1,720,961 research outputs found
Alteration in the redox state of plasma in heart transplanted patients with moderate hyperhomocisteinemia
No full textHyperhomocysteinemia has recently been suggested to contribute to the progression of the so-called chronic rejection or cardiac allograft vasculopathy (CAV) in heart-transplant patients in which the major determinant of the increase in homocysteine (Hcy) was the progressive decline of renal function. The exact mechanisms of tissue injury by Hcy is unknown, but some aspects of its toxicity have been related to its capacity for altering the redox state of plasma and forming protein adducts by intermediate lactone. To study the relationships between Hcy levels and variations in the redox state governed by thiols, plasma levels of Hcy, cysteine, glutathione, cysteinylglycine, and corresponding disulfides and protein-mixed disulfides were evaluated in subjects with moderate hyperhomocysteinemia represented by heart-transplant patients with (HTRF) and without (HT) renal failure, as well as patients with renal failure of different origin (RF), and compared with those of a control group (C) of normal subjects matched for age and sex. Plasma levels of Hcy and the corresponding protein mixed disulfides increased progressively in HTs, Us, and HTRFs with respect to control. These changes were correlated with cysteine variations (as cystine and protein-mixed disulfides) but not with glutathione or cysteinylglycine that varied only as disulfides with a similar tendency. Moreover, an alteration in the plasma redox was evidenced by the decrease in thiol/disulfide ratios of cysteine, Hcy, and cysteinylglycine. In all groups, cysteine was directly correlated with Hcy but not with glutathione or cysteinylglycine, which in turn were correlated each other. Therefore levels of plasma cysteine were more linked to Hcy than to metabolism of glutathione. The clinical meaning of cysteine changes remains undefined and requires further study
In vitro study of methylmercury in blood of Bottlenose Dolphins (Tursiops truncatus)
No full textThe biochemical behavior of methylmercury (MeHg) in dolphin blood was investigated in vitro. MeHg distribution between plasma and erythrocytes and its release from erythrocytes into plasma or medium without SH group was determined. At the subcellular level its distribution among different thiol-containing molecules was also investigated in erythrocytes and plasma. When blood was treated with 0.1 mM MeHg, about 98.1% was found in red cells and 1.9% in plasma; only 0.6% of MeHg present in the cellular compartment was bound to membranes. Hemoglobin (Hb) and albumin, principal proteins containing SH groups (PSH), and glutathione (GSH) appeared to be the main targets of MeHg in dolphin blood. Gel filtration of stroma-free hemolysate of treated red blood cells (RBCs) revealed that MeHg was almost equally present in high (52.5%) and low (47.5%) molecular weight fractions, whereas in plasma it only eluted with proteins (high molecular weight fractions). Hemoglobin was identified as the main intracellular protein binding MeHg. The exchange reaction of MeHg between GSH and dolphin hemoglobin was also evaluated and the equilibrium constants calculated
Altered thiol pattern in plasma of subjects affected by rheumatoid arthritis
No full textObjective: Rheumatoid arthritis (RA) is a chronic inflammatory disease which involves the synovial membrane of multiple diarthroidal joints causing damage to cartilage and bones. The damage process seems to be related to an overproduction of oxygen reactive species inducing an oxidative perturbation. Since sulfhydryl groups are primary antioxidant factors, we were interested in investigating the balance of plasma sulfhydryl/disulfides in patients with active RA compared to healthy control subjects. Methods: Twenty-one patients with RA and 15 age-matched controls were studied. Plasmatic sulfhydryl groups and their disulfide form concentrations were measured by spectrophotometry or HPLC. Results: RA patients showed significantly lower levels of plasma protein sulfhydryls and cysteinyl-glycine compared to healthy controls (p < 0.001). Conversely, cystine and homocystine, and protein-bound cysteine and homocysteine were significantly increased (p < 0.005 in disulfides forms and p < 0.05 in protein mixed disulfides forms). There was a significant correlation between some clinical data (ESR, number of tender/swollen joints) and some of the parameters studied. Conclusion: The results of this study indicate a biochemical disturbance of plasma sulfhydryl/disulfides balance in patients with RA compared to controls with an increase in some oxidised forms (disulfides and protein mixed disulfides) and a decrease in free thiols. The increase in total homocysteine, correlated to the higher risk of cardiovascular diseases in RA patients, is associated with higher levels of the oxidised forms, disulfides and protein-thiol mixed disulfides
Actin carbonylation: from a simple marker of protein oxidation to relevant signs of severe functional impairment
No full textThe number of protein-bound carbonyl groups is an established marker of protein oxidation. Recent evidence indicates a significant increase in actin carbonyl content in both Alzheimer's disease brains and ischemic hearts. The enhancement of actin carbonylation, causing the disruption of the actin cytoskeleton and the loss of the barrier function, has also been found in human colonic cells after exposure to hypochlorous acid (HOCl). Here, the effects of oxidation induced by HOCl on purified actin are presented. Results show that HOCl causes a rapidly increasing yield of carbonyl groups. However, when carbonylation becomes evident, some Cys and Met residues have been already oxidized. Covalent intermolecular cross-linking as well as some noncovalent aggregation of carbonylated actin have been found. The covalent cross-linking, unaffected by reducing and denaturing agents, parallels an increase in dityrosine fluorescence. Moreover, HOCl-mediated oxidation induces the progressive disruption of actin filaments and the inhibition of F-actin formation. The molar ratios of HOCl to actin that lead to inhibition of actin polymerization seem to have effect only on cysteines and methionines. The process that involves oxidation of amino acid side chains with formation of a carbonyl group would occur at an extent of oxidative insult higher than that causing the oxidation of some critical amino acid residues. Therefore, the increase in actin content of carbonyl groups found in vivo would indicate drastic oxidative modification leading to drastic functional impairments
The control of S-thiolation by cysteine via gamma-glutamyltranspeptidase and thiol exchanges in erythrocytes and plasma of diamide-treated rats
No full textProtein thiol modifications including cysteinylation (CSSP) and glutathionylation (GSSP) in erythrocytes of rat treated with diamide have been reported, but mechanism and origin of CSSP formation are unknown. Experiments were performed to relate CSSP formation to GSH hydrolysis via gamma-glutamyltranspeptidase (gamma-GT) and know whether cysteine may act as deglutathionylation factor. Time-dependent variations of redox forms of glutathione and cysteine were investigated in erythrocytes, plasma, liver and kidney of diamide-treated rats (0.4 mmol/kg by infusion for 45 min followed by 135 min of washout) in the presence and absence of acivicin (10 mg/kg administered twice 1 h before diamide) a known gamma-GT inhibitor. Diamide-treated rats showed decreased concentrations of erythrocyte GSH and increased levels of GSSP and CSSP. The rate of CSSP formation was slower than that of GSSP. Besides the entity of CSSP accumulation of erythrocytes was high and equivalent to ∼ 3-fold of the normal plasma content of total cysteine. The result was paradoxically poorly related to gamma-GT activity because the gamma-GT inhibition only partially reduced erythrocyte CSSP. After gamma-GT inhibition, a large concentration fluctuation of glutathione (increased) and cysteine (decreased) was observed in plasma of diamide-treated rats, while little changes were seen in liver and kidney. There were indications from in vitro experiments that the CSSP accumulation in erythrocytes of diamide-treated rats derives from the coexistence of GSH hydrolysis via gamma-GT and production of reduced cysteine via plasma thiol exchanges. Moreover, reduced cysteine was found to be involved in deglutathionylation processes. Mechanisms of protein glutathionylation by diamide and deglutathionylation by cysteine were proposed. © 2009 Elsevier Inc. All rights reserved
Measurement of Mixed Disulfides Including Glutathionylated Proteins
No full textMixed disulfides between protein cysteines and low-molecular-weight thiol cysteine or glutathione lead to the formation of cysteinylated proteins or glutathionylated proteins. These types of posttranslational modification are of great importance in the so-called redox regulation, by which changes in the redox state of the cell regulate a number of biochemical processes. We describe the methods for quantitatively measuring the various redox states of cellular thiols including protein cysteines and these mixed disulfides. These include spectrophotometric methods, which do not distinguish between protein-cysteine and protein-glutathione disulfides, and HPLC methods that make such distinction. Finally, we report a method for labeling proteins susceptible to glutathionylation with biotin, to allow their visualization by Western blot after electrophoretic separation, which is used to identify proteins undergoing this posttranslational modification. © 2010 Elsevier Inc
Administration of minor polar compound-enriched extra virgin olive oil decreases platelet aggregation and the plasma concentration of reduced homocysteine in rats
No full textWe investigated the effect of extra virgin olive oil (EVOO) on platelet aggregation and plasma concentrations of homocysteine (Hcy) redox forms in rats in relation to the minor polar compound (MPC) concentration of EVOO. We used 3 olive oil samples with similar fatty acid but different MPC concentrations: refined olive oil (RF) with traces of MPC (control oil), native EVOO with low MPC concentration (LC), and EVOO with high MPC concentration (HC) enriching LC with its own MPC. Oil samples were administered to rats by gavage (1.25 mL/kg body weight) using 2 experimental designs: acute (24-h food deprivation and killed 1 h after EVOO administration) and subacute (12-d treatment, a daily dose of oil for 12 d, and killed after 24 h of food deprivation). Platelet aggregation was induced by ADP (ex vivo tests) and a reduction in platelet reactivity occurred in cells from rats given LC in the subacute study and in cells from rats administered HC in both studies as indicated by an increase in the agonist half maximal effective concentration. HC inhibited platelet aggregation induced by low ADP doses (reversible aggregation) in cells of rats in both the acute and subacute studies, whereas LC had this effect only in the subacute experiment. Moreover, in rats administered HC in both experiments, the plasma concentration of free reduced Hcy (rHcy) was lower and Hcy bound to protein by disulfide bonds (bHcy) was greater than in RF-treated rats. bHcy was also greater in rats given LC than in RF-treated rats in the subacute experiment. Plasma free-oxidized Hcy was greater in rats given LC and HC than in those administered RF only in the subacute experiment. In conclusion, these results show that MPC in EVOO inhibit platelet aggregation and reduce the plasma rHcy concentration, effects that may be associated with cardiovascular protection. © 2008 American Society for Nutrition
Altered glutathione anti-oxidant metabolism during tumor progression in human renal-cell carcinoma
No full textIt has been proposed that oxidative stress develops in tumors, with important consequences for growth and progression. To investigate this hypothesis, we measured low m.w. thiols, disulfides, protein-mixed disulfides and a pool of major anti-oxidant enzymes in renal-cortex as well as renal-cell carcinoma (RCC) specimens at stages I-II and III. Our data showed (i) a significant increase in the levels of total intracellular glutathione at both tumor stages (levels were 2.6-2.8 fold higher than those in the normal renal cortex), (ii) a marked lowering of the GSH/GSSG ratio in stage I-II accompanied by a significant decrease of many GSH-dependent enzymes (i.e., GPX, GST, GGT, GR) and (iii) unchanged GSH/GSSG ratio and GSH-dependent enzyme activity in stage III with respect to normal renal cortex. These results indicate that relevant variations exist in the glutathione antioxidant system in the different stages of RCC and support the hypothesis that oxidative stress plays an important role in RCC growth and progression
Preferential transport of glutathione versus glutathione disulfide in rat liver microsomal vesicles
Full text linkA bi directional, saturable transport of glutathione (GSH) was found in rat liver microsomal vesicles. GSH transport could be inhibited by the anion transport blockers flufenamic acid and 4,4'-diisothiocyanostilbene-2,2'-disulfonic acid. A part of GSH taken up by the vesicles was metabolized to glutathione disulfide (GSSG) in the lumen. Microsomal membrane was virtually nonpermeable toward GSSG; accordingly, GSSG generated in the microsomal lumen could hardly exit. Therefore, GSH transport, contrary to previous assumptions, is preferred in the endoplasmic reticulum, and GSSG entrapped and accumulated in the lumen creates the oxidized state of its redox buffer
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