AI Article Synopsis
- Periosteum-derived progenitor cells (PDPCs) and adipose-derived stem cells (ADSCs) play crucial roles in bone healing, and co-culturing them can create a microenvironment for studying their interaction.
- A novel paper-based osteogenesis-on-a-chip platform was developed to facilitate a 3D co-culture model of PDPCs and ADSCs, allowing the study of growth factors and cellular communication.
- The research utilizes this platform to analyze the effects of various growth factors on PDPC osteogenesis, potentially leading to advancements in bone regeneration therapies.
Article Abstract
Periosteum-derived progenitor cells (PDPCs) are highly promising cell sources that are indispensable in the bone healing process. Adipose-derived stem cells (ADSCs) are physiologically close to periosteum tissue and release multiple growth factors to promote the bone healing process. Co-culturing PDPCs and ADSCs can construct periosteum-bone tissue microenvironments for the study of cellular crosstalk and molecular signal in the bone healing process. In the current work, a paper-based osteogenesis-on-a-chip platform was successfully developed to provide an in vitro three-dimensional coculture model. The platform was a paper substrate sandwiched between PDPC-hydrogel and ADSC-hydrogel suspensions. Cell secretion could be transferred through the paper substrate from one side to another side. Growth factors including BMP2, TGF-β, POSTN, Wnt proteins, PDGFA, and VEGFA were directly analyzed by a paper-based immunoassay. Cellular crosstalk was studied by protein expression on the paper substrate. Moreover, osteogenesis of PDPCs was investigated by examining the mRNA expressions of PDPCs after culture. Neutralizing and competitive assays were conducted to understand the correlation between growth factors secreted from ADSCs and the osteogenesis of PDPCs. In vitro periosteum-bone tissue microenvironment was established by the paper-based osteogenesis-on-a-chip platform. The proposed approach provides a promising assay of cellular crosstalk and molecular signal in 3D coculture microenvironment that may potentially lead to the development of effective bone regeneration therapy.
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| http://dx.doi.org/10.1021/acsami.3c12925 | DOI Listing |
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