Improved adipogenic in vitro differentiation: comparison of different adipogenic cell culture media on human fat and bone stroma cells for fat tissue engineering.
- Author:
Amir Alexander GHONIEM
1
;
Yahya ACIL
;
Jorg WILTFANG
;
Matthias GIERLOFF
Author Information
- Publication Type:In Vitro ; Original Article
- Keywords: Fat tissue engineering; PPARgamma2; C/EBPalpha; Real time RT-PCR; Adipogenic differentiation
- MeSH: Bone Marrow; Cell Culture Techniques*; Cell Lineage; Gene Expression; Humans; PPAR gamma; RNA-Directed DNA Polymerase; Tissue Donors; Tissue Engineering*
- From:Anatomy & Cell Biology 2015;48(2):85-94
- CountryRepublic of Korea
- Language:English
- Abstract: To date there is no sufficient in vitro fat tissue engineering and a protocol has not been well established for this purpose. Therefore, we evaluated the in vitro influence of two different adipogenic growth media for their stimulation potential on different cell lineages to clearly define the most potent adipogenic growth media for future in vitro tissue engineering approaches. The samples for differentiation were composed of human adipogenic-derived stroma cells (hADSCs) and human bone marrow mesenchymal stroma cells (hMSCs). A normal adipogenic medium (NAM) and a specific adipogenic medium (SAM) were tested for their adipogenic stimulation potential. After 10 days and 21 days the relative gene expression was measured for the adipogenic marker genes PPARgamma2, C/EBPalpha, FABP4, LPL, and GLUT4 detected through real time reverse transcriptase polymease chain reaction (RT-PCR). Other study variables were the comparison between NAM and SAM and between the used cells hADSCs and hMSCs. Additionally an Oil-Red staining was performed after 21 days. Our results revealed that only SAM was significantly (P<0.05) superior in the differentiation process in contrast to NAM for 10 days and 21 days. As well was SAM superior to differentiate the used cell lineages. This was evaluated by the detected marker genes PPARgamma2, C/EBPalpha, FABP4, LPL, and GLUT4 through real time RT-PCR and by Oil-Red staining. In addition, the hMSCs proofed to be equal donor cells for adipogenic differentiation especially when stimulated by SAM. The results suggest that the SAM should be established as a new standard medium for a more promising in vitro adipogenic differentiation.