Author
Listed:
- Norbert Hilf
(Immatics Biotechnologies GmbH)
- Sabrina Kuttruff-Coqui
(Immatics Biotechnologies GmbH)
- Katrin Frenzel
(BioNTech AG)
- Valesca Bukur
(BioNTech AG)
- Stefan Stevanović
(Eberhard Karls Universität Tübingen
German Cancer Research Center Partner Site Tübingen)
- Cécile Gouttefangeas
(Eberhard Karls Universität Tübingen
German Cancer Research Center Partner Site Tübingen
working group Cancer Immunoguiding Program)
- Michael Platten
(University Hospital Heidelberg
German Cancer Research Center
Medical Faculty Mannheim)
- Ghazaleh Tabatabai
(Eberhard Karls Universität Tübingen
German Cancer Research Center Partner Site Tübingen
University Hospital Tübingen)
- Valerie Dutoit
(Geneva University Hospital)
- Sjoerd H. Burg
(working group Cancer Immunoguiding Program
Leiden University Medical Center)
- Per thor Straten
(working group Cancer Immunoguiding Program
University Hospital Herlev
University of Copenhagen)
- Francisco Martínez-Ricarte
(Vall d’Hebron University Hospital)
- Berta Ponsati
(BCN Peptides SA)
- Hideho Okada
(University of California, San Francisco
Parker Institute for Cancer Immunotherapy)
- Ulrik Lassen
(Ringhospitalet)
- Arie Admon
(Technion - Israel Institute of Technology)
- Christian H. Ottensmeier
(University of Southampton)
- Alexander Ulges
(Immatics Biotechnologies GmbH)
- Sebastian Kreiter
(BioNTech AG
working group Cancer Immunoguiding Program)
- Andreas Deimling
(University Hospital Heidelberg
German Cancer Research Center)
- Marco Skardelly
(University Hospital Tübingen)
- Denis Migliorini
(Geneva University Hospital)
- Judith R. Kroep
(Leiden University Medical Center)
- Manja Idorn
(University Hospital Herlev
University of Copenhagen)
- Jordi Rodon
(Vall d’Hebron University Hospital
M. D. Anderson Cancer Center, University of Texas)
- Jordi Piró
(BCN Peptides SA)
- Hans S. Poulsen
(Ringhospitalet)
- Bracha Shraibman
(Technion - Israel Institute of Technology)
- Katy McCann
(University of Southampton)
- Regina Mendrzyk
(Immatics Biotechnologies GmbH)
- Martin Löwer
(BioNTech AG)
- Monika Stieglbauer
(Eberhard Karls Universität Tübingen
working group Cancer Immunoguiding Program)
- Cedrik M. Britten
(BioNTech AG
working group Cancer Immunoguiding Program
Oncology R&D, GlaxoSmithKline)
- David Capper
(University Hospital Heidelberg
German Cancer Research Center
Charité, University Medicine Berlin)
- Marij J. P. Welters
(working group Cancer Immunoguiding Program
Leiden University Medical Center)
- Juan Sahuquillo
(Vall d’Hebron University Hospital)
- Katharina Kiesel
(Immatics Biotechnologies GmbH)
- Evelyna Derhovanessian
(BioNTech AG)
- Elisa Rusch
(Eberhard Karls Universität Tübingen
working group Cancer Immunoguiding Program)
- Lukas Bunse
(University Hospital Heidelberg
German Cancer Research Center)
- Colette Song
(Immatics Biotechnologies GmbH)
- Sandra Heesch
(BioNTech AG)
- Claudia Wagner
(Immatics Biotechnologies GmbH)
- Alexandra Kemmer-Brück
(BioNTech AG)
- Jörg Ludwig
(Immatics Biotechnologies GmbH)
- John C. Castle
(BioNTech AG
Agenus Inc.)
- Oliver Schoor
(Immatics Biotechnologies GmbH)
- Arbel D. Tadmor
(TRON GmbH - Translational Oncology at the University Medical Center of Johannes Gutenberg University)
- Edward Green
(German Cancer Research Center
Medical Faculty Mannheim)
- Jens Fritsche
(Immatics Biotechnologies GmbH)
- Miriam Meyer
(Immatics Biotechnologies GmbH)
- Nina Pawlowski
(Immatics Biotechnologies GmbH)
- Sonja Dorner
(Immatics Biotechnologies GmbH)
- Franziska Hoffgaard
(Immatics Biotechnologies GmbH)
- Bernhard Rössler
(Immatics Biotechnologies GmbH)
- Dominik Maurer
(Immatics Biotechnologies GmbH)
- Toni Weinschenk
(Immatics Biotechnologies GmbH)
- Carsten Reinhardt
(Immatics Biotechnologies GmbH)
- Christoph Huber
(BioNTech AG)
- Hans-Georg Rammensee
(Eberhard Karls Universität Tübingen
German Cancer Research Center Partner Site Tübingen)
- Harpreet Singh-Jasuja
(Immatics Biotechnologies GmbH)
- Ugur Sahin
(BioNTech AG)
- Pierre-Yves Dietrich
(Geneva University Hospital)
- Wolfgang Wick
(University Hospital Heidelberg
German Cancer Research Center)
Abstract
Patients with glioblastoma currently do not sufficiently benefit from recent breakthroughs in cancer treatment that use checkpoint inhibitors1,2. For treatments using checkpoint inhibitors to be successful, a high mutational load and responses to neoepitopes are thought to be essential3. There is limited intratumoural infiltration of immune cells4 in glioblastoma and these tumours contain only 30–50 non-synonymous mutations5. Exploitation of the full repertoire of tumour antigens—that is, both unmutated antigens and neoepitopes—may offer more effective immunotherapies, especially for tumours with a low mutational load. Here, in the phase I trial GAPVAC-101 of the Glioma Actively Personalized Vaccine Consortium (GAPVAC), we integrated highly individualized vaccinations with both types of tumour antigens into standard care to optimally exploit the limited target space for patients with newly diagnosed glioblastoma. Fifteen patients with glioblastomas positive for human leukocyte antigen (HLA)-A*02:01 or HLA-A*24:02 were treated with a vaccine (APVAC1) derived from a premanufactured library of unmutated antigens followed by treatment with APVAC2, which preferentially targeted neoepitopes. Personalization was based on mutations and analyses of the transcriptomes and immunopeptidomes of the individual tumours. The GAPVAC approach was feasible and vaccines that had poly-ICLC (polyriboinosinic-polyribocytidylic acid-poly-l-lysine carboxymethylcellulose) and granulocyte–macrophage colony-stimulating factor as adjuvants displayed favourable safety and strong immunogenicity. Unmutated APVAC1 antigens elicited sustained responses of central memory CD8+ T cells. APVAC2 induced predominantly CD4+ T cell responses of T helper 1 type against predicted neoepitopes.
Suggested Citation
Norbert Hilf & Sabrina Kuttruff-Coqui & Katrin Frenzel & Valesca Bukur & Stefan Stevanović & Cécile Gouttefangeas & Michael Platten & Ghazaleh Tabatabai & Valerie Dutoit & Sjoerd H. Burg & Per thor St, 2019.
"Actively personalized vaccination trial for newly diagnosed glioblastoma,"
Nature, Nature, vol. 565(7738), pages 240-245, January.
Handle:
RePEc:nat:nature:v:565:y:2019:i:7738:d:10.1038_s41586-018-0810-y
DOI: 10.1038/s41586-018-0810-y
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Cited by:
- Jim Middelburg & Marjolein Sluijter & Gaby Schaap & Büşra Göynük & Katy Lloyd & Vitalijs Ovcinnikovs & Gijs G. Zom & Renoud J. Marijnissen & Christianne Groeneveldt & Lisa Griffioen & Gerwin G. W. San, 2024.
"T-cell stimulating vaccines empower CD3 bispecific antibody therapy in solid tumors,"
Nature Communications, Nature, vol. 15(1), pages 1-15, December.
- Ashish Goyal & Jens Bauer & Joschka Hey & Dimitris N. Papageorgiou & Ekaterina Stepanova & Michael Daskalakis & Jonas Scheid & Marissa Dubbelaar & Boris Klimovich & Dominic Schwarz & Melanie Märklin &, 2023.
"DNMT and HDAC inhibition induces immunogenic neoantigens from human endogenous retroviral element-derived transcripts,"
Nature Communications, Nature, vol. 14(1), pages 1-19, December.
- Pauline Latzer & Henning Zelba & Florian Battke & Annekathrin Reinhardt & Borong Shao & Oliver Bartsch & Armin Rabsteyn & Johannes Harter & Martin Schulze & Thomas Okech & Alexander Golf & Christina K, 2024.
"A real-world observation of patients with glioblastoma treated with a personalized peptide vaccine,"
Nature Communications, Nature, vol. 15(1), pages 1-9, December.
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