EU H2020 Project "DREMATURE (DNA repair mechanisms and therapy resistance of BRCA2-deficient cancers)": description, partecipants, costs and EC-fundings

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DREMATURE project word cloud

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

die death drug organoid largely deficient synthetic vivo tumors closely rely patient hr genes intact ovarian smart defect damage start animals survival candidate strategies am genetically treatments efficacy decision overcome functional poly basic tumor interesting mouse human lethality escape screens innovative dynamics parpi mdc1 cultures 3d recombination reduces disease driving generation resistant jammed function patients adp despite synergizing expertise resistance lack whereas believe clinical brca1 genetic spontaneous imaging anti dna breast normal biosensors disseminated oncology visualize survive crispr engineered ribose physiologically polymerase strategy unknown cas9 sequencing modern cancers mechanisms yielded mimics image specificity therapy occurs vitro alternative candidates treatment convinced cells existence brca2 employ cancer molecular repair inhibitors homologous combination sophisticated claspin model

Project "DREMATURE" data sheet

The following table provides information about the project.

Coordinator	UNIVERSITAET BERN Organization address address: HOCHSCHULSTRASSE 6 city: BERN postcode: 3012 website: http://www.unibe.ch 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	Switzerland [CH]
Total cost	187˙419 €
EC max contribution	187˙419 € (100%)
Programme	1. H2020-EU.1.3.2. (Nurturing excellence by means of cross-border and cross-sector mobility)
Code Call	H2020-MSCA-IF-2016
Funding Scheme	MSCA-IF-EF-ST
Starting year	2018
Duration (year-month-day)	from 2018-01-01 to 2019-12-31

#	participants	country	role	EC contrib. [€]
1	UNIVERSITAET BERN	CH (BERN)	coordinator	187˙419.00

UNIVERSITAET BERN

CH (BERN)

coordinator

187˙419.00

Project objective

Despite the existence of various novel anti-cancer treatments, drug resistance remains a major cause of death in patients with disseminated cancer. To increase specificity and efficacy, modern treatment strategies in molecular oncology employ the “synthetic lethality” concept. An example are BRCA1/2-deficient breast and ovarian cancers that lack DNA repair by homologous recombination (HR). Due to this defect, tumor cells rely more on other DNA repair pathways. When such alternative pathways are jammed, e.g. by poly(ADP-ribose) polymerase inhibitors (PARPi), normal cells with intact HR can survive, whereas cancer cells die. However, even with this sophisticated treatment strategy, resistance to PARPi still occurs and greatly reduces patient survival. The mechanisms driving this resistance are still largely unknown. The main goal of this project is to advance the knowledge on therapy resistance by using a genetically engineered mouse model of BRCA2-deficient breast cancer, which closely mimics the human disease. Like in patients, cancer cells in these animals eventually escape from therapy. I will start by synergizing the next generation sequencing analysis of spontaneous resistant mouse tumors with functional genetic screens using the CRISPR/Cas9 technology. This combination has yielded interesting candidate genes whose loss of function may cause resistance. Two promising candidates, MDC1 and Claspin, will be further investigated using innovative and physiologically relevant 3D tumor organoid cultures. Moreover, I will apply my expertise in modern imaging technology to develop novel approaches to visualize DNA repair dynamics in resistant tumors in vitro and in vivo. I am convinced that by understanding basic resistance mechanisms, smart biosensors can be built to image the DNA damage response and eventually improve clinical decision making. I believe this project will have an impact on the design of strategies to overcome therapy escape in human cancer patients.

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