Browsing by Author "Aranda, E"
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- ItemCardiovascular risk factors in vegetarians: Normalization of hyperhomocysteinemia with vitamin B-12 and reduction of platelet aggregation with n-3 fatty acids(PERGAMON-ELSEVIER SCIENCE LTD, 2000) Mezzano, D; Kosiel, K; Martinez, C; Cuevas, A; Panes, O; Aranda, E; Strobel, P; Perez, DD; Pereira, J; Rozowski, J; Leighton, FHyperhomocysteinemia in association with vitamin B-12 deficiency, and increased platelet aggregation, probably due to dietary lack of n-3 fatty acids, constitute cardiovascular risk factors frequently observed in vegetarians. We tested if administration of vitamin B-12 normalizes the concentration of total plasma homocysteine, and if intake of eicosapentaenoic (20:5n-3) and docosahexaenoic (22:6n-3) fatty acids modulates platelet function in a population of lactoovovegetarians. One week after a single intramuscular injection of cyanocobalamin (10000 mug) in 18 individuals, serum vitamin B-12 increased from 149+/-63 pg/mL to 532+/-204 pg/mL (p<0.0001) and total tHcy dropped from 12.4+/-4.7 to 7.9+/-3.1 mol/L (p<0.0001). Ten of fourteen of these vegetarians completed an 8-week supplementation with 700 mg/day of each eicosapentaenoic and docosahexaenoic acids. Increased incorporation of these fatty acids into plasma lipids was observed in all of them, together with a significant reduction in maximum percentage or slope of platelet aggregation with all the agonists tested (ADP, epinephrin, collagen, arachidonic acid). No significant change in bleeding time was observed after n-3 fatty acid trial. Supplementation with vitamin B-12 and n-3 fatty acids corrects hyperhomocysteinemia and reduces platelet reactivity to agonists in vegetarians. Whether this supplementation improves the already reduced cardiovascular morbidity and mortality associated with vegetarian diet has yet to be demonstrated. (C) 2000 Elsevier Science Ltd. All rights reserved.
- ItemHemostatic disorder of uremia: The platelet defect, main determinant of the prolonged bleeding time, is correlated with indices of activation of coagulation and fibrinolysis(GEORG THIEME VERLAG KG, 1996) Mezzano, D; Tagle, R; Panes, O; Perez, M; Downey, P; Munoz, B; Aranda, E; Barja, P; Thambo, S; Gonzalez, F; Mezzano, S; Pereira, JSeveral parameters of primary hemostasis and markers of activation of coagulation and fibrinolysis were measured in 38 patients with severe (creatinine clearance <20 ml/min) chronic renal failure (CRF) without dialysis and diseases or drugs affecting hemostasis. Bleeding time (BT) was prolonged in 25/48 patients, and was correlated with age of patients, severity of renal failure, hematocrit, impairment in platelet aggregation-secretion and decrease in platelet ATP content. Defects in von Willebrand factor played no role in the prolongation of the BT. Multivariate analysis showed that only platelet dysfunction and severity of renal disease were independent predictors of the BT in uremia. The platelet functional disorder was significantly correlated with a reduction in platelet ATP and ADP.
- ItemHuman intraplatelet 5-hydroxytryptamine is correlated with mean platelet survival time(PERGAMON-ELSEVIER SCIENCE LTD, 1996) Aranda, E; Pereira, J; Ajenjo, C; Prieto, C; Sepulveda, S; Mezzano, D
- ItemInflammation, not hyperhomocysteinemia, is related to oxidative stress and hemostatic and endothelial dysfunction in uremia(BLACKWELL SCIENCE INC, 2001) Mezzano, D; Pais, EO; Aranda, E; Panes, O; Downey, P; Ortiz, M; Tagle, R; Gonzalez, F; Quiroga, T; Caceres, MS; Leighton, F; Pereira, JBackground. Several cardiovascular risk factors are present in patients with chronic renal failure (CRF), among which are systemic inflammation and hyperhomocysteinemia. Increased oxidative stress, endothelial activation/dysfunction, and coagulation activation are considered integral components of the inflammatory response, but have also been proposed as mediators of plasma homocysteine (tHcy)-induced cell damage. Using correlation analysis, we assessed the relative contributions of inflammation and hyperhomocysteinemia in the abnormal oxidative stress, endothelial activation/dysfunction, and hemostasis activation in patients with CRF.
- ItemPlatelet aging in vivo is associated with activation of apoptotic pathways: Studies in a model of suppressed thrombopoiesis in dogs(SCHATTAUER GMBH-VERLAG MEDIZIN NATURWISSENSCHAFTEN, 2002) Pereira, J; Soto, M; Palomo, I; Ocqueteau, M; Coetzee, LM; Astudillo, S; Aranda, E; Mezzano, DThe mechanism(s) involved in the clearance of senescent platelets are largely unknown. We have recently demonstrated that platelet aging in vivo is associated with loss of membrane phospholipid asymmetry, a universal phenomenon in cells undergoing apoptosis. Thus, We postulated that senescent platelets may exhibit programmed cell death changes, which may trigger their removal from circulation. Since platelets contain the apoptosis machinery as well as mitochondria, a key organelle in the regulation of apoptosis, we studied the appearance of apoptotic-like changes during platelet aging in vivo. To investigate this, we assessed changes in mitochondrial membrane potential in circulating canine platelets during decline in platelet Count after suppression of thrombopoiesis by estradiol injection. a validated model to obtain circulating platelets of increasing mean ace. Phosphatidyl-serine (PS) exposure was determined by flow cytometry by binding of FITC-labeled annexin V. Mitochondrial Deltapsi was studied with the cationic lipophilic dye DIOC6 (3) and the J-aggregate-forming cation JC-1 and analysis by flow cytometry. The proportion of platelets with exposed PS rose significantly with age, from 2.88% before to 6.7%. 8 days after estradiol injection. By flow, cytometry it was demonstrated a significant decreased in DIOC6 (3) fluorescence (median fluorescence intensity 791 98 vs 567 1021 day 0 vs day 8 post injection of estradiol, respectively n:11; p<0.01), consistent with mitochondrial &UDelta;ψ collapse. JC-1 has the unique property of forming J-aggregates tinder high mitochondrial &UDelta;ψ (red fluorescence, FL2) whereas the monomeric form fluoresces in green (FL1). Aged platelets in vivo, loaded with JC-1, exhibited a significant increase in FL1/FL2 ratio (2.5&PLUSMN;1.7 vs 4.7&PLUSMN;1.6, day 0 vs day 8 post injection of estradiol, respectively n:13; p<0.05). confirming the mitochondrial Deltapsi alteration.
- ItemPlatelet aging in vivo is associated with loss of membrane phospholipid asymmetry(F K SCHATTAUER VERLAG GMBH, 1999) Pereira, J; Palomo, I; Ocqueteau, M; Soto, M; Aranda, E; Mezzano, DThe mechanism(s) involved in the clearance of senescent platelets are largely unknown. The loss of membrane phospholipid (PL) asymmetry, with phosphatidylserine (PS) exposure appears to be an important signal for the ingestion by macrophages of apoptotic nucleated cells and it has also been suggested as a signal for the removal of aged erythrocytes. Accordingly, it seems possible that the clearance of normal aged platelets from circulation might be triggered by PS exposure. To investigate this, we determined PS exposure in human aging platelets taking advantage of the relationship between platelet density and platelet age and in dog platelets in a model of platelet aging in vivo. PS exposure was determined in two experimental conditions: 1) human platelet density subpopulations obtained by centrifugation in arabinogalactan gradients; 2) circulating canine platelets during decline in platelet count after suppression of thrombopoiesis following estradiol injection. PS exposure was determined by flow cytometry after labeling the cells with FITC-conjugated annexin V. The proportion of human platelets with exposed PS was significantly higher in high density (HD) platelets compared to low density (LD) platelets (11.3 +/- 8.0% vs 5.2 +/- 3.7%; p < 0.05, respectively). In dogs, the proportion of cells with exposed PS rises dramatically with age, from 3.1 +/- 0.4% before to 17.7 +/- 12.3% ten days after estradiol injection. These findings suggest that platelet aging is associated with loss of phospholipid asymmetry and PS exposure on the outer leaflet of cell membrane, which may play an important role in the recognition and subsequent removal of senescent platelets.