28 costimulation in a PD-L1-dependent fashion while also antagonizing PD-1 - PD-L1 and CTLA-4–CD80/CD86 interactions. We demonstrate that by combining CD28 costimulation and dual checkpoint inhibition, ALPN-202 enhances T cell activation and anti-tumor efficacy in cell-based assays and mouse tumor models more potently than checkpoint blockade alone and thus has the potential to generate potent, clinically meaningful anti-tumor immunity in humans. |
| format | Online Article Text |
| id | pubmed-8980021 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2022 |
| publisher | Nature Publishing Group UK |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-89800212022-04-20 The engineered CD80 variant fusion therapeutic davoceticept combines checkpoint antagonism with conditional CD28 costimulation for anti-tumor immunity Maurer, Mark F. Lewis, Katherine E. Kuijper, Joseph L. Ardourel, Dan Gudgeon, Chelsea J. Chandrasekaran, Siddarth Mudri, Sherri L. Kleist, Kayla N. Navas, Chris Wolfson, Martin F. Rixon, Mark W. Swanson, Ryan Dillon, Stacey R. Levin, Steven D. Kimbung, Yengo Raymond Akutsu, Masato Logan, Derek T. Walse, Björn Swiderek, Kristine M. Peng, Stanford L. Nat Commun Article Despite the recent clinical success of T cell checkpoint inhibition targeting the CTLA-4 and PD-1 pathways, many patients either fail to achieve objective responses or they develop resistance to therapy. In some cases, poor responses to checkpoint blockade have been linked to suboptimal CD28 costimulation and the inability to generate and maintain a productive adaptive anti-tumor immune response. To address this, here we utilize directed evolution to engineer a CD80 IgV domain with increased PD-L1 affinity and fuse this to an immunoglobulin Fc domain, creating a therapeutic (ALPN-202, davoceticept) capable of providing CD28 costimulation in a PD-L1-dependent fashion while also antagonizing PD-1 - PD-L1 and CTLA-4–CD80/CD86 interactions. We demonstrate that by combining CD28 costimulation and dual checkpoint inhibition, ALPN-202 enhances T cell activation and anti-tumor efficacy in cell-based assays and mouse tumor models more potently than checkpoint blockade alone and thus has the potential to generate potent, clinically meaningful anti-tumor immunity in humans. Nature Publishing Group UK 2022-04-04 /pmc/articles/PMC8980021/ /pubmed/35379805 http://dx.doi.org/10.1038/s41467-022-29286-5 Text en © The Author(s) 2022 https://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) . |
| spellingShingle | Article Maurer, Mark F. Lewis, Katherine E. Kuijper, Joseph L. Ardourel, Dan Gudgeon, Chelsea J. Chandrasekaran, Siddarth Mudri, Sherri L. Kleist, Kayla N. Navas, Chris Wolfson, Martin F. Rixon, Mark W. Swanson, Ryan Dillon, Stacey R. Levin, Steven D. Kimbung, Yengo Raymond Akutsu, Masato Logan, Derek T. Walse, Björn Swiderek, Kristine M. Peng, Stanford L. The engineered CD80 variant fusion therapeutic davoceticept combines checkpoint antagonism with conditional CD28 costimulation for anti-tumor immunity |
| title | The engineered CD80 variant fusion therapeutic davoceticept combines checkpoint antagonism with conditional CD28 costimulation for anti-tumor immunity |
| title_full | The engineered CD80 variant fusion therapeutic davoceticept combines checkpoint antagonism with conditional CD28 costimulation for anti-tumor immunity |
| title_fullStr | The engineered CD80 variant fusion therapeutic davoceticept combines checkpoint antagonism with conditional CD28 costimulation for anti-tumor immunity |
| title_full_unstemmed | The engineered CD80 variant fusion therapeutic davoceticept combines checkpoint antagonism with conditional CD28 costimulation for anti-tumor immunity |
| title_short | The engineered CD80 variant fusion therapeutic davoceticept combines checkpoint antagonism with conditional CD28 costimulation for anti-tumor immunity |
| title_sort | engineered cd80 variant fusion therapeutic davoceticept combines checkpoint antagonism with conditional cd28 costimulation for anti-tumor immunity |
| topic | Article |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8980021/ https://www.ncbi.nlm.nih.gov/pubmed/35379805 http://dx.doi.org/10.1038/s41467-022-29286-5 |
| work_keys_str_mv | AT maurermarkf theengineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT lewiskatherinee theengineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT kuijperjosephl theengineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT ardoureldan theengineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT gudgeonchelseaj theengineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT chandrasekaransiddarth theengineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT mudrisherril theengineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT kleistkaylan theengineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT navaschris theengineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT wolfsonmartinf theengineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT rixonmarkw theengineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT swansonryan theengineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT dillonstaceyr theengineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT levinstevend theengineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT kimbungyengoraymond theengineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT akutsumasato theengineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT loganderekt theengineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT walsebjorn theengineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT swiderekkristinem theengineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT pengstanfordl theengineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT maurermarkf engineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT lewiskatherinee engineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT kuijperjosephl engineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT ardoureldan engineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT gudgeonchelseaj engineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT chandrasekaransiddarth engineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT mudrisherril engineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT kleistkaylan engineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT navaschris engineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT wolfsonmartinf engineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT rixonmarkw engineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT swansonryan engineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT dillonstaceyr engineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT levinstevend engineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT kimbungyengoraymond engineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT akutsumasato engineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT loganderekt engineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT walsebjorn engineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT swiderekkristinem engineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity AT pengstanfordl engineeredcd80variantfusiontherapeuticdavoceticeptcombinescheckpointantagonismwithconditionalcd28costimulationforantitumorimmunity |