Abstract One of the hallmarks of cancer is the inherent instability of the genome leading to multiple genomic alterations and epigenetic changes that ultimately drive carcinogenesis. These processes lead to a unique molecular profile of every given tumor and to substantial intratumoral heterogeneity of cancer tissues. Recently, a series of independent reports revealed that pre-formed neoantigen specific T-cell responses are of crucial relevance for the clinical efficacy of immune checkpoint inhibitors. However, spontaneous immune recognition of neoantigens seems to be a rare event with only less than 1% of mutations inducing a T-cell response in the tumor-bearing patient. Accordingly, only patients with a high burden of mutations profit from currently approved therapies. To overcome this restriction, the IVAC® MUTANOME-project harnesses the individual patient's mutation profile by manufacturing highly potent neoantigen-coding RNA vaccines. To this end, the individual mutation repertoire is identified by next-generation-sequencing, potentially immunogenic mutations are selected and incorporated into a poly-epitopic RNA vaccine that is tailored to activate and expand the individual patient's neoantigen-specific CD4+ and CD8+ T cells. A phase I study to test this novel concept of an active individualized cancer vaccine for the treatment of malignant melanoma was initiated in 2013 (NCT02035956). Notably, BioNTech RNA Pharmaceutical's IVAC® MUTANOME trial is the first-in-human trial that introduces a fully personalized RNA vaccine for the treatment of malignant melanoma. The objective of this clinical trial is to study the feasibility, safety, tolerability, immunogenicity and the potential clinical activity of the IVAC® MUTANOME approach. The recruitment of a patient into the trial triggers the multi-step IVAC® MUTANOME process covering (i) the receipt and processing of tumor and blood sample specimens, (ii) the identification, prioritization and confirmation of mutations, (iii) testing of pre-existing immunity against identified tumor mutations, (iv) the selection of mutant neoantigen sequences as vaccine targets, (v) design, production of a DNA lead structure, (vi) GMP manufacturing and release of the patient-specific mRNA, (vii) shipment to the clinical trial site and (viii) the administration of the IMP to patients. Detailed information on the trial, the recruitment and treatment status as well as data on the assessment of vaccine induced immune responses will be presented. Citation Format: Matthias Miller, Carmen Loquai, Björn-Philipp Kloke, Sebastian Attig, Nicole Bidmon, Stefanie Bolte, Valesca Bukur, Evelyna Derhovanessian, Jan Diekmann, Angela Filbry, Sandra Heesch, Christoph Hoeller, Klaus Kuehlcke, David Langer, Martin Loewer, Felicitas Mueller, Inga Ortseifer, Burkhard Otte, Anna Paruzynski, Richard Rae, Barbara Schroers, Christine Seck, Kristina Spiess, Arbel D. Tadmor, Isabel Vogler, Mathias Vormehr, Alexandra Kemmer-Brueck, Andreas N. Kuhn, Ulrich Luxemburger, Sebastian Kreiter, Jochen Utikal, Stephan Grabbe, Oezlem Tuereci, Ugur Sahin. IVAC® MUTANOME - A first-in-human phase I clinical trial targeting individual mutant neoantigens for the treatment of melanoma. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr CT022.