Comparison of the Effect of Different Conditioning Media on the Angiogenic Potential of Hypoxia Preconditioned Blood-Derived Secretomes: Towards Engineering Next-Generation Autologous Growth Factor Cocktails

Hypoxia Preconditioned Plasma (HPP) and Serum (HPS) are regenerative blood-derived growth factor compositions that have been extensively examined for their angiogenic and lymphangiogenic activity towards wound healing and tissue repair. Optimization of these secretomes' growth factor profile, t...

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Bibliographic Details
Published in:International journal of molecular sciences 2023-03, Vol.24 (6), p.5485
Main Authors: Moog, Philipp, Hughes, Jessica, Jiang, Jun, Röper, Lynn, Dornseifer, Ulf, Schilling, Arndt F, Machens, Hans-Günther, Hadjipanayi, Ektoras
Format: Article
Language:English
Subjects:
Angiogenesis
Antiangiogenics
Blood cells
Blood platelets
Blood vessels
Care and treatment
Cell culture
Cell Hypoxia
Comparative analysis
Conditioning
Culture Media, Conditioned - pharmacology
Diabetes
Epidermal growth factor
Exercise
Fibroblasts
Glucose
Growth factors
Humans
Hyperglycemia
Hypoxia
Intercellular Signaling Peptides and Proteins
Neovascularization, Physiologic
Nutritional status
Peripheral blood
Physiology
Plasma
Proteins
Secretome
Sodium Chloride
Substitutes
Vascular endothelial growth factor
Wound healing
Wounds and injuries
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Summary:Hypoxia Preconditioned Plasma (HPP) and Serum (HPS) are regenerative blood-derived growth factor compositions that have been extensively examined for their angiogenic and lymphangiogenic activity towards wound healing and tissue repair. Optimization of these secretomes' growth factor profile, through adjustments of the conditioning parameters, is a key step towards clinical application. In this study, the autologous liquid components (plasma/serum) of HPP and HPS were replaced with various conditioning media (NaCl, PBS, Glucose 5%, AIM V medium) and were analyzed in terms of key pro- (VEGF-A, EGF) and anti-angiogenic (TSP-1, PF-4) protein factors, as well as their ability to promote microvessel formation in vitro. We found that media substitution resulted in changes in the concentration of the aforementioned growth factors, and also influenced their ability to induce angiogenesis. While NaCl and PBS led to a lower concentration of all growth factors examined, and consequently an inferior tube formation response, replacement with Glucose 5% resulted in increased growth factor concentrations in anticoagulated blood-derived secretomes, likely due to stimulation of platelet factor release. Medium substitution with Glucose 5% and specialized peripheral blood cell-culture AIM V medium generated comparable tube formation to HPP and HPS controls. Altogether, our data suggest that medium replacement of plasma and serum may significantly influence the growth factor profile of hypoxia-preconditioned blood-derived secretomes and, therefore, their potential application as tools for promoting therapeutic angiogenesis.
ISSN:1422-0067
1661-6596
1422-0067
DOI:10.3390/ijms24065485