Transcriptional expression of hypoxia/hypothermia-conditioned human endothelial cells and their interaction with monocytes
- VernacularTitle:低温缺氧条件下血管内皮细胞的基因表达及与单核细胞间的相互作用
- Author:
Xiao-Ping WANG
;
Zi-Dong LIU
;
Bin ZHU
;
- Publication Type:Journal Article
- Keywords:
Endothelial cells;
Monocytes;
Hypothermia;
Anoxia;
Reperfusion injury
- From:
Chinese Journal of Organ Transplantation
2005;0(10):-
- CountryChina
- Language:Chinese
-
Abstract:
Objective To characterize molecule profiling for hypoxia/hypothermia-conditioned human endothelial cells(EC),and to examine the hypothesis that the interaction between hypoxia/hy- pothermia-conditioned EC and monocytes plays a key role in early hypoxia/hypothermic reperfusion in- jury.Methods Human aortic EC were conditioned in hypoxia/hypothermia chamber at 4℃for 91) rain followed by 4 to 8 h re-warming at 37℃and then analyzed initially by RT-PCR to evaluate RNA transcripts.To examine early cellular interactions,a cellular adhesion study was performed using EC and fluorescence-conjugated DIO labeled purified human monocytes,and CD4~+ T cells as well as PB- MC.Interactions between PKH-26-labeled EC and these cells were carried out to determine EC mem- brane uptake by monocytes.Results RT-PCR analysis demonstrated that hypoxia/hypothermia-con- ditioned EC up-regulated RNA transcripts of inflammatory cytokines,ECE-1 and endothelin,co-stim- ulatory molecules,and adhesion molecules CD54.FACS showed minimal up-regulation of CD54 on hy- poxia-hypothermia-conditioned EC.Low level adhesion of purified CD4~+ T cells to resting and hypoxi- a/hypothermia-conditioned EC was noted.In contrast,high levels of monocyte adhesion to hypoxia/ hypothermia-conditioned EC were observed when compared to resting EC.EC membrane up-take by monocytes but not CD4~+ T cells was revealed by FACS,and the levels of EC membrane up-take were similar to those of the normal EC.Conclusions Hypoxia/hypothermia-conditioned EC demonstrated up-regulation of multiple RNA transcripts associated with inflammatory responses,cellular adhesion and co-stimulation.Human monocyte adhesion to hypoxia/hypothermia-conditioned EC was greater than T cells.Monocytes up-took EC membrane during their interaction.These findings suggest that the initial interaction between monocytes and hypoxia-hypothermia EC,but not T cells,may play a critical role during early reperfusion injury.
