Journal
ACS NANO
Volume 5, Issue 3, Pages 1845-1859Publisher
AMER CHEMICAL SOC
DOI: 10.1021/nn102663a
Keywords
self-assembling peptide; self-healing scaffold; biotinylation; neural stem cell
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Funding
- Office of Science, Office of Basic Energy Sciences, of the U.S. Department of Energy [DE-AC02-05CH11231]
- University of Milano-Bicocca
- CARIPLO foundation
- Regione Lombardia
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Self-assembling peptides (SAPs) are rapidly gaining interest as bioinspired scaffolds, for cell culture and regenerative,medicine,applications., Bone Marrow Homing Peptide 1 (BMHP1) functional motif (PFSSTKT) was previously demonstrated to stimulate neural stem cell (NSC) viability and differentiation when linked to SAPs; We here describe a novel ensemble of SAPs, developed from the BMHP1 (BMHP1-SAPs), that spontaneously assemble into tabular fibers, twisted ribbons, tubes and hierarchical self-assembled,sheets: organized structures in the nano- and microscale. Thirty-two sequences were designed and evaluated, Including biotinylated and unbiotinylated sequences, as well as a hybrid peptide-peptoid sequence. Via X-ray diffraction (XRD), CD, and FTIR experiments we, demonstrated that all of the BMHP1-SAPs share similarly organized secondary structures; that Is, beta-sheets and beta-turns, despite their heterogeneous nanostructure morphology, scaffold stiffness, and effect over NSC differentiation and survival. Notably, we demonstrated the self healing propensity of most of the tested BMHP1-SAPs, enlarging the set of potential applications of these novel SAPs. In In vitro cell culture experiments, we showed that some of these 10-mer peptides foster adhesion, differentiation, and proliferation of human NSCs. RGD-functionalized and hybrid peptide-peptoid self-assembling sequences also opened the door to BMHP1-SAP functionalization with further bioactive motifs, essential to tailor. new scaffolds for specific applications. In vivo experiments we verified a negligible reaction of the host nervous tissue to the injected and assembled BMHP1-SAP. This work will pave the way to the development of novel SAP sequences that may be useful for material science and regenerative medicine applications.
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