Cells (Sep 2022)

Human Adipose Mesenchymal Stromal/Stem Cells Improve Fat Transplantation Performance

  • Maria Serena Piccinno,
  • Tiziana Petrachi,
  • Marco Pignatti,
  • Alba Murgia,
  • Giulia Grisendi,
  • Olivia Candini,
  • Elisa Resca,
  • Valentina Bergamini,
  • Francesco Ganzerli,
  • Alberto Portone,
  • Ilenia Mastrolia,
  • Chiara Chiavelli,
  • Ilaria Castelli,
  • Daniela Bernabei,
  • Mara Tagliazucchi,
  • Elisa Bonetti,
  • Francesca Lolli,
  • Giorgio De Santis,
  • Massimo Dominici,
  • Elena Veronesi

DOI
https://doi.org/10.3390/cells11182799
Journal volume & issue
Vol. 11, no. 18
p. 2799

Abstract

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The resorption rate of autologous fat transfer (AFT) is 40–60% of the implanted tissue, requiring new surgical strategies for tissue reconstruction. We previously demonstrated in a rabbit model that AFT may be empowered by adipose-derived mesenchymal stromal/stem cells (AD-MSCs), which improve graft persistence by exerting proangiogenic/anti-inflammatory effects. However, their fate after implantation requires more investigation. We report a xenograft model of adipose tissue engineering in which NOD/SCID mice underwent AFT with/without human autologous AD-MSCs and were monitored for 180 days (d). The effect of AD-MSCs on AFT grafting was also monitored by evaluating the expression of CD31 and F4/80 markers. Green fluorescent protein-positive AD-MSCs (AD-MSC-GFP) were detected in fibroblastoid cells 7 days after transplantation and in mature adipocytes at 60 days, indicating both persistence and differentiation of the implanted cells. This evidence also correlated with the persistence of a higher graft weight in AFT-AD-MSC compared to AFT alone treated mice. An observation up to 180 d revealed a lower resorption rate and reduced lipidic cyst formation in the AFT-AD-MSC group, suggesting a long-term action of AD-MSCs in support of AFT performance and an anti-inflammatory/proangiogenic activity. Together, these data indicate the protective role of adipose progenitors in autologous AFT tissue resorption.

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