Acute administration of N-acetylcysteine (NAC) may induce alterations in plasma and urinary levels of homocysteine (Hcy) and cysteine (Cys). We studied the effects of continuous oral NAC therapy on different Hcy and Cys plasma and urinary forms in 40 healthy subjects assigned to three groups (groups A: n = 13, no therapy; group B: n = 14, NAC 600 mg/day, and group C: n = 14, NAC 1,800 mg/day) for 1 month (T1). After a 1-month washout period without therapy (T2), all subjects were treated with oral NAC (1,800 mg/day) for 2 months and (T3 and T4) reassessed monthly for plasma and urinary thiols. The treated subjects showed a significant decrease in plasma total Hcy and a slight increase in total Cys levels; the alterations of different forms of plasma thiols suggested an NAC-induced increase in disulfide forms and an increase in urinary Hcy and Cys excretion as disulfide forms. The effects appeared to be dose dependent, being more marked in subjects treated with higher dosages. This approach may be important, as an association or alternative therapy in hyperhomocysteinemic conditions of poor responses to vitamins.
Background: Idiopathic cerebral vein thrombosis (iCVT) represents approximately 30% of the cases of cerebral vein thrombosis (CVT). New, inherited – factor V Leiden (FVL) and prothrombin gene mutation (PTHRA20210) – and inherited/acquired – hyperhomocysteinemia (HHcy) – prothrombotic conditions have been detected recently. Methods: We assessed fasting plasma homocysteine (Hcy) levels and main Hcy determinants, FVL and PTHRA20210 in 30 patients with documented iCVT and 40 age- and sex-matched healthy subjects. Results: A strong and significant association of PTHRA20210 [30% (9/30) vs. 2.5% (1/40) iCVT vs. controls, respectively, p = 0.001; OR = 16.174, p = 0.002] and HHcy [13/30 (43.3%) vs. 4/40 (10%) iCVT vs. controls, respectively; p = 0.002, OR = 6.88, p = 0.002] with iCVT was found. Conclusions: PTHRA20210 and HHcy should be considered when screening for thrombophilia and should be assessed in patients with a family or personal history of CVT.
Megaloblastic anaemias (MA) are frequently associated with haemolysis. The pathogenesis of these finding is not clear, but it is thought to depend on the greater destruction of abnormal and fragile megaloblastic erythrocytes. Vitamin B(12) and folate deficiencies are the commonest cause of MA; these deficiencies may simultaneously induce a significant alteration in homocysteine metabolism leading to hyperhomocysteinemia. Blood cells have enzymes involved in homocysteine metabolism. Considering the possible effects of hyperhomocysteinemia in erythrocyte toxicity (due to oxidative damage and/or to interaction with sulfhydryl residues of structural and enzymatic proteins), the aim of our study was to evaluate (1) the homocysteine blood cells production in patients with MA due to vitamin B(12) and folate deficiency and (2) the possible role and mechanism of hyperhomocysteinemia in MA haemolysis. After incubation at 37 degrees C, blood samples from MA patients showed higher and significant levels of Hcy, LDH, lipid peroxidation parameters (MDA), and ghost protein-bound Hcy than controls. Haemolysis (%) was higher in MA patients than controls and was significantly correlated with Hcy accumulation in the medium, lipid peroxidation indices and ghost protein-bound Hcy. No significant (or significantly lower) alterations through time in considered parameters were observed in the corresponding samples incubated at 4 degrees C or in samples incubated with methionine-free medium (lower Hcy production). Our data, deriving from an in vitro experience, suggest a possible role of Hcy accumulation due to vitamin B(12) and folate deficiencies in haemolysis associated to MA due to vitamin deficiency.
To evaluate why hemolysis of red blood cells (RBC) by bile acids varies in different mammalian species, we determined the mean corpuscular volume (MCV), lipid content and the concentrations of the conjugates of deoxycholate and of NaCl inducing 50% hemolysis of RBC from healthy humans, pigs, horses, cows, sheep and jaundiced humans. A volume of 0.05 mL of washed RBC at 1% hematocrit, which has the same lipid content but different phospholipid composition and number of erythrocytes (owing to the variable MCV), was incubated in taurodeoxycholate (TDC) solution (0-5 mM) to determine the TDC concentration inducing 50% hemolysis (TDC50). The TDC50 was highest in RBC of sheep and decreased within the series sheep > pig > cow > horse > healthy human > jaundiced human, which have generally increasing MCV. The osmotic resistance followed an inverse order, with jaundiced human > healthy human > horse > cow > pig > sheep. Although we found no correlation between the TDC50 and phospholipid composition of the erythrocytes tested, the extent of bile salt-induced hemolysis seemed to depend on both the MCV and the number of erythrocytes in the incubation medium.
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