The GEne Therapy INnovation Training Network

HORIZON.1.2HORIZON-TMA-MSCA-DNID: 101119880
EC Contribution
€26,158
Consortium Size
15 orgs
Summary

Gene therapy has transitioned from a distant hope to reality. To date 3 rAAV gene therapies are approved in the EU, >30 phase III clinical trials ongoing, and exciting developments in therapeutic gene editing in the pipeline. However, fundamental limitations in the bioprocessing of gene therapy vectors limit broader application. Manufacturing is not automated, with an open process environment, limited scalability and robustness, and inefficient downstream processing, resulting in huge footprint and exceedingly high cost of goods. The field requires scalable manufacturing technology with modular design to produce high doses for large patient groups at a fraction of cost. Improved delivery approaches with increased specificity and efficacy at lower doses are needed to overcome emerging safety concerns observed in clinical trials. Prediction of therapeutic efficacy in man is challenging due to a species barrier, underlining the need for humanized models to reduce attrition rates in the development pipeline.To overcome these challenges, innovation driven by multidisciplinary approaches is direly needed. GET-IN is a doctoral network of 7 academic and 8 non-academic partners, with expertise in vectorology, genome editing, process engineering, biomanufacturing and innovative humanized models. Together, they provide an excellent training framework for 10 Doctoral Candidates (DCs) who will be the future innovators in the gene therapy field. Research in GET-IN will investigate disruptive innovations including optimised bioprocessing, digital simulation, novel and improved vectors and genome editors, targeted delivery systems, and human organ-on-chip models for more relevant safety and efficacy evaluation. The joint training programme will emphasise responsible, cooperative research and innovation, creativity, and entrepreneurship to maximize the career potential of the DCs.

Consortium (15)

Project Results (11)

Source: CORDIS, the EU research results database.

Publications (8)
Baboon endogenous retrovirus (ERV) envelope pseudotyped lentiviral vectors outperform human ERV lentivectors for transduction of T, B, NK and HSPCs
Gene Therapy· 2026DOI
Séverine Périan, Eva Castellano, Caroline Costa, Chiara Martinello, Anne Galy, Gisèle Froment, Rimas Orentas, Antonio Valeri, Els Verhoeyen
Combining conventional and adapter CAR T cells: An elegant solution to erase current CAR T cell limitations
Molecular Therapy· 2026DOI
Chiara Martinello, Els Verhoeyen
Cystic fibrosis at a glance: from disease mechanism to therapy
Trends in Molecular Medicine· 2025DOI
Kasper Gryspeert, Laudonia L. Dipalo, Ana L. Da Silva Cunha, Mattijs Bulcaen, Marjolein M. Ensinck, Marianne S. Carlon
Ligand-modified rAAV6 vectors with nanoblades allow high-level gene knockin in HSPCs without compromising cell survival
Molecular Therapy Nucleic Acids· 2025DOI
Alejandra Gutierrez-Guerrero, Séverine Périan, Aurélien Leray, Chiara Martinello, Maria Jimena Abrey Recalde, Caroline Costa, Cecilia Iglesias Herrero, Mohammed Bouzelha, Dimitri Alvarez-Dorta, Sébastien G. Gouin, Eduard Ayuso, Oumeya Adjali, Hildegard Büning, David Deniaud, Mathieu Mével, Els Verhoeyen
Opportunities for Microphysiological Systems in Toxicity Testing of New Drug Modalities
Annual Review of Pharmacology and Toxicology· 2025DOI
Tengku Ibrahim Maulana, Nienke R. Wevers, Theodora Kristoforus, Morgan Chandler, Henriette L. Lanz, Jos Joore, Paul Vulto, Remi Villenave, Stefan Kustermann, Peter Loskill, Kristin M. Bircsak
Trojan Horse-Like Vehicles for CRISPR-Cas Delivery: Engineering Extracellular Vesicles and Virus-Like Particles for Precision Gene Editing in Cystic Fibrosis
Human Gene Therapy· 2025DOI
Laudonia Lidia Dipalo, Jacob Giehm Mikkelsen, Rik Gijsbers, Marianne S. Carlon
Additional file 1 of In vivo CAR T cell therapy against angioimmunoblastic T cell lymphoma
· 2024DOI
Krug, Adrien; Saidane, Aymen; Martinello, Chiara; Fusil, Floriane; Michels, Alexander; Buchholz, Christian J.; Ricci, Jean-Ehrland; Verhoeyen, Els
In vivo CAR T cell therapy against angioimmunoblastic T cell lymphoma
Journal of Experimental & Clinical Cancer Research· 2024DOI
Adrien Krug, Aymen Saidane, Chiara Martinello, Floriane Fusil, Alexander Michels, Christian J. Buchholz, Jean-Ehrland Ricci, Els Verhoeyen
Deliverables (3)
Websites, patent fillings, videos etc.
Websites, patent fillings, videos etc.