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ENVERESP SIGNED

Crosstalk between nuclear envelope and DNA Damage Response: Role of nucleoporin TPR in the maintenance of genomic integrity

Total Cost €

0

EC-Contrib. €

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Partnership

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 Outcomes and results

 ENVERESP project word cloud

Explore the words cloud of the ENVERESP project. It provides you a very rough idea of what is the project "ENVERESP" about.

envelope    lesions    region    mutagenesis    solid    intracranial    damaged    barrier    significantly    cells    chromatin    ddr    proto    prevents    liver    counteract    cancer8    oncogenes    nucleoporin    checkpoint    found    condensation    body    damage    molecular    binding    ependymomas9    genes    network    met    proteins    maintenance    detect    kinases    genesis    genomics    types    cell    phosphorylated    terminal    tumors    cancer    threats    tumor    pediatric    dna    tpr    deregulated    survival    microscopy    biological    responsive    signaling    proteomics    technologies    expression    electron    critical    development2    optimize    profiling    human    previously    ing    raf    leads    treatments    silac    networks    replication    repair    genome    mutation    nuclear    mechanism    each    vitro    shorter    fused    employing    serves    extensive    linked    mechanistic    atm    domain    thousands    oncogenesis    protein    day    genetics    promoter    signal    interestingly    atr    imaging    amplification    pore    domains    principles    kinase    translocated    their    stability    progression    posed    receives    therapies    breast    proteomic    patients   

Project "ENVERESP" data sheet

The following table provides information about the project.

Coordinator		 IFOM FONDAZIONE ISTITUTO FIRC DI ONCOLOGIA MOLECOLARE 

Organization address
address: VIA ADAMELLO 16
city: MILANO
postcode: 20139
website: www.ifom-firc.it

contact info
title: n.a.
name: n.a.
surname: n.a.
function: n.a.
email: n.a.
telephone: n.a.
fax: n.a.
 Coordinator Country Italy [IT]
 Total cost 168˙277 €
 EC max contribution 168˙277 € (100%)
 Programme 1. H2020-EU.1.3.2. (Nurturing excellence by means of cross-border and cross-sector mobility)
 Code Call H2020-MSCA-IF-2015
 Funding Scheme MSCA-IF-EF-ST
 Starting year 2016
 Duration (year-month-day) from 2016-04-01   to  2018-03-31

 Partnership

Take a look of project's partnership.

# participants  country  role  EC contrib. [€] 
1    IFOM FONDAZIONE ISTITUTO FIRC DI ONCOLOGIA MOLECOLARE IT (MILANO) coordinator 168˙277.00

Map

 Project objective

Each cell in the human body receives thousands of DNA lesions per day. To counteract threats posed by DNA damage, cells have evolved an integrated signaling network called the DNA-damage response (DDR). This mechanism allows cells to detect DNA lesions, signal their presence and promote their repair. Mutation of DDR genes, which serves as a biological barrier against tumor progression, leads to cancer development2. A large-scale proteomic analysis of proteins phosphorylated in response to DNA damage by checkpoint kinases ATM and ATR identified extensive protein networks responsive to DNA damage. Interestingly, among the proteins identified to be phosphorylated upon DNA damage were several nuclear pore complex factors including nucleoporin Translocated Promoter Region (TPR)5. TPR was previously linked to cancer since its N-terminal domain has been found fused with the protein kinase domains of various proto-oncogenes such as RAF and MET resulting in human solid tumors. TPR expression level was found deregulated in many types of human tumors such as breast and liver cancer8. Amplification of TPR was also significantly associated with a shorter survival of patients with pediatric intracranial ependymomas9. All these findings support a critical role for TPR in the mechanism of oncogenesis. By employing state-of-the-art proteomics (SILAC), genetics (in vitro mutagenesis), genomics (DNA binding profiling) and imaging (electron microscopy) technologies we will investigate how TPR prevents tumor genesis via its role in the DDR network coordinating DNA repair, DNA replication and chromatin condensation with the nuclear envelope upon DNA damage. Providing mechanistic insight into the role of TPR in DDR and the maintenance of genome stability will not only contribute to our understanding of molecular principles of response to damaged DNA, but will allow us to optimize existing cancer treatments and design new molecular targeted therapies in the future.

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