The micromass formation potential of human adipose-derived stromal cells isolated from different various origins

• Main Authors: Hanisch, M. (Author), Jung, S. (Author), Kleineidam, B. (Author), Kleinheinz, J. (Author), Sielker, S. (Author)
• Format: Article
• Language: English
• Published: NLM (Medline) 2018
• Subjects: adipose tissue; Adipose Tissue; adult; Adult; cell culture; Cells, Cultured; cytology; female; Female; HADSC; human; Humans; male; Male; metabolism; Micromass; Multipotency; omentum; Omentum; procedures; Regeneration; regenerative medicine; Regenerative Medicine; sensitivity and specificity; Sensitivity and Specificity; stem cell; Stem Cells; stroma cell; Stromal Cells; subcutaneous fat; Subcutaneous Fat; tissue engineering; Tissue Engineering; viscera; Viscera
• Online Access: View Fulltext in Publisher

 BACKGROUND: Adult stem cells appear to be a promising subject for tissue engineering, representing an individual material for regeneration of aged and damaged cells. Especially adipose derived stromal cells (ADSC), which are easily to achieve, allow an encouraging perspective due to their capability of differentiating into miscellaneous cell types. Here we describe the in vitro formation of human subcutaneous, visceral and omental ADSC micromasses and compare their histological attributes while being cultivated on collagen membranes. METHODS: Subcutaneous, visceral and omental fat tissue derived cells were isolated and processed according to standard protocols. Positively stained cells for CD13, CD44 and CD90 were cultivated on agarose in order to study micromass formation using a special method of cell tracking. Stained paraffin-embedded micromasses were analysed morphologically before and after being plated on collagen membranes. RESULTS: The micromass formation process was similar in all three tissue types. Subcutaneous fat tissue derived micromasses turned out to develop a more homogeneous and compact shape than visceral and omental tissue. Nevertheless all micromasses adhered to collagen membranes with visible spreading of cells. The immune histochemical (IHC) staining of subcutaneous, visceral and omental ADSC micromasses shows a constant expression of CD13 and a decrease of CD44 and CD 90 expression within 28 days. After that period, omental fat cells don't show any expression of CD44. CONCLUSION: In conclusion micromass formation and cultivation of all analysed fat tissues can be achieved, subcutaneous cells appearing to be the best material for regenerative concepts.