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Scientific Reports

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Aggregation of human osteoblasts unlocks self-reliant differentiation and constitutes a microenvironment for 3D-co-cultivation with other bone marrow cells

Published:6 May 2024 DOI: 10.1038/s41598-024-60986-8 PMID: 38710795
Sabrina Marozin,?Birgit Simon-Nobbe,?Astrid Huth,?Evelyn Beyerer,?Laurenz Weber,?Andreas Nüssler,?Günter Lepperdinger

Abstract

Skeletal bone function relies on both cells and cellular niches, which, when combined, provide guiding cues for the control of differentiation and remodeling processes. Here, we propose an in vitro 3D model based on human fetal osteoblasts, which eases the study of osteocyte commitment in vitro and thus provides a means to examine the influences of biomaterials, substances or cells on the regulation of these processes. Aggregates were formed from human fetal osteoblasts (hFOB1.19) and cultivated under proliferative, adipo- and osteoinductive conditions. When cultivated under osteoinductive conditions, the vitality of the aggregates was compromised, the expression levels of the mineralization-related gene DMP1 and the amount of calcification and matrix deposition were lower, and the growth of the spheroids stalled. However, within spheres under growth conditions without specific supplements, self-organization processes occur, which promote extracellular calcium deposition, and osteocyte-like cells develop. Long-term cultivated hFOB aggregates were free of necrotic areas. Moreover, hFOB aggregates cultivated under standard proliferative conditions supported the co-cultivation of human monocytes, microvascular endothelial cells and stromal cells. Overall, the model presented here comprises a self-organizing and easily accessible 3D osteoblast model for studying bone marrow formation and in vitro remodeling and thus provides a means to test druggable molecular pathways with the potential to promote life-long bone formation and remodeling.

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Materials
Procduct Name CAS Molecular Formula Supplier Price
Z-VAD-FMK 187389-52-2 C22H30FN3O7 311 suppliers $38.00-$5672.00
Z-VAD-FMK 187389-52-2 C22H30FN3O7 311 suppliers $38.00-$5672.00
Z-VAD-FMK 187389-52-2 C22H30FN3O7 311 suppliers $38.00-$5672.00
Z-VAD-FMK 187389-52-2 C22H30FN3O7 311 suppliers $38.00-$5672.00

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