NEUcrest | Training European Experts in Multiscale Studies of Neural Crest Development and Disorders: from Patient to Model Systems and Back again.

Summary
Neurocristopathies caused by defects in the neural crest (NC) encompass a broad group of diseases from birth defects (cleftvpalate) to complex syndromes affecting systems such as heart, gut and adrenals. Because NC derivatives are diverse, mutations affecting this lineage can lead to pleiotropic phenotypes making it difficult to understand the causative events. Furthermore, NC-derived cancers, (e.g. melanoma and neuroblastoma) reactivate embryonic programs during tumour initiation. Our aim is to create a unique interdisciplinary network of scientists and clinicians partners from academia, healthcare, industry and the public sector with experience in gene discovery, genetics, functional studies and in vivo phenotyping aimed at training creative and innovative ESRs to study the overall genetic, molecular and environmental regulation of NC tissue in human health. To study each of complex aspects of NC and tumour formation, NEUcrest provides a synergistic framework for comprehensive analysis of candidate genes and biological processes, from patients to model systems to pharma and back to the clinic. With the aim to develop a unified strategy to identify new genetic and environmental factors that contribute to disease and to develop new drug targets for therapeutics, ESRs will address following scientific challenges: undertake novel gene discovery approaches; establish cellular/animal models of disease; establish integrative strategies for understanding neurocristopathies; optimise computational modelling of NC gene networks; establish translational strategies for drug screening in NC-related diseases; improve clinical management strategies of NC-disease and interface with patients and the public. Our training program takes into account training through research as well as multidisciplinary partnerships and networking opportunities. All together, this will improve our understanding of the fundamentals of neurocristopathy and contribute to improvements in healthcare.
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/860635
Start date: 01-11-2019
End date: 30-04-2024
Total budget - Public funding: 4 156 404,84 Euro - 4 156 404,00 Euro
Cordis data

Original description

Neurocristopathies caused by defects in the neural crest (NC) encompass a broad group of diseases from birth defects (cleftvpalate) to complex syndromes affecting systems such as heart, gut and adrenals. Because NC derivatives are diverse, mutations affecting this lineage can lead to pleiotropic phenotypes making it difficult to understand the causative events. Furthermore, NC-derived cancers, (e.g. melanoma and neuroblastoma) reactivate embryonic programs during tumour initiation. Our aim is to create a unique interdisciplinary network of scientists and clinicians partners from academia, healthcare, industry and the public sector with experience in gene discovery, genetics, functional studies and in vivo phenotyping aimed at training creative and innovative ESRs to study the overall genetic, molecular and environmental regulation of NC tissue in human health. To study each of complex aspects of NC and tumour formation, NEUcrest provides a synergistic framework for comprehensive analysis of candidate genes and biological processes, from patients to model systems to pharma and back to the clinic. With the aim to develop a unified strategy to identify new genetic and environmental factors that contribute to disease and to develop new drug targets for therapeutics, ESRs will address following scientific challenges: undertake novel gene discovery approaches; establish cellular/animal models of disease; establish integrative strategies for understanding neurocristopathies; optimise computational modelling of NC gene networks; establish translational strategies for drug screening in NC-related diseases; improve clinical management strategies of NC-disease and interface with patients and the public. Our training program takes into account training through research as well as multidisciplinary partnerships and networking opportunities. All together, this will improve our understanding of the fundamentals of neurocristopathy and contribute to improvements in healthcare.

Status

SIGNED

Call topic

MSCA-ITN-2019

Update Date

28-04-2024
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Horizon 2020
H2020-EU.1. EXCELLENT SCIENCE
H2020-EU.1.3. EXCELLENT SCIENCE - Marie Skłodowska-Curie Actions (MSCA)
H2020-EU.1.3.1. Fostering new skills by means of excellent initial training of researchers
H2020-MSCA-ITN-2019
MSCA-ITN-2019