Hypertonicity Induces Injury to Cultured Human Endothelium: Attenuation by Glutamine

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Original Articles: Cardiovascular

Hypertonicity Induces Injury to Cultured Human Endothelium: Attenuation by Glutamine

Alessandro Parolari, MD, Roberto Sala, MD, PhD, Carlo Antona, MD, Ovidio Bussolati, MD, PhD, Francesco Alamanni, MD, Paola Mezzadri, BSc, Valeria Dall'Asta, BSc, Gian C. Gazzola, MD, Paolo Biglioli, MD

Department of Cardiac Surgery, Centro Cardiologico, Fondazione I. Monzino, IRCCS, University of Milan, Milan, and Institute of General Pathology, University of Parma, Parma, Italy

Accepted for publication June 21, 1997.

Background. Although most preservation solutions as well assome cardioplegic solutions used for organ storage and transplantationare hypertonic, the effects of extracellular hypertonicity onendothelium are not well established. Aims of this study wereto evaluate the response of cultured human saphenous vein endothelialcells to extracellular hypertonicity and to investigate therole of the amino acid glutamine in preventing endothelial damagein vitro.

Methods. Eight distinct strains of human saphenous vein endothelialcells were studied. Hypertonic (350 and 400 mosm/kg) media wereobtained by supplementing culture medium with sucrose. Cellviability was assessed in the absence or the presence of glutaminethrough the determination of cell number and protein contentof the cultures. Confocal microscopy of cells loaded with thefluorescent dye calcein was also performed.

Results. Exposure of human saphenous vein endothelial cellsto hypertonic media without glutamine caused significant cellloss within 30 minutes. Cell loss progressed steadily duringincubation and after 6 hours reached 50% at 350 mosm/kg and65% at 400 mosm/kg. In the presence of 2 mmol/L glutamine, endothelialdamage was completely prevented at 350 mosm/kg and significantlylessened at 400 mosm/kg compared with glutamine-free media.Confocal microscopy showed that most hypertonicity-treated cellsexhibited the typical features of an apoptotic death and confirmedthe osmoprotective effect of glutamine.

Conclusions. These results indicate that the supplementationof hypertonic storage solutions with glutamine might exert apartial osmoprotective effect and suggest that the relationshipbetween endothelial damage and tonicity of storage and cardioplegicsolutions should be carefully investigated.

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