Summary
Adaptmet aims to develop an advanced training program encompassing the multifaceted aspects of metastasis adaptation mechanisms, intending to equip budding researchers with the necessary skills to emerge as leaders in this field. A robust mentoring and training strategy, coupled with cutting-edge methodologies and a diverse range of complementary soft skills, are crucial to this endeavour. These skills are imparted through local and network-wide events, fostering seamless research progression, and nurturing successful career trajectories. Scientifically, Adaptmet addresses an unmet medical need by harnessing basic science to revolutionize drug development and, ultimately, enhance patient care. Specifically, scientific work packages (WPs) have been designed to approach metastasis from various functional perspectives. In order to metastasize, cancer cells must adeptly coordinate diverse cellular functions (Cell Fate - WP1). Additionally, understanding the intricate interactions between metastatic cells, the host immune system, and tissue stroma is pivotal (Environment – WP2). Crucial aspects such as the kinetics of metastasis and the mechanisms governing latency, particularly, remain inadequately understood (Latency – WP3). Clarifying this complexity, unravelling mechanisms underlying therapy failure, and identifying expansion pathways are central to defining novel therapeutic targets (Expansion – WP4). In essence, Adaptmet stands at the intersection of a rapidly evolving multidisciplinary domain, amalgamating distinct fields that often face challenges in mutual communication. The success of Adaptmet hinges upon robust partnerships, open exchange of ideas, state-of-the-art methodologies and equipment, and the exploitation of synergistic opportunities among network members. This collaboration spans diverse perspectives, bridging gaps between different disciplines, thereby breaking down barriers and fostering interdisciplinary cohesion.
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More information & hyperlinks
Web resources: | https://cordis.europa.eu/project/id/101169223 |
Start date: | 01-03-2025 |
End date: | 28-02-2029 |
Total budget - Public funding: | - 3 516 631,00 Euro |
Cordis data
Original description
Adaptmet aims to develop an advanced training program encompassing the multifaceted aspects of metastasis adaptation mechanisms, intending to equip budding researchers with the necessary skills to emerge as leaders in this field. A robust mentoring and training strategy, coupled with cutting-edge methodologies and a diverse range of complementary soft skills, are crucial to this endeavour. These skills are imparted through local and network-wide events, fostering seamless research progression, and nurturing successful career trajectories. Scientifically, Adaptmet addresses an unmet medical need by harnessing basic science to revolutionize drug development and, ultimately, enhance patient care. Specifically, scientific work packages (WPs) have been designed to approach metastasis from various functional perspectives. In order to metastasize, cancer cells must adeptly coordinate diverse cellular functions (Cell Fate - WP1). Additionally, understanding the intricate interactions between metastatic cells, the host immune system, and tissue stroma is pivotal (Environment – WP2). Crucial aspects such as the kinetics of metastasis and the mechanisms governing latency, particularly, remain inadequately understood (Latency – WP3). Clarifying this complexity, unravelling mechanisms underlying therapy failure, and identifying expansion pathways are central to defining novel therapeutic targets (Expansion – WP4). In essence, Adaptmet stands at the intersection of a rapidly evolving multidisciplinary domain, amalgamating distinct fields that often face challenges in mutual communication. The success of Adaptmet hinges upon robust partnerships, open exchange of ideas, state-of-the-art methodologies and equipment, and the exploitation of synergistic opportunities among network members. This collaboration spans diverse perspectives, bridging gaps between different disciplines, thereby breaking down barriers and fostering interdisciplinary cohesion.Status
SIGNEDCall topic
HORIZON-MSCA-2023-DN-01-01Update Date
15-11-2024
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