Biomaterials, Biodegradables and Biomimetics Research Group

Comunications - Poster

Optimization of the isolation and differentiation protocol of human bone marrow derived osteoblasts and osteoclasts

Abstract

Bone tissue has a remarkable capacity to self-regenerate in case of damage promoted due to several diseases or trauma. Nevertheless, bone tissue loses this capacity when the damage exceeds a critical size [1]. Autologous bone grafts are still the gold standard treatment. Nevertheless, limited supply and donor site complications are the biggest limitations. Tissue engineering (TE) strategies have been emerged as promising alternatives to these restrictions. Nevertheless, in most studies, osteoblasts (OB) are the main type of bone cell studied, disregarding the importance of osteoclasts (OC). But, in fact, bone is a complex tissue that depends not only on OB for tissue formation, but also OC for tissue resorption. Thus, TE strategies should consider both cell populations, OB and OC, to obtain a fully functional bone tissue.

This can be due to the fact that only few researchers have successfully generated large numbers of OC from human precursor cells, in contrary to the generation of OB, as described in the literature [2].

In this context, we propose an experimental setup for the isolation and differentiation of, not only, OB, but also, OC from human bone marrow (hBM). For that, an optimized protocol for the collection of hBM, described by Cody, J. J. et al. will be follow [3]. Further, hBM will be submitted to different methods to isolate OB and OC precursor’s cells: (i) Cells’ adhesion; (ii) Cell sorting; and (iii) Cell sorting through magnetic microbeads. Finally, the optimal conditions to achieve a successful differentiation of OB and OC will be pursued. OB precursor’s cells will be culture under osteogenic inducers (ascorbic acid, β-glycerophosphate and dexamethasone), while OC precursors will be cultured under osteoclastogenic inducers (M-CSF and RANKL). To access the proper differentiation, different markers will be used. Overall, we expect that this study leads to important findings, improving the current protocols tested/used by the scientific community.

Journal
Final Conference Chem2Nature
Keywords
bone remodeling, human bone marrow
Rights
Closed Access
Peer Reviewed
Yes
Status
published
Project
FROnTHERA
Year of Publication
2018
Date Published
2018-10-24
Search Google ScholarGenerate BibTexDownload RTF
This website uses cookies. By using this website you consent to our use of these cookies. For more information visit our Policy Page.