Towards a cancer mission in Horizon Europe: recommendations.

A comprehensive translational cancer research approach focused on personalized and precision medicine, and covering the entire cancer research-care-prevention continuum has the potential to achieve in 2030 a 10-year cancer-specific survival for 75% of patients diagnosed in European Union (EU) member states with a well-developed healthcare system. Concerted actions across this continuum that spans from basic and preclinical research through clinical and prevention research to outcomes research, along with the establishment of interconnected high-quality infrastructures for translational research, clinical and prevention trials and outcomes research, will ensure that science-driven and social innovations benefit patients and individuals at risk across the EU. European infrastructures involving comprehensive cancer centres (CCCs) and CCC-like entities will provide researchers with access to the required critical mass of patients, biological materials and technological resources and can bridge research with healthcare systems. Here, we prioritize research areas to ensure a balanced research portfolio and provide recommendations for achieving key targets. Meeting these targets will require harmonization of EU and national priorities and policies, improved research coordination at the national, regional and EU level and increasingly efficient and flexible funding mechanisms. Long-term support by the EU and commitment of Member States to specialized schemes are also needed for the establishment and sustainability of trans-border infrastructures and networks. In addition to effectively engaging policymakers, all relevant stakeholders within the entire continuum should consensually inform policy through evidence-based advice

Serine phosphorylation regulates paxillin turnover during cell migration

BACKGROUND: Paxillin acts as an adaptor protein that localizes to focal adhesion. This protein is regulated during cell migration by phosphorylation on tyrosine, serine and threonine residues. Most of these phosphorylations have been implicated in the regulation of different steps of cell migration. The two major phosphorylation sites of paxillin in response to adhesion to an extracellular matrix are serines 188 and 190. However, the function of this phosphorylation event remains unknown. The purpose of this work was to determine the role of paxillin phosphorylation on residues S188 and S190 in the regulation of cell migration. RESULTS: We used NBT-II epithelial cells that can be induced to migrate when plated on collagen. To examine the role of paxillin serines 188/190 in cell migration, we constructed an EGFP-tagged paxillin mutant in which S188/S190 were mutated into unphosphorylatable alanine residues. We provide evidence that paxillin is regulated by proteasomal degradation following polyubiquitylation of the protein. During active cell migration on collagen, paxillin is protected from proteasome-dependent degradation. We demonstrate that phosphorylation of serines 188/190 is necessary for the protective effect of collagen. In an effort to understand the physiological relevance of paxillin protection from degradation, we show that cells expressing the paxillin S188/190A interfering mutant spread less, have reduced protrusive activity but migrate more actively. CONCLUSION: Our data demonstrate for the first time that serine-regulated degradation of paxillin plays a key role in the modulation of membrane dynamics and consequently, in the control of cell motility

Régulation de la paxilline, un composant majeur des contacts focaux, pendant la migration cellulaire

Lors de la migration cellulaire nécessite, les contacts focaux, points d'ancrage des cellules à la matrice extracellulaire, constituent des sites particulièrement remaniés. La paxilline en est un des composants protéiques essentiels. Ce travail de thèse a porté sur l étude de la dégradation de la paxilline pendant la migration cellulaire et de la régulation de ce phénomène par phosphorylation. Nous nous sommes plus particulièrement intéressés aux sérines 188/190, les deux résidus principalement phosphorylés en réponse à l adhésion cellulaire mais dont la fonction restait à découvrir. Nous avons pu montrer que la paxilline est dégradée par la voie protéasomale et que, lorsque les cellules migrent, la dégradation de la paxilline est retardée. De plus, ce retard de dégradation requiert la phosphorylation des sérines 188/190. Nous avons également pu montrer que la phosphorylation des sérines 188/190 régule l étalement, la migration cellulaire, et la dynamique des protrusions membranaires.PARIS-BIUSJ-Thèses (751052125) / SudocPARIS-BIUSJ-Physique recherche (751052113) / SudocSudocFranceF

Towards a cancer mission in Horizon Europe: recommendations

Sistemes sanitaris europeus; Missió del càncer; Política científicaSistemas sanitarios europeos; Misión del cáncer; Política científicaEuropean healthcare systems; Cancer mission; Science policyA comprehensive translational cancer research approach focused on personalized and precision medicine, and covering the entire cancer research–care–prevention continuum has the potential to achieve in 2030 a 10-year cancer-specific survival for 75% of patients diagnosed in European Union (EU) member states with a well-developed healthcare system. Concerted actions across this continuum that spans from basic and preclinical research through clinical and prevention research to outcomes research, along with the establishment of interconnected high-quality infrastructures for translational research, clinical and prevention trials and outcomes research, will ensure that science-driven and social innovations benefit patients and individuals at risk across the EU. European infrastructures involving comprehensive cancer centres (CCCs) and CCC-like entities will provide researchers with access to the required critical mass of patients, biological materials and technological resources and can bridge research with healthcare systems. Here, we prioritize research areas to ensure a balanced research portfolio and provide recommendations for achieving key targets. Meeting these targets will require harmonization of EU and national priorities and policies, improved research coordination at the national, regional and EU level and increasingly efficient and flexible funding mechanisms. Long-term support by the EU and commitment of Member States to specialized schemes are also needed for the establishment and sustainability of trans-border infrastructures and networks. In addition to effectively engaging policymakers, all relevant stakeholders within the entire continuum should consensually inform policy through evidence-based advice

La médecine de précision en oncologie : challenges, enjeux et nouveaux paradigmes

International audienceL’oncologie médicale a pris, depuis quelques années, un tournant substantiel en intégrant la dimension génomique dans la prise de décision thérapeutique. En raison de l’accès aux technologies de séquençage (exome complet, séquençage ciblé du génome, séquençage de l’ARN, ADN circulant…) facilité par la mise en place de plateformes de biologie moléculaire et la diminution des coûts par échantillon, la caractérisation moléculaire est devenue un outil supplémentaire à la disposition du clinicien, s’ajoutant au diagnostic histologique et immunohistochimique et aux données d’imagerie radiologique. Cette approche moléculaire a permis d’identifier de nouvelles formes nosologiques et permet, au-delà de l’aspect cognitif, de renseigner sur les altérations qui sont à prendre en compte dans les décisions thérapeutiques (biomarqueurs prédictifs, activation de voies spécifiques, mutations de résistance). C’est dans ce contexte de profond et rapide changement de pratique médicale et scientifique qu’il a été proposé de réfléchir collectivement aux nouveaux enjeux sous la forme d’un workshop à l’occasion de Biovision qui s’est tenu à Lyon, du 4 au 6 avril 2017. Biovision est un forum international dédié à la Santé et aux Sciences de la vie, qui réunit sur quelques jours des communautés scientifiques, académiques et industrielles dans le but d’accélérer l’innovation. Lors de la 12e édition en avril 2017, le CLARA, l’Institut Roche ainsi que le SIRIC de Lyon ont donc organisé un workshop autour de la médecine de précision (« Precision medicine in oncology: challenges, stakes and new paradigms »). Des experts ainsi que des participants de différents horizons ont échangé sur le sujet afin de proposer des mesures clé

Towards a cancer mission in Horizon Europe: recommendations

A comprehensive translational cancer research approach focused on personalized and precision medicine, and covering the entire cancer research-care-prevention continuum has the potential to achieve in 2030 a 10-year cancer-specific survival for 75% of patients diagnosed in European Union (EU) member states with a well-developed healthcare system. Concerted actions across this continuum that spans from basic and preclinical research through clinical and prevention research to outcomes research, along with the establishment of interconnected high-quality infrastructures for translational research, clinical and prevention trials and outcomes research, will ensure that science-driven and social innovations benefit patients and individuals at risk across the EU. European infrastructures involving comprehensive cancer centres (CCCs) and CCC-like entities will provide researchers with access to the required critical mass of patients, biological materials and technological resources and can bridge research with healthcare systems. Here, we prioritize research areas to ensure a balanced research portfolio and provide recommendations for achieving key targets. Meeting these targets will require harmonization of EU and national priorities and policies, improved research coordination at the national, regional and EU level and increasingly efficient and flexible funding mechanisms. Long-term support by the EU and commitment of Member States to specialized schemes are also needed for the establishment and sustainability of trans-border infrastructures and networks. In addition to effectively engaging policymakers, all relevant stakeholders within the entire continuum should consensually inform policy through evidence-based advice

MICAL-like1 mediates epidermal growth factor receptor endocytosis

MICAL-like1 (MICAL-L1), a Rab13 effector, is associated with late endosomes and regulates epidermal growth factor receptor trafficking. The N-terminal calponin (CH) domain associates with the C-terminal Rab13 binding domain (RBD) of MICAL-L1. The binding of Rab13 to RBD disrupts the CH/RBD interaction and may induce a conformational change in MICAL-L1, promoting its activation