Makoto Anraku

Effect of Oxidative Stress on the Structure and Function of Human Serum Albumin

AbstractPurpose. Human serum albumin (HSA) was mildly oxidized by a metal–catalyzed oxidation system (MCO–HSA), chloramine–T (CT–HSA) or H2O2 (H2O2–HSA), and the effects of these treatments on the structural, drug–binding and esterase–like properties were studied. Methods. Protein conformation was examined by calorimetric, chromatographic, electrophoretic and spectroscopic techniques. Drug binding was studied by ultrafiltration method, and esterase–like activity was determined using p–nitrophenyl acetate as a substrate. Results. Far–UV and near–UV CD spectra indicated that significant structural changes had occured as the result of treatment with MCO–HSA and CT–HSA but not with H2O2–HSA. However, SDS–PAGE analysis does not provide precise information on gross conformational changes such as fragmentation, cross–linking and SDS–resistant polymerisation. The results of differential scanning calorimetry, the fluorescence of the hydrophobic probe 1,1–bis–4–anilino–naphthalene–5,5–sulfonic acid and the elution time from a hydrophobic HPLC column indicated that MCO–HSA and CT–HSA in particular, have a more open structure and a higher degree of exposure of hydrophobic areas than unoxidized HSA. In all cases, high–affinity binding of warfarin remained unchanged for all the oxidized HSAs. However, high–affinity binding of ketoprofen to CT–HSA and, especially, MCO–HSA was diminished. In addition, the esterase–like activity of these proteins were all decreased to the same low level. Conclusions. Mild oxidation of HSA has no detectable effect on the binding of drugs to site I in subdomain IIA. In contrast, both the ligand binding property of site II and the esterase–like activity of oxidized HSAs are decreased, most probably due to conformational changes in subdomain IIIA.

Redox properties of serum albumin

BACKGROUND Oxidative damage results in protein modification, and is observed in numerous diseases. Human serum albumin (HSA), the most abundant circulating protein in the plasma, exerts important antioxidant activities against oxidative damage. SCOPE OF REVIEW The present review focuses on the characterization of chemical changes in HSA that are induced by oxidative damage, their relevance to human pathology and the most recent advances in clinical applications. MAJOR CONCLUSIONS The antioxidant properties of HSA are largely dependent on Cys34 and its contribution to the maintenance of intravascular homeostasis, including protecting the vascular endothelium under disease conditions related to oxidative stress. Recent studies also evaluated the susceptibility of other important amino acid residues to free radicals. The findings suggest that a redox change in HSA is related to the oxidation of several amino acid residues by different oxidants. Further, Cys34 adducts, such as S-nitrosylated and S-guanylated forms also play an important role in clinical applications. On the other hand, the ratio of the oxidized form to the normal form of albumin (HMA/HNA), which is a function of the redox states of Cys34, could serve as a useful marker for evaluating systemic redox states, which would be useful for the evaluation of disease progression and therapeutic efficacy. GENERAL SIGNIFICANCE This review provides new insights into our current understanding of the mechanism of HSA oxidation, based on in vitro and in vivo studies. This article is part of a Special Issue entitled Serum Albumin.

Cys34-Cysteinylated Human Serum Albumin Is a Sensitive Plasma Marker in Oxidative Stress-Related Chronic Diseases

The degree of oxidized cysteine (Cys) 34 in human serum albumin (HSA), as determined by high performance liquid chromatography (HPLC), is correlated with oxidative stress related pathological conditions. In order to further characterize the oxidation of Cys34-HSA at the molecular level and to develop a suitable analytical method for a rapid and sensitive clinical laboratory analysis, the use of electrospray ionization time-of-flight mass spectrometer (ESI-TOFMS) was evaluated. A marked increase in the cysteinylation of Cys34 occurs in chronic liver and kidney diseases and diabetes mellitus. A significant positive correlation was observed between the Cys-Cys34-HSA fraction of plasma samples obtained from 229 patients, as determined by ESI-TOFMS, and the degree of oxidized Cys34-HSA determined by HPLC. The Cys-Cys34-HSA fraction was significantly increased with the progression of liver cirrhosis, and was reduced by branched chain amino acids (BCAA) treatment. The changes in the Cys-Cys34-HSA fraction were significantly correlated with the alternations of the plasma levels of advanced oxidized protein products, an oxidative stress marker for proteins. The binding ability of endogenous substances (bilirubin and tryptophan) and drugs (warfarin and diazepam) to HSA purified from chronic liver disease patients were significantly suppressed but significantly improved by BCAA supplementation. Interestingly, the changes in this physiological function of HSA in chronic liver disease were correlated with the Cys-Cys34-HSA fraction. In conclusion, ESI-TOFMS is a suitable high throughput method for the rapid and sensitive quantification of Cys-Cys34-HSA in a large number of samples for evaluating oxidative stress related chronic disease progression or in response to a treatment.

Antioxidant effects of a dietary supplement: Reduction of indices of oxidative stress in normal subjects by water-soluble chitosan

The effect of water-soluble chitosan, a natural polymer derived from chitin, on indices of oxidative stress was investigated in normal volunteers. Treatment with chitosan for 4 weeks produced a significant decrease in levels of plasma glucose, atherogenic index and led to increase in high density lipoprotein cholesterol (HDL). Chitosan treatment also lowered the ratio of oxidized to reduced albumin and increased total plasma antioxidant activity (TPA). There was good correlation between TPA and oxidized albumin ratio. The results indicate that oxidized albumin ratio represents a potentially useful marker of oxidative stress. In in vitro studies, albumin carbonyls and hydroperoxides were significantly decreased in a time-dependent manner in the presence of chitosan, compared with controls (p<0.05). Chitosan also reduced two stable radicals in a dose- and time-dependent manner. The results suggest that chitosan has a direct antioxidant activity in systemic circulation by lowering the indices of oxidative stress in both in vitro and in vivo studies. This may confer benefits additional to the reduction in plasma carbohydrate and increase in HDL levels. It may also inhibit oxidation of serum albumin commonly observed in patients undergoing hemodialysis, resulting in reduction of oxidative stress associated with uremia.

CD36 is one of important receptors promoting renal tubular injury by advanced oxidation protein products

Chronic accumulation of plasma advanced oxidation protein products (AOPPs) promotes renal fibrosis. However, the mechanism at the cellular level has not been clarified. In the present study, endocytic assay of human proximal tubular cells (HK-2 cells) demonstrated that AOPPs-human serum albumin (HSA) (in vitro preparations of chloramine- modified HSA) were significantly endocytosed in a dose-dependent manner at a higher level than HSA. The expression of CD36, a transmembrane protein of the class B scavenger receptor, in HK-2 cells was confirmed in the immunoblot analysis. In a cellular assay using overexpressing human CD36 in Chinese hamster ovary (CHO) cells, AOPPs-HSA were significantly endocytosed by CD36-CHO cells but not by mock-CHO cells. Furthermore, the endocytic association and degradation of AOPPs-HSA by HK-2 cells was significantly inhibited by anti-CD36 antibody treatment, suggesting that CD36 is partly involved in the uptake of AOPPs-HSA by HK-2 cells. AOPPs-HSA upregulated the expression of CD36 in a dose-dependent manner. In addition, AOPPs-HSA upregulated the generation of intracellular reactive oxygen species and the secretion of transforming growth factor (TGF)-beta1 in HK-2 cells, whereas anti-CD36 antibody neutralizes the upregulation of TGF-beta1. These results suggest that AOPPs-HSA may cause renal tubular injury via the CD36 pathway.

Hemoglobin vesicles, polyethylene glycol (PEG)ylated liposomes developed as a red blood cell substitute, do not induce the accelerated blood clearance phenomenon in mice.

The hemoglobin vesicle (HbV) is an artificial oxygen carrier encapsulating a concentrated hemoglobin solution in a liposome of which the surface is covered with polyethylene glycol (PEG). It was recently reported that repeated injections of PEGylated liposomes induce the accelerated blood clearance (ABC) phenomenon, in which serum anti-PEG IgM plays an essential role. To examine this issue, we investigated whether HbV induces the ABC phenomenon in mice at a dose of 0.1 mg Hb/kg, a dose that is generally known to induce the ABC phenomenon, or at 1400 mg Hb/kg, which is proposed for clinical use. At 7 days after the first injection of nonlabeled HbV (0.1 mg Hb/kg), the mice received HbV in which the Hb had been labeled with 125I. After a second injection, HbV was rapidly cleared from the circulation, and uptake clearances in liver and spleen were significantly increased. In contrast, at a dose of 1400 mg Hb/kg, the pharmacokinetics of HbV was negligibly affected by repeated injection. It is interesting to note that IgM against HbV was produced 7 days postinjection at both of the above doses, and their recognition site was determined to be 1,2-distearoyl-sn-glycero-3-phosphatidylethanolamine-N-PEG in HbV. These results suggest that a clinical dose of HbV does not induce the ABC phenomenon, and that suppression of ABC phenomenon is caused by the saturation of phagocytic processing by the mononuclear phagocyte system. Thus, we conclude that induction of the ABC phenomenon would not be an issue in the dose regimen used in clinical settings.

Validation of the Chloramine-T Induced Oxidation of Human Serum Albumin as a Model for Oxidative Damage in Vivo

AbstractPurpose. The validity of using chloramine-T as a model compound for mimicing oxidative stress was examined using human serum albumin (HSA) as a model. Important sites of oxidation were studied by mild treatment with chloramine-T and by mutating 34Cys for a serine (C34S). Methods. High-performance liquid chromatography (HPLC) combined with fluorescence detection to confirm the validity of chloramine-T as an oxidizing agent was used. Oxidized amino acid residues were detected by reaction with 5,5′-dithiobis(2-nitro benzoic acid), digestion with cyanogen bromide, followed by capillary electrophoresis. Protein conformation was examined by spectroscopic techniques. Results. From the HPLC analysis of human serum, the validity of using chloramine-T as an oxidizing agent was confirmed. At low chloramine-T concentrations (CT0.1-HSA, CT1-HSA), 34Cys and Met residues were oxidized, at medium concentrations (CT10-HSA), the tryptophan residue also appeared to be oxidized, and at the highest concentration (CT50-HSA), the net charge of Site II of HSA was found to be more negative. The two highest levels of oxidation of HSA (CT10-HSA, CT50-HSA) resulted in conformational changes with an increased exposure of hydrophobic regions, decreased high-affinity bindings of warfarin and ketoprofen and a reduced esterase-like activity. The latter protein also has a shorter plasma half-life and an increased liver clearance. Conclusions. We succeeded in imitating oxidative damage to HSA using chloramine-T and the findings show that Site II is more affected than Site I and 34Cys, when HSA is exposed to oxidative stress.

Evaluation of carboxymethyl-β-cyclodextrin with acid function: Improvement of chemical stability, oral bioavailability and bitter taste of famotidine

The objective of the present study was to evaluate the potential influence of carboxymethyl-beta-cyclodextrin (CM-beta-CyD) on the aqueous solubility, chemical stability and oral bioavailability of famotidine (FMT) as well as on its bitter taste. We examined the effect of the CM-beta-CyD on the acidic degradation of FMT compared with that for sulfobutyl-ether-beta-cyclodextrin (SBE-beta-CyD). The potential use of CM-beta-CyD for orally disintegrating tablets (ODTs) was evaluated in vitro and in vivo. A taste perception study was also carried out. A strong stabilizing influence of CM-beta-CyD was observed against the acidic degradation, in sharp contrast to SBE-beta-CyD which induced a weird destabilizing effect on FMT. (13)C NMR was used to investigate the interaction mode between FMT and the 2 CyDs. In vivo study of ODTs indicated a significant increase in C(max), AUC and oral bioavailability in the case of FMT-CM-beta-CyD tablets, compared with plain drug tablets. However, no significant difference in T(max) and t(1/2) was observed. CM-beta-CyD complexation appears to be an acceptable strategy for enhancing the oral bioavailability of FMT owing to its dramatic effect on the aqueous solubility and chemical stability of the drug. In addition, it has a pronounced effect on masking the bitter taste of FMT.

Pharmacokinetic study of enclosed hemoglobin and outer lipid component after the administration of hemoglobin vesicles as an artificial oxygen carrier.

The hemoglobin vesicle (HbV) is an artificial oxygen carrier that encapsulates a concentrated Hb solution in lipid vesicles (liposomes). The pharmacokinetic properties of HbV were investigated in mice and rats. With use of HbV in which the internal Hb was labeled with 125I (125I-HbV) and cell-free 125I-Hb, it was found that encapsulation of Hb increased the half-life by 30 times, accompanied by decreased distribution in both the liver and kidney. The half-life of HbV was increased, and the uptake clearance for the liver and spleen were decreased with increasing doses of HbV. In an in vitro study, the specific uptake and degradation of HbV in RAW 264.7 cells were found, but this was not the case for parenchymal and endothelial cells. The pharmacokinetics of HbV components (internal Hb and liposomal lipid) were also investigated using 125I-HbV and 3H-HbV (liposomal cholesterol was radiolabeled with tritium-3). The time courses for the plasma concentration curves of 125I-HbV, 3H-HbV, and iron derived from HbV suggest that HbV maintain an intact structure in the blood circulation up to 24 h after injection. 125I-HbV and 3H-HbV were distributed mainly to the liver and spleen. Internal Hb disappeared from both the liver and spleen 5 days after injection, and the liposomal cholesterol disappeared at approximately 14 days. Internal Hb was excreted into the urine and cholesterol into feces via biliary excretion. These results suggest that the HbV has a reasonable blood retention and metabolic and excretion performance and could be used as an oxygen carrier.

Effect of intravenous iron administration frequency on AOPP and inflammatory biomarkers in chronic hemodialysis patients: A pilot study

OBJECTIVES Intravenous iron administration (IVIR) is effective for correcting anemia in hemodialysis (HD) patients, but it also enhances the generation of hydroxyl radicals. Previously we demonstrated that IVIR increases oxidized serum albumin levels in HD patients. However, the effect of IVIR frequencies on the oxidative stress has never been studied before. Therefore, we compared the two IVIR schedules recommended by the Japanese Society for Dialysis Therapy guideline 2004 by measuring oxidized albumin in chronic HD patients. DESIGN AND METHODS Twenty-two HD patients were divided into two IVIR protocol groups (group I: 40 mg of iron 3 times a week for 4 weeks, group II: 40 mg of iron once a week for 3 months). These protocols differ in IVIR frequency, but receive the same amount of iron (total 520 mg). We compared these two regimens by determining the levels of hemoglobin, serum ferritin, advanced oxidation protein products (AOPP), and oxidized albumin at 0, 4, 8, 12, 16, and 20 weeks. RESULTS Both patient groups resulted in a similar and significant increase in hemoglobin levels, whereas group I markedly induced AOPP and oxidation of serum albumin than group II at 4 weeks (P<0.05). AOPP and oxidation of serum albumin was also gradually declined by 20 weeks, while the oxidized albumin and AOPP in group II was not significantly changed during the entire experimental period. Transferrin saturation and serum ferritin levels were also increased in group I compared with group II at 4 weeks (P<0.001). In addition, we found a strong positive correlation between oxidized albumin and serum ferritin levels (r=0.615, P<0.05), suggesting the possibility that the accumulation of iron stores has a causative role in the progression of oxidative stress in HD patients treated with IVIR. CONCLUSIONS The results of this study indicate that lower frequency IVIR protocol is recommended to reduce IVIR-induced oxidative stress in HD patients.