Project description
Unveiling key aspects in the metastatic process
Metastasis is a complex process which requires cancer cells to override key cellular functions and change their interactions with the immune system and the surrounding microenvironment. Despite the fact that metastasis is one of the hallmarks of cancer, its kinetics and regulatory mechanisms are poorly understood. The scope of the EU-funded Evomet project is to dissect the metastatic cascade and its evolution and identify target mechanisms for therapy and drug development. The project will also offer a multidisciplinary training programme to early-stage researchers in state-of-the-art methodology and transferable skills for a future career in the field.
Objective
Evomet aims to create a high-level training programme on the various aspects of metastasis evolution in order to provide young researchers with skills to become future leaders in the field. To this end, it is imperative to have a solid mentoring and training strategy, a state-of-the-art scientific approach, and a broad range of complementary soft skills. Collectively, these skills will be provided to each ESR through a series of events (local and network-wide) and initiatives that will allow ESRs to ensure smooth progress of their research projects and a successful career.
Scientifically, Evomet has been designed to address an unmet medical need through leverage of basic science to impact drug development and, ultimately, improve how patients are managed. Scientific WPs tackling metastasis from a functional perspective have been defined. To metastasize, cancer cells must orchestrate diverse cellular functions to overcome the challenges inherent in the metastatic cascade (Cell Fate – WP1). These functions are also highly dependent on the interactions of the metastatic cell with the host immune system and tissue stroma (Environment – WP2). However, the kinetics of metastasis and, in particular, the mechanisms that regulate metastasis latency remain poorly understood (Latency – WP3). Mapping this complexity, examining patterns of clonal evolution, mechanisms of therapy failure, and pathways for expansion is central to defining new targets (Expansion – WP4). In summary, we are facing a fast-growing multidisciplinary area created from the aggregation of different fields that have problems communicating with each other. Evomet’s success builds on the strong relations between partners, the open exchange of ideas, state-of-the-art methodology, tools and equipment as well as the exploitation of synergistic opportunities between the network members, covering different perspectives and filling the gap between them, thus breaking the isolation between disciplines.
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Coordinator
08028 Barcelona
Spain