Molecular Insights into the Superiority of Platelet Lysate over FBS for hASC Expansion and Wound Healing

Molecular Insights into the Superiority of Platelet Lysate over FBS for hASC Expansion and Wound Healing

Human adipose-derived stem cells (hASCs) are widely used in regenerative medicine due to their accessibility and high proliferative capacity. Platelet lysate (PL) has recently emerged as a promising alternative to fetal bovine serum (FBS), offering superior cell expansion potential; however, the mol...

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Main Authors: Sakurako Kunieda, Michika Fukui, Atsuyuki Kuro, Toshihito Mitsui, Huan Li, Zhongxin Sun, Takayuki Ueda, Shigeru Taketani, Koichiro Higasa, Natsuko Kakudo
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Cells
Subjects:
human adipose-derived stem cells
platelet lysate
cell proliferation
stress resistance
antiaging effects
RNA sequencing
Online Access:https://www.mdpi.com/2073-4409/14/15/1154
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Summary:Human adipose-derived stem cells (hASCs) are widely used in regenerative medicine due to their accessibility and high proliferative capacity. Platelet lysate (PL) has recently emerged as a promising alternative to fetal bovine serum (FBS), offering superior cell expansion potential; however, the molecular basis for its efficacy remains insufficiently elucidated. In this study, we performed RNA sequencing to compare hASCs cultured with PL or FBS, revealing a significant upregulation of genes related to stress response and cell proliferation under PL conditions. These findings were validated by RT–qPCR and supported by functional assays demonstrating enhanced cellular resilience to oxidative and genotoxic stress, reduced doxorubicin-induced senescence, and improved antiapoptotic properties. In a murine wound model, PL-treated wounds showed accelerated healing, characterized by thicker dermis-like tissue formation and increased angiogenesis. Immunohistochemical analysis further revealed elevated expression of chk1, a DNA damage response kinase encoded by CHEK1, which plays a central role in maintaining genomic integrity during stress-induced repair. Collectively, these results highlight PL not only as a viable substitute for FBS in hASC expansion but also as a bioactive supplement that enhances regenerative efficacy by promoting proliferation, stress resistance, and antiaging functions.
ISSN:2073-4409

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