BackgroundIn 2006 the Hematology Service of Hospital Maciel published its experience with peripheral blood progenitor cell harvesting for autologous stem cell transplantation using Filgen JP (Clausen Filgrastim). After mobilization with a mean filgrastim dose of 78 mcg/Kg, 4.7 x 106 CD34+ cells/Kg were obtained by apheresis. Age above 50, multiple myeloma as underlying disease and a malignancy that was not in remission were identified as frequent characteristics among patients showing complex mobilization.ObjectiveThe aim of this study was to compare stem cell mobilization using different brands of filgrastim.MethodsOne hundred and fifty-seven mobilizations performed between 1997 and 2006 were analyzed. This retrospective analysis comparative two groups of patients: those mobilized with different brands of filgrastim (Group A) and those who received Filgen JP (Clausen Filgrastim) as mobilizing agent (Group B). A cluster analysis technique was used to identify four clusters of individuals with different behaviors differentiated by age, total dose of filgrastim required, number of apheresis and harvested CD34+ cells.ResultsThe mean total dose of filgrastim administered was 105 mcg/Kg, the median number of apheresis was 2 procedures and the mean number of harvested stem cells was 4.98 x 106 CD34+ cells/Kg. No significant differences were observed between Groups A and B regarding the number of apheresis, harvested CD34+ cells and number of mobilization failures, however the total dose of filgrastim was significantly lower in Group B.ConclusionsAmong other factors, the origin of the cytokine used as mobilizing agent is an element to be considered when evaluating CD34+ cell mobilization results.
Statins have been reported to affect blood vessel formation. Thrombospondin-1 (TSP-1) is a multifunctional protein that affects vasculature systems such as platelet activation, angiogenesis, and wound healing. This study was designed to investigate the effect of atorvastatin on TSP-1 synthesis in thrombin-stimulated human umbilical vein endothelial cells (HUVECs), and its regulation by mevalonate or its derivatives. The results showed that atorvastatin down-regulated TSP-1 expression in HUVECs. This effect was fully reversed by mevalonate, farnesylpyrophosphate (FPP), and gerarylgeranylpyrophosphate (GGPP). Furthermore, farnesyltransferase and geranylgeranyltransferase inhibitors decreased TSP-1expression. It was also found that thrombin increased TSP-1 expression in HUVECs. Atorvastatin (0.1, 1, and 10 muM) decreased TSP-1 in thrombin-stimulated cells (45%, 66%, and 80%). Mevalonate partially reversed this inhibitory effect of atorvastatin on TSP-1, whereas the presence of FPP and GGPP did not alter TSP-1. Rho-kinase inhibitor neutralized the up-regulation of TSP-1 induced by thrombin. In conclusion, atorvastatin inhibits TSP-1 expression in endothelial cells via the mevalonate pathway. Rho protein activation is necessary for up-regulation of TSP-1 synthesis induced by thrombin. Because FPP and GGPP are essential for the activity of Rho proteins, inhibition of these proteins may constitute the mechanism by which atorvastatin inhibits thrombin up-regulated TSP-1 expression.
Statins may have beneficial effects in atherogenesis given their antithrombotic properties involving non-lipid mechanisms that modify endothelial function of tissue factor induction by thrombin. In this study, we investigate the effect of atorvastatin on tissue factor (TF) activity in thrombin-stimulated endothelial cells and its regulation through mevalonate or its derivatives. First subculture of human umbilical endothelial cells was used for this study. Cells were treated with thrombin and atorvastatin for different time intervals and dosage. Tissue factor activity was measured as Factor Xa generation induced by Tissue Factor-Factor VIIa complex on confluent cells. Our results show that atorvastatin prevents the thrombin-induced up-regulation of tissue factor activity in a concentrationdependent manner. Mevalonate and geranylgeranyl pyrophosphate reversed this inhibitory effect of atorvastatin on tissue factor activity, while the presence of farnesyl pyrophosphate did not prevent the atorvastatin effect on thrombin-induced tissue factor activity. Rho-kinase inhibitor did not affect the thrombin stimulation of tissue factor activity. High amount of hydrophobic isoprenoid groups decreases the thrombin-induced TF activity and may promote endothelial cell anti-thrombotic action. Rho kinase pathways do not have a major role in the thrombinmediated TF activity. The inhibitory effect of atorvastatin on thrombin-induced TF activity was partially reversed by MVA and GGPP but not FPP.
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