TY - JOUR
T1 - Changes in inflammatory gene expression induced by hyperbaric oxygen treatment in human endothelial cells under chronic wound conditions
AU - Kendall, Alexandra C.
AU - Whatmore, Jacqueline L.
AU - Harries, Lorna W.
AU - Winyard, Paul G.
AU - Smerdon, Gary R.
AU - Eggleton, Paul
PY - 2012/2/1
Y1 - 2012/2/1
N2 - Hyperbaric oxygen (HBO) therapy involves the inhalation of 100% oxygen, whilst inside a chamber at greater than atmospheric pressure. It is an effective treatment for chronic diabetic wounds, although the molecular mechanisms involved remain unclear. We hypothesised that HBO could alter inflammatory gene expression in human endothelial cells via a reactive oxygen/nitrogen species-mediated pathway. Endothelial cells were exposed to a chronic wound model comprising hypoxia (2% O 2 at 1 atmosphere absolute (ATA); PO 2 ~2kPa) in the presence of lipopolysaccharide and TNF-α for 24h, then treated with HBO for 90min (97.5% O 2 at 2.4 ATA; PO 2 ~237kPa). 5h post-HBO, 19 genes involved in adhesion, angiogenesis, inflammation and oxidative stress were downregulated. Notably, only angiogenin gene expression, which promotes both angiogenesis and nitric oxide production (reflected by increased eNOS protein expression in this study), was upregulated. This led to a decrease in endothelial IL-8 mRNA and protein, which could help alleviate inflammatory processes during chronic wound healing. This was no longer evident 22.5h post-HBO, demonstrating the importance of daily exposures in HBO treatment protocols. These studies indicate that elevated oxygen transiently regulates inflammatory gene expression in endothelial cells, which may enhance chronic wound healing. © 2011 Elsevier Inc..
AB - Hyperbaric oxygen (HBO) therapy involves the inhalation of 100% oxygen, whilst inside a chamber at greater than atmospheric pressure. It is an effective treatment for chronic diabetic wounds, although the molecular mechanisms involved remain unclear. We hypothesised that HBO could alter inflammatory gene expression in human endothelial cells via a reactive oxygen/nitrogen species-mediated pathway. Endothelial cells were exposed to a chronic wound model comprising hypoxia (2% O 2 at 1 atmosphere absolute (ATA); PO 2 ~2kPa) in the presence of lipopolysaccharide and TNF-α for 24h, then treated with HBO for 90min (97.5% O 2 at 2.4 ATA; PO 2 ~237kPa). 5h post-HBO, 19 genes involved in adhesion, angiogenesis, inflammation and oxidative stress were downregulated. Notably, only angiogenin gene expression, which promotes both angiogenesis and nitric oxide production (reflected by increased eNOS protein expression in this study), was upregulated. This led to a decrease in endothelial IL-8 mRNA and protein, which could help alleviate inflammatory processes during chronic wound healing. This was no longer evident 22.5h post-HBO, demonstrating the importance of daily exposures in HBO treatment protocols. These studies indicate that elevated oxygen transiently regulates inflammatory gene expression in endothelial cells, which may enhance chronic wound healing. © 2011 Elsevier Inc..
KW - Chronic inflammation
KW - Gene regulation
KW - Interleukin-8
KW - Nitric oxide
KW - Oxidative stress
M3 - Article
SN - 0014-4827
VL - 318
SP - 207
EP - 216
JO - Experimental Cell Research
JF - Experimental Cell Research
IS - 3
ER -