Biomaterials, Biodegradables and Biomimetics Research Group

Conference Abstract -ISI Web of Science Indexed

Paracrine signalling between adipose tissue stem and microvascular endothelial cells within multilayered capsules trigger osteoblastogenesis.

Abstract

Introduction

Bone regeneration remains a challenging milestone in orthopedic research. Inspired by the synergic angio-osteogenesis, resulting from the co-existence of vascular and stem cells in the native environment of cancellous bone1, we propose a stem-cell based strategy that provides an immunoprivileged atmosphere to induce osteoblastogenesis. We developed a hierarchical system to create a bottom-up tissue engineering (TE) approach combining (i) microparticles as cell adhesion sites (figure 1.A), and (ii) cells of different phenotypes (figure 1.B), encapsulated in (iii) multilayered liquified capsules (figure 1.C). Our hypothesis is that in the capsules confined and controlled environment, the paracrine interaction of co-cultured endothelial and human adipose-derived stem cells (hASCs) would trigger osteogenic differentiation and the generation of osteoblasts.

 

Materials and Methods

Liquified multilayered poly(L-lysine)-alginate- chitosan capsules containing collagen I functionalized PLLA microparticles, produced as previously described2, were used to encapsulate hASCs alone or co-cultured with human adipose microvascular endothelial cells (CO capsules, 1:1). Capsules were maintained in EndoGroTM-MV-VEGF medium (Millipore) without (basal medium) or with 10-8M dexamethasone, 50µg.mL-1 ascorbic acid, and 10mM β-glycerophosphate (osteogenic medium) up to 21 days. Osteoblastogenesis was investigated by determining alkaline phosphatase (ALP) activity, and osteopontin secretion by immunocytochemistry. Statistical analysis was performed by two-way ANOVA with Bonferroni post-test.

 

Results

After 21 days in basal medium, the osteogenic phenotype of the cells in CO capsules was confirmed by the osteopontin expression. At earlier culture periods, the co-culture effect was less efficient on promoting osteoblastogenesis, compared to the effect promoted by osteogenic medium. Accordingly, at day 3 and 7, encapsulated cells in the capsules cultured in osteogenic medium presented higher ALP activity than in basal medium. However, at later culture periods, the ALP activity of the cells in CO capsules cultured in basal and osteogenic media was equivalent. Ultimately, at day 21, cells in the CO capsules cultured in basal medium presented the highest ALP activity. In opposition, hASCs in the homotypic capsules cultured in basal medium, used as control, presented very low ALP activity.

 

Discussion and Conclusions

In the absence of osteogenic differentiation factors, the proposed co-culturing strategy supported osteoblastogenesis. Moreover, the developed system can be transplanted by minimal invasive procedures. Capsules can be directly injected into the lesion site due to the flexible multilayered membrane. We believe that our preliminary studies provide new insight into the importance of co-culture systems in engineering bioencapsulation systems for bone TE.

 

References

1. Kirkpatrick CJ, Fuchs S, Unger RE. Adv Drug Deliver Rev. 63(4-5), 291, 2011.

2. Correia CR, Reis RL, Mano JF. Biomacromolecules. 14(3), 743, 2013.

 

Acknowledgments

Portuguese Foundation for Science and Technology (Ph.D. grant SFRH/BD/69529/2010), and the FP7 of European Union (REGPOT-CT2012-316331-POLARIS).

 

Disclosures

Authors have nothing to disclose. 

Journal
Journal of Tissue Engineering and Regenerative Medicine
Volume
8
Issue
s1
Pagination
39-206
Publisher
John Wiley & Sons, Ltd.
URL
http://onlinelibrary.wiley.com/store/10.1002/term.1931/asset/term1931.pdf?v=1&t=i24p8kav&s=1d133ac04e4e3bb863c40058052577b425eace7d
Keywords
co-cultured cells, Stem cells
Rights
Open Access
Peer Reviewed
Yes
Status
published
Project
N/A
Year of Publication
2014
DOI
10.1002/term.1931
Date Published
2014-06-09
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