Apoptotic stress pathway activation mediated by iron on endothelial cells in vitro

doi:10.1093/ndt/gfl341

NDT Advance Access originally published online on September 6, 2006
Nephrology Dialysis Transplantation 2006 21(11):3055-3061; doi:10.1093/ndt/gfl341

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Apoptotic stress pathway activation mediated by iron on endothelial cells in vitro

Raul G. Carlini, Evelyn Alonzo, Ezequiel Bellorin-Font and José R. Weisinger

Division of Nephrology, Hospital Universitario de Caracas, Universidad Central de Venezuela and Centro Nacional de Diálisis y Trasplante, Caracas, Venezuela

Correspondence and offprint requests to: Raul G. Carlini, MD, Centro Nacional de Diálisis y Trasplante, Hospital Universitario de Caracas, P.O. BOX 47365, Caracas, 1040, Venezuela.Email: rcarlini{at}cantv.net

Background. Iron sucrose (Fe-S) and low-molecular-weight irondextran (Fe-D) have been used successfully in the treatmentof anaemia in chronic kidney disease patients. However, someside effects, such as endothelial cell dysfunction have beenreported. Mechanisms by which iron can induce endothelial celldamage have not been completely understood. This study was designedto examine the effect of Fe-S and Fe-D on bovine aortic endothelialcells in vitro.

Methods. Cell proliferation was determined by [³H] thymidineincorporation, cytotoxicity by lactate dehydrogenase, pro-Caspase-3by immunoblotting; and Caspase-3 activity using a colorimetricassay. Expression of the apoptosis stress pathway proteins Bcl-2and Bax and cycle arrest proteins p53 and p21^WAF/CIP1 were examinedby immunoblot. Cell apoptosis was tested by terminal deoxynucleotidyltransferase-mediatednick-end labelling (TUNEL) and DNA fragmentation.

Results. Both iron preparations inhibited cell proliferation.This effect was more important and occurred at lower concentrationsin Fe-S than Fe-D cultured cells. Expression of p53 and p21^WAF/CIP1increased in cells incubated with Fe-S, but not with Fe-D. Bcl-2expression was significantly down-regulated in cells incubatedwith Fe-S in comparison with Fe-D, while Bax expression wasnot modified by the iron compounds. Pro-Caspase-3 expressionand Caspase-3 activity increased only in cells treated withFe-S. Apoptosis was present in cells treated with Fe-S.

Conclusions. Our results demonstrate that Fe-S exerts a greaterinhibitory effect on endothelial cell proliferation than Fe-D.The mechanisms involved in this process may be related, at leastin part, to over expression of proteins related to the cellcycle arrest and apoptosis stress pathway.

Keywords: apoptosis; endothelial cells; intracellular signal; iron

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