Cargando…
Peptide-TLR-7/8a conjugate vaccines chemically programmed for nanoparticle self-assembly enhance CD8 T cell immunity to tumor antigens
Personalized cancer vaccines (PCVs) targeting patient-specific neoantigens are a promising cancer treatment modality; however, neoantigen physicochemical variability can present challenges to manufacturing PCVs in an optimal format for inducing anticancer T cells. Here, we developed a vaccine platfo...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
2020
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7065950/ https://www.ncbi.nlm.nih.gov/pubmed/31932728 http://dx.doi.org/10.1038/s41587-019-0390-x |
| _version_ | 1783505145616662528 |
|---|---|
| author | Lynn, Geoffrey M. Sedlik, Christine Baharom, Faezzah Zhu, Yaling Ramirez-Valdez, Ramiro A. Coble, Vincent L. Tobin, Kennedy Nichols, Sarah R. Itzkowitz, Yaakov Zaidi, Neeha Gammon, Joshua M. Blobel, Nicolas J. Denizeau, Jordan de la Rochere, Philippe Francica, Brian J. Decker, Brennan Maciejewski, Mateusz Cheung, Justin Yamane, Hidehiro Smelkinson, Margery G. Francica, Joseph R. Laga, Richard Bernstock, Joshua D. Seymour, Leonard W. Drake, Charles G. Jewell, Christopher M. Lantz, Olivier Piaggio, Eliane Ishizuka, Andrew S. Seder, Robert A. |
| author_facet | Lynn, Geoffrey M. Sedlik, Christine Baharom, Faezzah Zhu, Yaling Ramirez-Valdez, Ramiro A. Coble, Vincent L. Tobin, Kennedy Nichols, Sarah R. Itzkowitz, Yaakov Zaidi, Neeha Gammon, Joshua M. Blobel, Nicolas J. Denizeau, Jordan de la Rochere, Philippe Francica, Brian J. Decker, Brennan Maciejewski, Mateusz Cheung, Justin Yamane, Hidehiro Smelkinson, Margery G. Francica, Joseph R. Laga, Richard Bernstock, Joshua D. Seymour, Leonard W. Drake, Charles G. Jewell, Christopher M. Lantz, Olivier Piaggio, Eliane Ishizuka, Andrew S. Seder, Robert A. |
| author_sort | Lynn, Geoffrey M. |
| collection | PubMed |
| description | Personalized cancer vaccines (PCVs) targeting patient-specific neoantigens are a promising cancer treatment modality; however, neoantigen physicochemical variability can present challenges to manufacturing PCVs in an optimal format for inducing anticancer T cells. Here, we developed a vaccine platform (“SNP-7/8a”) based on charge-modified peptide-TLR-7/8a conjugates that are chemically programmed to self-assemble into nanoparticles of uniform size (~20 nm) irrespective of the peptide antigen composition. This approach provided precise loading of diverse peptide neoantigens linked to TLR-7/8a (adjuvant) in nanoparticles that increased uptake by and activation of antigen-presenting cells that promote T cell immunity. Vaccination of mice with SNP-7/8a using predicted neoantigens (n=179) from three tumor models induced CD8 T cells against ~50% of neoantigens with high predicted MHC-I binding affinity and led to enhanced tumor clearance. SNP-7/8a delivering in silico-designed mock neoantigens also induced CD8 T cells in non-human primates. Altogether, SNP-7/8a is a generalizable approach for co-delivering peptide antigens and adjuvants in nanoparticles for inducing anticancer T cell immunity. |
| format | Online Article Text |
| id | pubmed-7065950 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2020 |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-70659502020-07-13 Peptide-TLR-7/8a conjugate vaccines chemically programmed for nanoparticle self-assembly enhance CD8 T cell immunity to tumor antigens Lynn, Geoffrey M. Sedlik, Christine Baharom, Faezzah Zhu, Yaling Ramirez-Valdez, Ramiro A. Coble, Vincent L. Tobin, Kennedy Nichols, Sarah R. Itzkowitz, Yaakov Zaidi, Neeha Gammon, Joshua M. Blobel, Nicolas J. Denizeau, Jordan de la Rochere, Philippe Francica, Brian J. Decker, Brennan Maciejewski, Mateusz Cheung, Justin Yamane, Hidehiro Smelkinson, Margery G. Francica, Joseph R. Laga, Richard Bernstock, Joshua D. Seymour, Leonard W. Drake, Charles G. Jewell, Christopher M. Lantz, Olivier Piaggio, Eliane Ishizuka, Andrew S. Seder, Robert A. Nat Biotechnol Article Personalized cancer vaccines (PCVs) targeting patient-specific neoantigens are a promising cancer treatment modality; however, neoantigen physicochemical variability can present challenges to manufacturing PCVs in an optimal format for inducing anticancer T cells. Here, we developed a vaccine platform (“SNP-7/8a”) based on charge-modified peptide-TLR-7/8a conjugates that are chemically programmed to self-assemble into nanoparticles of uniform size (~20 nm) irrespective of the peptide antigen composition. This approach provided precise loading of diverse peptide neoantigens linked to TLR-7/8a (adjuvant) in nanoparticles that increased uptake by and activation of antigen-presenting cells that promote T cell immunity. Vaccination of mice with SNP-7/8a using predicted neoantigens (n=179) from three tumor models induced CD8 T cells against ~50% of neoantigens with high predicted MHC-I binding affinity and led to enhanced tumor clearance. SNP-7/8a delivering in silico-designed mock neoantigens also induced CD8 T cells in non-human primates. Altogether, SNP-7/8a is a generalizable approach for co-delivering peptide antigens and adjuvants in nanoparticles for inducing anticancer T cell immunity. 2020-01-13 2020-03 /pmc/articles/PMC7065950/ /pubmed/31932728 http://dx.doi.org/10.1038/s41587-019-0390-x Text en Users may view, print, copy, and download text and data-mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use:http://www.nature.com/authors/editorial_policies/license.html#terms |
| spellingShingle | Article Lynn, Geoffrey M. Sedlik, Christine Baharom, Faezzah Zhu, Yaling Ramirez-Valdez, Ramiro A. Coble, Vincent L. Tobin, Kennedy Nichols, Sarah R. Itzkowitz, Yaakov Zaidi, Neeha Gammon, Joshua M. Blobel, Nicolas J. Denizeau, Jordan de la Rochere, Philippe Francica, Brian J. Decker, Brennan Maciejewski, Mateusz Cheung, Justin Yamane, Hidehiro Smelkinson, Margery G. Francica, Joseph R. Laga, Richard Bernstock, Joshua D. Seymour, Leonard W. Drake, Charles G. Jewell, Christopher M. Lantz, Olivier Piaggio, Eliane Ishizuka, Andrew S. Seder, Robert A. Peptide-TLR-7/8a conjugate vaccines chemically programmed for nanoparticle self-assembly enhance CD8 T cell immunity to tumor antigens |
| title | Peptide-TLR-7/8a conjugate vaccines chemically programmed for
nanoparticle self-assembly enhance CD8 T cell immunity to tumor
antigens |
| title_full | Peptide-TLR-7/8a conjugate vaccines chemically programmed for
nanoparticle self-assembly enhance CD8 T cell immunity to tumor
antigens |
| title_fullStr | Peptide-TLR-7/8a conjugate vaccines chemically programmed for
nanoparticle self-assembly enhance CD8 T cell immunity to tumor
antigens |
| title_full_unstemmed | Peptide-TLR-7/8a conjugate vaccines chemically programmed for
nanoparticle self-assembly enhance CD8 T cell immunity to tumor
antigens |
| title_short | Peptide-TLR-7/8a conjugate vaccines chemically programmed for
nanoparticle self-assembly enhance CD8 T cell immunity to tumor
antigens |
| title_sort | peptide-tlr-7/8a conjugate vaccines chemically programmed for
nanoparticle self-assembly enhance cd8 t cell immunity to tumor
antigens |
| topic | Article |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7065950/ https://www.ncbi.nlm.nih.gov/pubmed/31932728 http://dx.doi.org/10.1038/s41587-019-0390-x |
| work_keys_str_mv | AT lynngeoffreym peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens AT sedlikchristine peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens AT baharomfaezzah peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens AT zhuyaling peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens AT ramirezvaldezramiroa peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens AT coblevincentl peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens AT tobinkennedy peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens AT nicholssarahr peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens AT itzkowitzyaakov peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens AT zaidineeha peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens AT gammonjoshuam peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens AT blobelnicolasj peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens AT denizeaujordan peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens AT delarocherephilippe peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens AT francicabrianj peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens AT deckerbrennan peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens AT maciejewskimateusz peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens AT cheungjustin peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens AT yamanehidehiro peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens AT smelkinsonmargeryg peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens AT francicajosephr peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens AT lagarichard peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens AT bernstockjoshuad peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens AT seymourleonardw peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens AT drakecharlesg peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens AT jewellchristopherm peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens AT lantzolivier peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens AT piaggioeliane peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens AT ishizukaandrews peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens AT sederroberta peptidetlr78aconjugatevaccineschemicallyprogrammedfornanoparticleselfassemblyenhancecd8tcellimmunitytotumorantigens |