Skip to main content
European Commission logo
English English
CORDIS - EU research results
CORDIS
CORDIS Web 30th anniversary CORDIS Web 30th anniversary

ENGineering extracellular matrix-based de novo proteins with high Affinity to Growth factors for Enhancing bone regeneration

Project description

Developing de novo proteins for bone regeneration

The successful regeneration of bone tissue to replace areas of bone loss remains a considerable clinical challenge. Efforts are concentrated on designing biomaterials using biomimetic strategies that use proteins from the extracellular matrix. Some of these proteins contain domains capable of binding growth factors, as in the case of the heparin binding II (HBII) domain of fibronectin that can bind bone morphogenetic proteins (BMPs). BMP-2 is a potent osteoinductive molecule. However, HBII lacks specificity for BMP-2. The EU-funded ENGAGE project will identify the hotspot sequences involved in HBII BMP-2 interaction and develop de novo proteins with high affinity to BMP-2 to further exploit them in hydrogel biomaterials to increase bone regeneration.

Objective

The successful regeneration of bone tissue to replace areas of bone loss in large defects remains a significant clinical challenge. Efforts have concentrated in the design of biomaterials using biomimetic strategies based on installing bioactivity at their surface using proteins from the extracellular matrix (ECM). Some of these ECM proteins contain domains capable of binding growth factors (GFs). This is the case of the Heparin Binding II (HBII) domain of fibronectin, which has the capacity to bind Bone Morphogenetic Proteins (BMPs). Among them, BMP-2 is known to be a potent osteoinductive molecule. However, the lack of specificity of HBII for BMP-2 limits its application. ENGAGE project aims to identify the hotspot sequences involved HBII-BMP-2 interaction and develop de novo proteins with high affinity to BMP-2 to further exploit them in hydrogel biomaterials for enhancing bone regeneration. To this end, HBII-BMP-2 will be co-crystallized to identify the sequences involved in the interaction. Based on these sequences, de novo mini-binders will be designed using Rosetta computational methodologies and optimized to have high-affinity to BMP-2. The osteoinductive capacity of the selected molecules will be analyzed and the optimal candidates will be used to functionalize hydrogel substrates. In this way, ENGAGE will open the possibility to obtain hydrogels able to sequester specific GFs from the extracellular fluids, avoiding the use of exogenous growth factors and their undesired side effects.

The candidate will be trained in new computational and lab skills for protein design under the supervision of a world leader in de novo protein design. These methodologies will be transferred to the Spanish research community for developing novel proteins for biomedical applications. In addition, the obtained skills in paper and project writing, management and leadership will have a strong impact in his competitiveness and the possibility to become an independent scientist.

Coordinator

UNIVERSITAT POLITECNICA DE CATALUNYA
Net EU contribution
€ 175 099,20
Address
CALLE JORDI GIRONA 31
08034 Barcelona
Spain

See on map

Region
Este Cataluña Barcelona
Activity type
Higher or Secondary Education Establishments
Links
Total cost
€ 175 099,20

Partners (1)