Human platelet lysate as a potential clinical-translatable supplement to support the neurotrophic properties of human adipose-derived stem cells.

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Version: Final published version
License: CC BY 4.0
Serval ID
serval:BIB_D77A793CA0E0
Type
Article: article from journal or magazin.
Collection
Publications
Institution
Title
Human platelet lysate as a potential clinical-translatable supplement to support the neurotrophic properties of human adipose-derived stem cells.
Journal
Stem cell research & therapy
Author(s)
Palombella S., Guiotto M., Higgins G.C., Applegate L.L., Raffoul W., Cherubino M., Hart A., Riehle M.O., di Summa P.G.
ISSN
1757-6512 (Electronic)
ISSN-L
1757-6512
Publication state
Published
Issued date
06/10/2020
Peer-reviewed
Oui
Volume
11
Number
1
Pages
432
Language
english
Notes
Publication types: Journal Article
Publication Status: epublish
Abstract
The autologous nerve graft, despite its donor site morbidity and unpredictable functional recovery, continues to be the gold standard in peripheral nerve repair. Rodent research studies have shown promising results with cell transplantation of human adipose-derived stem cells (hADSC) in a bioengineered conduit, as an alternative strategy for nerve regeneration. To achieve meaningful clinical translation, cell therapy must comply with biosafety. Cell extraction and expansion methods that use animal-derived products, including enzymatic adipose tissue dissociation and the use of fetal bovine serum (FBS) as a culture medium supplement, have the potential for transmission of zoonotic infectious and immunogenicity. Human-platelet-lysate (hPL) serum has been used in recent years in human cell expansion, showing reliability in clinical applications.
We investigated whether hADSC can be routinely isolated and cultured in a completely xenogeneic-free way (using hPL culture medium supplement and avoiding collagenase digestion) without altering their physiology and stem properties. Outcomes in terms of stem marker expression (CD105, CD90, CD73) and the osteocyte/adipocyte differentiation capacity were compared with classical collagenase digestion and FBS-supplemented hADSC expansion.
We found no significant differences between the two examined extraction and culture protocols in terms of cluster differentiation (CD) marker expression and stem cell plasticity, while hADSC in hPL showed a significantly higher proliferation rate when compared with the usual FBS-added medium. Considering the important key growth factors (particularly brain-derived growth factor (BDNF)) present in hPL, we investigated a possible neurogenic commitment of hADSC when cultured with hPL. Interestingly, hADSC cultured in hPL showed a statistically higher secretion of neurotrophic factors BDNF, glial cell-derived growth factor (GDNF), and nerve-derived growth factor (NFG) than FBS-cultured cells. When cocultured in the presence of primary neurons, hADSC which had been grown under hPL supplementation, showed significantly enhanced neurotrophic properties.
The hPL-supplement medium could improve cell proliferation and neurotropism while maintaining stable cell properties, showing effectiveness in clinical translation and significant potential in peripheral nerve research.
Keywords
Cell therapy, Human adipose-derived stem cells (hADSC), Human platelet lysate (hPL), Peripheral nerve injury (PNI)
Pubmed
Open Access
Yes
Create date
09/10/2020 11:27
Last modification date
23/11/2022 7:15
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