Gene and Cell Therapy Funding Opportunities in Horizon 2020: An Overview for 2014–2015

Abstract

Since 1984, the European Commission has undertaken seven framework programs (FPs), dedicated to research and innovation, that ran for 5–7-year periods. During the fifth, sixth, and seventh FPs, more than €351 million has been invested in 110 projects in the gene transfer and gene therapy field (Table 1). While in FP5 and FP6, support was allocated mostly to small projects addressing specific problems such as refining targeted gene delivery or transgene expression in specific cells, the large-scale collaborative projects of FP6 and FP7 brought this research field from bench to bedside by gathering the critical mass of scientific expertise. Table 1. European Union Support to Gene Transfer and Gene Therapy Projects Over the Yearsa Presently, 15 FP7 gene therapy projects include clinical trials mostly for patients suffering from a rare disease or cancer, but also from more frequent disorders such as severe fetal growth restriction or age-related macular degeneration. Some of those projects (as well as their participants) derive directly from research and technologies developed in previous FPs. For example, the projects Cell-PID, performing clinical trials for primary immunodeficiencies (PIDs), and SUPERSIST, developing scale-up production of targeted genetic correction of hematopoietic stem cells and T cells for PIDs and leukemia, both derive from former FP7 PERSIST (refinement of gene therapy vectors for persisting transgenesis) and FP6 CONSERT (safety and efficiency evaluation of retroviral transgenesis) collaborative projects (ec.europa.eu/research/health/biotechnology/new-therapies/projects-fp7-gt_en.html). The specificity of these collaborative grants lies in gathering international expertise in various research disciplines, from scale-up and good manufacturing practice, development of new preclinical models, and toxicology and monitoring tests to regulatory and ethical issues of clinical trials. The eighth research and innovation program, Horizon 2020 (2014–2020), is conceived as one of the central means to drive economic growth and job creation by addressing the entire innovation cycle, from basic research to implementation. In structure, Horizon 2020 has three main pillars: excellence in science, industrial leadership, and societal challenges. The challenge addressing primarily health research under the new program will have a slightly larger budget, €7.4 bn, compared with previous programs (€2.65 bn in FP6 and €6.2 bn in FP7). The first calls for societal challenges of “health, demographic change, and wellbeing” are published. Applicants are expected to focus on problem solving, and therefore gene and cell therapy projects could find funding opportunities in topics advertising chronic or rare disease research as well as regenerative medicine or advanced therapies (Table 2). Table 2. Selection of Horizon 2020 Funding Opportunities for Gene and Cell Therapy Projects The topic “clinical research on regenerative medicine” will be open for 2 years, providing sequential or iterative opportunities to proposals ready to test in the clinic new regenerative applications. The field has considerably developed during recent years and is now ripe for clinical challenges. The topics on rare diseases (one in 2014, two in 2015) will support the general objectives of the International Rare Diseases Research Consortium (IRDiRC), initially established by the European Commission and the U.S. National Institutes for Health Research in 2011. The consortium aims at developing 200 new therapies and the means to diagnose most rare diseases by 2020. The challenges at stake are too ambitious for any country to master alone; therefore, IRDiRC now counts more than 35 funding members from four continents (www.irdirc.org/). Included in the same call, a support action for European reference networks promotes cross-border cooperation among member states. These networks are meant to improve access to and provision of high-quality specialized health care to patients and to act as focal points for medical training and research and information dissemination and evaluation, especially for rare diseases. The topics “tools and technologies for advanced therapies” and “therapies for chronic noncommunicable diseases” offer as well interesting opportunities for innovation in the gene and cell therapy field. Moreover, the first pillar of Horizon 2020 offers opportunities for frontier research science via its European Research Council grants (erc.europa.eu/funding-and-grants), for international training via its Marie Sklodowska-Curie actions (ec.europa.eu/programmes/horizon2020/en/h2020-section/marie-sk%C5%82odowska-curie-actions) and for development of international infrastructure platforms (which explicitly mention the rare disease research) and key enabling technologies. The second pillar will ensure support to research and innovation performers, including significant, tailored support to small and medium-sized enterprises for which a dedicated instrument has been developed (ec.europa.eu/research/participants/portal/desktop/en/opportunities/h2020/index.html). This is complementary to the Innovative Medicines Initiative (IMI; www.imi.europa.eu), Europe's largest public–private partnership between the Commission and the European Federation of Pharmaceutical Industries and Associations aiming at promoting the development of new, improved diagnostics and therapies for patients. A renewed IMI with a budget of €3.5 bn is forecasted for the period 2014–2020. More than ever, the European Union offers to the gene and cell therapy sector possibilities of financial support to bright and innovative consortia ready to develop, possibly in collaboration with the industry, new therapeutic applications to be tested in clinical trials or novel products for the market, and build sustainable networks of expertise in the field. Recently, the first human gene therapy product in Europe, Glybera, entered the market (www.uniqure.com/products/glybera). It constitutes one of the four advanced therapy medicinal products approved by the European Medicine Agency since 2009 (www.uniqure.com/news/167/182/uniQure-s-Glybera-First-Gene-Therapy-Approved-by-European-Commission.html). Clearly, the field benefits, after a long period of stagnation, from renewed interest from academic and industrial stakeholders, including big pharma, and will witness exciting developments in the near future.