Human breast adipose‑derived stem cells: characterization and differentiation into mammary gland‑like epithelial cells promoted by autologous activated platelet‑rich plasma.

Shi-En Cui Hong-Mian Li Da-Lie Liu Hua Nan Kun-Ming Xu Pei-Ran Zhao Shuang-Wu Liang

Mol Med Rep

Research Center for Tissue Engineering, Southern Medical University, Guangzhou, Guangdong 510515, P.R. China.

Published: August 2014

Human adipose-derived stem cells from breast tissue (hbASCs) were isolated and characterized to explore their potential in stem cell research and therapy.
These hbASCs showed specific surface markers relevant for their classification and were capable of differentiating into various cell types like adipocytes and osteocytes.
Additionally, using activated autologous platelet-rich plasma (PRP) significantly enhanced the hbASCs' growth and their conversion into mammary gland-like epithelial cells, suggesting a promising avenue for breast reconstruction applications.

Human adipose‑derived stem cells (ASCs) isolated from various body sites have been widely investigated in basic and clinical studies. However, ASCs derived from human breast tissue (hbASCs) have not been extensively investigated. In order to expand our understanding of hbASCs and examine their potential applications in stem cell research and cell‑based therapy, hbASCs were isolated from discarded surgical fat tissue following reduction mammoplasty and a comprehensive characterization of these hbASCs was performed, including analysis of their cellular morphology, growth features, cell surface protein markers and multilineage differentiation capacity. These hbASCs expressed cluster of differentiation (CD)44, CD49d, CD90 and CD105, but did not express CD31 and CD34. Subsequently, the hbASCs were differentiated into adipocytes, osteocytes and chondrocytes in vitro. In order to examine the potential applications of hbASCs in breast reconstruction, an approach to promote in vitro differentiation of hbASCs into mammary gland‑like epithelial cells (MGECs) was developed using activated autologous platelet‑rich plasma (PRP). A proliferation phase and a subsequent morphological conversion phase were observed during this differentiation process. PRP significantly promoted the growth of hbASCs in the proliferation phase and increased the eventual conversion rate of hbASCs into MGECs. Thus, to the best of our knowledge, the present study provided the first comprehensive characterization of hbASCs and validated their multipotency. Furthermore, it was revealed that activated autologous PRP was able to enhance the differentiation efficiency of hbASCs into MGECs. The present study and other studies of hbASCs may aid the development of improved breast reconstruction strategies.

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