Engineering a Self-Assembling Leucine Zipper Hydrogel System with Function-Specific Motifs for Tissue Regeneration.

ACS Biomater Sci Eng

Brodie Tooth Development Genetics & Regenerative Medicine Research Laboratory Department of Oral Biology, University of Illinois at Chicago, 801 South Paulina Street, Room 561C, Chicago, Illinois 60612, United States.

Published: May 2020

Protein-based self-assembling hydrogels can exhibit remarkably tunable properties as a scaffold for regenerative medicine applications. In this study, we sought to develop a leucine zipper (LZ) based self-assembling hydrogel with function-specific motifs for tissue-specific regeneration. As a proof-of-concept approach, we incorporated (a) calcium-binding domains ESQES and QESQSEQS derived from dentin matrix protein 1 (DMP1) and (b) an heparin-binding domain adjacent preceded by an MMP2 (matrix metalloprotease 2) cleavage site to facilitate loading of heparin binding growth factors, such as BMP-2, VEGF, and TGF-β1, and their release in vivo by endogenous MMP2 proteolytic cleavage. These scaffolds were characterized and evaluated in vitro and in vivo. In vivo studies highlighted the potential of the engineered LZ hydrogel with respect to osteogenic differentiation of stem cells. The premineralized LZ scaffold loaded with HMSCs showed an enhanced osteoinductive property when compared with the control nonmineralized scaffold. The LZ backbone with heparin-binding domain containing an MMP2 cleavage site facilitated tethering of heparin-binding growth factors, such as VEGF, TGF-β1 and BMP2 and demonstrated controlled release of these active growth factor both in vitro and in vivo and demonstrated growth factor specific activity in vivo (BMP-2 and TGF-β1). Overall, we present a versatile protein based self-assembling system with tunable properties for tissue regeneration.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8080846PMC
http://dx.doi.org/10.1021/acsbiomaterials.0c00026DOI Listing

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