A novel virally inactivated human platelet lysate preparation rich in TGF-β, EGF and IGF, and depleted of PDGF and VEGF

There is emerging interest in the use of standardized virally inactivated human platelet lysate preparations rich in GFs (growth factors) for cell cultures, cell therapy and clinical applications. In the present paper, we report a simple process to prepare a virally inactivated platelet lysate prepa...

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Bibliographic Details
Published in:Biotechnology and applied biochemistry 2010-08, Vol.56 (4), p.151-160
Main Authors: Burnouf, Pierre-Alain, Juan, Po-Kai, Su, Chen-Yao, Kuo, Ya-Po, Chou, Ming-Li, Su, Ching-Hua, Tseng, Yu-Hung, Lin, Che-Tong, Burnouf, Thierry
Format: Article
Language:English
Subjects:
Biological and medical sciences
Biological Assay
Biotechnology
Blood Platelets - chemistry
Blood Platelets - cytology
Blood Platelets - metabolism
Cell Culture Techniques - methods
Cell Line
Cell Proliferation
Cells, Cultured
Detergents - chemistry
Epidermal Growth Factor - isolation & purification
Epidermal Growth Factor - secretion
fetal bovine serum (FBS)
Fundamental and applied biological sciences. Psychology
growth factor
Humans
Insulin-Like Growth Factor I - isolation & purification
Insulin-Like Growth Factor I - secretion
lysate
Oils - chemistry
platelet
Platelet-Derived Growth Factor - isolation & purification
Platelet-Derived Growth Factor - secretion
solvent/detergent
Solvents - chemistry
stem cell
Transforming Growth Factor beta - isolation & purification
Transforming Growth Factor beta - secretion
Vascular Endothelial Growth Factors - isolation & purification
Vascular Endothelial Growth Factors - secretion
Virus Inactivation
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Summary:There is emerging interest in the use of standardized virally inactivated human platelet lysate preparations rich in GFs (growth factors) for cell cultures, cell therapy and clinical applications. In the present paper, we report a simple process to prepare a virally inactivated platelet lysate preparation rich in TGF‐β1 (transforming growth factor‐β1), EGF (epidermal growth factor) and IGF (insulin‐like growth factor) and depleted of PDGF (platelet‐derived growth factor) and VEGF (vascular endothelial growth factor). Apheresis platelet concentrates were treated by the S/D (solvent/detergent) viral inactivation procedure, then subjected to an oil extraction followed by adsorption with activated charcoal and finally sterile‐filtered. The resulting preparation contained a mean of 368.4, 2.4 and 54.7 ng/ml of TGF‐β1, EGF and IGF respectively. PDGF‐AB and VEGF were essentially completely removed by the charcoal treatment. The mean albumin, IgG, IgM and IgA and fibrinogen contents were approx. 40.0, 8.5, 0.87, 1.66 and 2.65 mg/ml respectively, cholesterol and triglycerides were at 15 and 20.7 mg/ml respectively and TnBP (tri‐n‐butyl phosphate) and Triton X‐45 were at 8.7 and 8.8 p.p.m. respectively. Supplementing MEM (minimum essential medium) with 1–10% of this S/D‐treated platelet lysate promoted the proliferation of MG63 and SIRC cell lines as well as, or better than, 10% (v/v) FBS (fetal bovine serum), as based on the MTS [3‐(4,5‐dimethylthiazol‐2‐yl)‐5‐(3‐carboxymethoxyphenyl)‐2‐(4‐sulfophenyl)‐2H‐tetrazolium] assay. The process used to prepare such S/D‐treated platelet lysates is easily scalable for industrial production. Our results open up the possibility to evaluate the potential of this new preparation for stem cell expansion and/or bone tissue engineering and regeneration.
ISSN:0885-4513
1470-8744
DOI:10.1042/BA20100151