Dysregulated iron metabolism in patients on hemodialysis.

The two main causes of death in patients on maintenance hemodialysis (MHD) are cardiovascular disease and infection. In the current report, we discuss the association of the iron-catalyzed Fenton reaction and iron sequestration with complications in MHD patients. In particular, we have studied the deregulation of several iron transport systems of polymorphonuclear leukocytes (PMNLs) and the effects of TNF-α on human umbilical vein endothelial cells or PMNLs obtained from MHD patients and controls, and the following results were obtained. (1) Iron was sequestered in MHD-PMNLs, in which the protein governing iron transport was dysregulated. (2) TNF-α accelerated iron accumulation and oxidative stress in human umbilical vein endothelial cells in a manner similar to that in MHD-PMNLs. (3) An endosomal iron transport protein, or natural resistance-associated macrophage protein 1, was decreased in PMNLs from MHD patients, and TNF-α caused a decline in this protein's expression in control PMNLs. (4) The mitochondrial iron chaperone protein frataxin was decreased in MHD-PMNLs, which was linked to the acceleration of oxidative stress and hypercytokinemia. (5) The index of arterial stiffness was aggravated in MHD patients and was associated with serum hepcidin and TNF-α levels, which could inhibit iron exit from cells. With regard to bacterial infections, iron availability to these intracellular pathogens is critical for their growth. In particular, iron accumulation in cells and endosomes may accelerate the spread of infection. Cardiovascular disease has been shown to be linked to oxidative stress caused by iron sequestration in vascular cells and macrophages as well as by the alteration of iron metabolism in mitochondria, and the observed increase in hepcidin and TNF-α may accelerate these crucial steps of oxidative stress in vascular disease. Thus, because surplus iron in the body may escalate the dysregulation of iron metabolism, as observed in MHD patients, iron supplementation for renal anemia treatment should be prudent.

Hemodialysis restored iron distribution that was sequestered in the spleen by bilateral nephrectomy.

Acute kidney injury (AKI) is associated with dysregulated iron metabolism, which may play a significant role in cellular injury. The effect of hemodialysis (HD) on iron metabolism in AKI therapy has not been well defined. The effects of HD on iron parameters were tested in control rats and bilateral nephrectomy (BNx) rats. The BNx rats were divided into the following three groups: 1) the sham-operated group (BNx-Sham), 2) the BNx group, and 3) the HD group (BNx-HD), which received HD therapy 40-45 h after BNx. Sections of the liver or spleen were stained with Berlin blue to examine the accumulation of iron. The mRNA levels of hepcidin and ferroportin 1 in the spleen and liver were also quantified using RT-PCR. In the BNx group, the plasma iron and hematocrit levels were decreased, and hepcidin levels were increased. The iron staining in the spleen in the BNx group was significantly more intense than that in the BNx-Sham group; however, after an HD session, splenic iron staining diminished to the level of the sham group along with an increase in plasma iron and a decrease in hepcidin. BNx moved iron from hemoglobin and the plasma to the spleen, which is associated with an increase in plasma hepcidin. A single HD session accelerated the release of iron from the spleen, and the increased plasma iron was linked to the removal of hepcidin. Our data suggested that hepcidin might dynamically modulate the iron metabolism in BNx as well as in HD.

The mitochondrial protein frataxin is downregulated in hemodialysis patients.

BACKGROUND: The mitochondrial protein frataxin regulates iron metabolism for heme and iron sulfur cluster synthesis in the mitochondria and could be associated with the regulation of oxidative stress. To clarify the expression of frataxin and its association with uremia, we evaluated the mRNA and protein levels of frataxin in the polymorphonuclear leukocytes (PMNLs) of patients on hemodialysis (HD). METHODS: Uremic patients on HD (n = 18) and healthy control subjects (n = 18) were investigated. PMNLs were isolated by differential centrifugation. The mRNA levels of frataxin in isolated leukocytes were quantified by TaqMan real-time polymerase chain reaction. Frataxin protein expression in the cell lysate was evaluated using SDS-polyacrylamide gel electrophoresis and Western blotting. RESULTS: The frataxin/glyceraldehyde-3-phosphate dehydrogenase mRNA ratio in PMNLs from uremic patients was significantly lower than that in control subjects. Frataxin protein expression in uremic patients was also significantly lower than that in controls. Multiple regression analysis showed that frataxin mRNA levels were independently associated with the serum levels of both the oxidative stress marker malondialdehyde and the proinflammatory cytokine tumor necrosis factor-α. CONCLUSION: The downregulation of frataxin seems to be linked with uremic status, which is usually associated with chronic inflammation and the acceleration of oxidative stress. Mitochondrial iron regulation may play a role in several comorbidities and in the poor prognosis in uremic patients. Further investigation is needed to elucidate whether reduced frataxin levels are linked to the pathological status of uremic patients and whether uremic substances affect frataxin expression.

High levels of tumor necrosis factor-α downregulate antimicrobial iron transport protein, Nramp1, in chronic hemodialysis patients: a key factor for infection risk.

BACKGROUND/AIMS: The susceptibility of patients on maintenance hemodialysis (MHD) to infections is a major cause of mortality and morbidity. Natural resistance-associated macrophage protein 1 (Nramp1) regulates intracellular pathogen proliferation, and its mRNA expression is highest in polymorphonuclear leukocytes (PMNLs). The purpose of this study was to determine the level of Nramp1 in PMNLs from MHD patients and the factors affecting its expression. METHODS: Twenty MHD patients and 24 healthy volunteers (controls) were recruited. Relative quantitative PCR was used to measure Nramp1 mRNA, and protein levels were semiquantified by means of real-time PCR and Western blot analysis or immunohistochemistry. The effect of tumor necrosis factor-α (TNF-α) or interleukin-6 (IL-6) on Nramp1 expression in PMNLs from controls was also examined. RESULTS: Nramp1 mRNA and protein levels were substantially lower in PMNLs from MHD than control subjects. Serum TNF-α levels were significantly higher in the MHD group and were inversely correlated with Nramp1 mRNA levels. The addition of TNF-α to PMNLs from control subjects decreased mRNA and protein levels of Nramp1. IL-6 did not alter Nramp1 mRNA or protein expression. CONCLUSION: We found that Nramp1 was downregulated in the PMNLs of MHD patients, which constitute the first defense barrier against bacterial challenges. High levels of TNF-α may be associated with the downregulation of Nramp1. Our findings indicate that the susceptibility to infection observed in MHD patients could be partly due to the impairment of the intracellular handling of iron and the donation of more iron to the bacteria.

The impact of ferritin fluctuations on stable hemoglobin levels in hemodialysis patients.

BACKGROUND: Hemoglobin (Hb) cycling in patients with renal anemia might be associated with a higher mortality rate. We investigated the association of factors relating serum ferritin and dose of erythropoiesis-stimulating agents (ESAs) with Hb levels. METHODS: We measured Hb and ferritin levels every month in 266 hemodialysis (HD) patients for 12 months. RESULTS: The standard deviation (SD) and residual SD (RSD) (liner regression of Hb or ferritin SD values) values of Hb were significantly correlated with ferritin SD or RSD values, respectively. The percentage achievement of target Hb in the target-ferritin group was significantly higher than in the high-amplitude fluctuation ferritin group. Ferritin SD and RSD values in patients with oral or no iron supplementation were significantly lower than those who received intravenous iron. CONCLUSION: Iron storage varies over a relatively wide range in HD patients, and this variation is closely associated with Hb cycling. The stability of iron storage and ESA dosage is important for maintaining stable Hb levels.

Persistent homocysteine metabolism abnormality accelerates cardiovascular disease in hemodialyzed patients--the Nishinomiya Study.

OBJECTIVE: Homocysteine (Hcy) is an intermediate in sulfur amino acid metabolism and may induce oxidative stress. Several studies have reported that elevated Hcy in end-stage renal failure may contribute to cardiovascular disease (CVD). The purpose of this study is to investigate whether the changes in Hcy levels correlate better with the CVD outcomes than baseline Hcy level. METHODS: A total of 187 patients on dialysis participated in the present prospective observational study and were followed up for 107 months. Baseline cross-sectional analysis of the relationship between Hcy and several factors related to its metabolism was performed, along with survival analysis for the occurrence of CVD. All subjects were divided into the Increase or Decrease of Hcy group on the basis of changes in Hcy from baseline to year 3. RESULTS: The occurrence of CVD was higher in the Increase (30.1%) than in the Decrease group (9.0%). Greater change of Hcy was associated with risk of CVD (hazard ratio: 3.658) after adjusting basic factors and nutritional status. In stepwise multiple analyses, serum folate, vitamin B(12), cysteine, creatinine, and body mass index were considered to be independent predictors of Hcy. CONCLUSIONS: These data show that increase in Hcy is a powerful predictor of the occurrence of CVD in patients on dialysis.

A crossover study of the acrylonitrile-co-methallyl sulfonate and polysulfone membranes for elderly hemodialysis patients: the effect on hemodynamic, nutritional, and inflammatory conditions.

Many maintenance hemodialysis (MHD) patients have recently been treated with high flux (HF) dialysis membranes such as polysulfone (PSu) membranes. However, the appropriateness of HF for elderly MHD remains to be elucidated. In order to estimate hemodialysis (HD) efficiency, the hemodynamic condition during HD, and the nutritional status, 28 elderly MHD patients were treated with PSu for 3 months. After this, the patients were switched to acrylonitrile-co-methallyl sulfonate (AN69) membranes for the next 3 months and then returned to PSu for another 3 months. Reduction ratio of inflammatory cytokines (interleukin [IL]-6) by AN69 was significantly higher than the reduction ratio by PSu. After 3 months with AN69, the serum total protein, albumin, and cholesterol levels significantly increased, and after switching back to PSu, the levels returned to baseline. Furthermore, the frequency of saline used to treat episodes of hypotension during HD significantly decreased in the AN69 period. In elderly MHD patients, it was possible to achieve improvements in both malnutrition and chronic inflammatory conditions with AN69. This suggests that AN69 may be the preferred membrane for elderly MHD, because it stabilizes the hemodynamic condition and demonstrates a higher removal of inflammatory cytokines during HD.

Aldosterone requires vasopressin V1a receptors on intercalated cells to mediate acid-base homeostasis.

Both aldosterone and luminal vasopressin may contribute to the maintenance of acid-base homeostasis, but the functional relationship between these hormones is not well understood. The effects of luminal vasopressin likely result from its interaction with V1a receptors on the luminal membranes of intercalated cells in the collecting duct. Here, we found that mice lacking the V1a receptor exhibit type 4 renal tubular acidosis. The administration of the mineralocorticoid agonist fludrocortisone ameliorated the acidosis by restoring excretion of urinary ammonium via increased expression of Rhcg and H-K-ATPase and decreased expression of H-ATPase. In a cell line of intercalated cells established from transgenic rats expressing the mineralocorticoid and V1a receptors, but not V2 receptors, knockdown of the V1a receptor gene abrogated the effects of aldosterone on H-K-ATPase, Rhcg, and H-ATPase expression. These data suggest that defects in the vasopressin V1a receptor in intercalated cells can cause type 4 renal tubular acidosis and that the tubular effects of aldosterone depend on a functional V1a receptor in the intercalated cells.

Hepcidin as well as TNF-α are significant predictors of arterial stiffness in patients on maintenance hemodialysis.

BACKGROUND: Dysregulated iron metabolism has been suspected to be linked to anemia of chronic disease and to cardiovascular disease (CVD). For the purpose of clarifying the factors affecting arterial stiffness, we evaluated the relationship between iron metabolism, brachial-ankle (ba)-pulse wave velocity (PWV) and several risk factors for CVD in maintenance hemodialysis (MHD) patients. METHODS: A total of 168 MHD patients were recruited, and the levels of iron parameters, hepcidin, CVD risk factors and ba-PWV were evaluated. The level of serum hepcidin-25 was specifically measured by liquid chromatography-tandem mass spectrometry. RESULTS: Serum levels of tumor necrosis factor-α (TNF-α), interleukin-6 (IL-6) and hepcidin were higher in MHD patients, which was consistent with results from our previous study. ba-PWV significantly correlated with age (P < 0.01, R = 0.34), total cholesterol (T-CHO; P = 0.02, R = 0.21), TNF-α (P < 0.01, R = 0.24) and hepcidin (P < 0.01, R = 0.25) but not with other iron parameters and CVD risk factors. According to multiple regression analysis, age (ß = 0.30), T-CHO (ß = 0.24) TNF-α (ß = 0.19) and hepcidin (ß = 0.23) were selected as the significant predictors of ba-PWV in MHD patients. CONCLUSION: Serum levels of both hepcidin and TNF-α are independently associated with arterial stiffness in MHD patients, suggesting that microinflammation and iron metabolism might affect the integrity of arterial walls.

Pathological role of aminolevulinate in uremic patients.

Previous reports have demonstrated that δ-aminolevulinate (ALA) can promote iron release from horse spleen ferritin under conditions of high serum ALA levels in uremia; therefore, we speculated that the accumulated ALA in uremic patients would stimulate iron release from ferritin, resulting in accelerated oxidative stress and uremic complications. We measured the plasma ALA of uremic patients and examined the ALA-induced iron release from human ferritin. The participants consisted of 30 hemodialysis patients and 14 healthy subjects. Plasma malondialdehyde was measured as a surrogate marker of lipid peroxidation. The plasma exchange effluent from two patients who had undergone plasma exchange (for the treatment of systemic lupus erythematosus and acute myeloblastic leukemia) was collected and treated to obtain the human ferritin-rich fraction. Iron release from ferritin was examined using bathophenanthroline sulfate. The influence of antioxidants and different pH levels on iron release were investigated. Plasma ALA and malondialdehyde concentration in the hemodialysis patient was significantly higher than that in healthy subjects. ALA was positively correlated with malondialdehyde. The abundance of iron release was dependent on the ALA concentration and incubation time. Iron release at the high pH of 7.6 was decreased compared with that at pH 7.4. Citrate increased iron release at pH 7.4, but citrate-stimulated iron release was totally abolished at pH 7.6. Our study suggests that ALA accumulation may have a role to play in certain complications in uremic patients, such as oxidative stress, by releasing iron from ferritin.

The impact of beta2-microglobulin clearance on the risk factors of cardiovascular disease in hemodialysis patients.

beta2-Microglobulin (beta2M) is an independent predictor of outcome for hemodialysis (HD) patients and a representative substance of middle molecules. We tested the relationship among serum beta2M levels and cardiovascular disease (CVD) risk factors in HD patients. A total of 132 HD patients were divided according to the dialysis membrane used [property; cellulose and synthetic or beta2M clearance; low filtration (LF), middle filtration (MF), and high filtration (HF)]. There was no significant difference in CVD risk factors between cellulose and synthetic groups. On the other hand, serum beta2M, highly-sensitive C-reactive protein (hCRP), troponin-T (TnT), and myeloperoxidase (MPO) levels of LF were significantly higher and those of prealbumin (PA) were lower than the MF and HF. Serum beta2M level was positively correlated with hCRP, interleukin-6 (IL-6), tumor necrosis factor-alpha (TNF-alpha), MPO, TnT, N-terminal pro-B-type natriuretic peptide (NT-proBNP) and inversely correlated with PA and ankle-brachial index (ABI). There was a significant correlation between serum beta2M levels and various CVD risk factors in HD. Cardiovascular disease risk factors in HD patients were dependent on the beta2M clearance but not membrane property.

Interleukin-6 is a predictor of mortality in stable hemodialysis patients.

BACKGROUND/AIMS: Mortality in end-stage renal disease patients with dialysis remains high. A high percentage of dialysis patients display signs of chronic microinflammation. To clarify whether microinflammation is involved in the high incidence of poor prognosis in dialysis patients, we investigated the association of inflammatory markers with mortality in a prospective observational cohort study. METHODS: 120 patients undergoing hemodialysis were enrolled. Baseline cross-sectional analysis of the relationship between inflammatory markers [interleukin-6 (IL-6), tumor necrosis factor-alpha and high-sensitivity C-reactive protein] and other factors, along with a survival analysis for death, were performed. All subjects were divided into 2 groups according to the median value of IL-6. RESULTS: The mortality rate was significantly higher in the high (20.0%) compared with the low IL-6 group (3.3%, p = 0.0046). Receiver-operating characteristic curves indicated high mortality to be closely associated with a high IL-6 level rather than tumor necrosis factor-alpha. In stepwise multiple regression analyses, age, phosphorus and high-sensitivity C-reactive protein were independent predictors of IL-6 (R(2) = 0.466, p < 0.0001). CONCLUSIONS: These data clearly show that plasma IL-6 is a powerful predictor of all-cause mortality in dialysis patients.

Tumor necrosis factor-alpha-induced iron sequestration and oxidative stress in human endothelial cells.

OBJECTIVE: Tumor necrosis factor (TNF)-alpha-induced endothelial injury, which is associated with atherosclerosis, is mediated by intracellular reactive oxygen species. Iron is essential for the amplification of oxidative stress. We tested whether TNF-alpha accelerated iron accumulation in vascular endothelium, favoring synthesis of hydroxyl radical. METHODS AND RESULTS: Diverse iron transporters, including iron import proteins (transferrin receptor [TfR] and divalent metal transporter 1 [DMT1]) and an iron export protein (ferroportin 1 [FP1]) coexist in human umbilical endothelial cells (HUVECs). TNF-alpha caused upregulation of TfR and DMT1 and downregulation of FP1, which were demonstrated in mRNA as well as protein levels. These changes in iron transporters were accompanied by accumulation of iron that was both transferrin-dependent and transferrin-independent. Modifications of these mRNAs were regulated post-transcriptionally, and were coordinated with activation of binding activity of iron regulatory protein 1 to the iron responsive element on transporter mRNAs. Using a salicylate trap method, we observed that only simultaneous exposure of endothelial cells to iron and TNF-alpha accelerated hydroxyl radical production. CONCLUSIONS: TNF-alpha could cause intracellular iron sequestration, which may participate importantly in the pathophysiology of atherosclerosis and cardiovascular disease.

Comparison of cytotoxicity of cysteine and homocysteine for renal epithelial cells.

BACKGROUND: Although the cytotoxic effects of cysteine (Cys) on renal cells have been established, the effects of homocysteine (Hcy), which causes endothelial cell dysfunction, have not been well tested. We compared the direct toxicity of Hcy on renal tubular cells to that of Cys and examined the mechanism of cell toxicity. METHODS: LLC-PK1 cells were incubated with test media containing 500 microM Cys or Hcy in the presence or absence of 100 microM copper. Lactate dehydrogenase release and thiobarbituric acid reactive substance were measured for estimating cytolysis and lipid peroxidation, respectively. The generation of hydrogen peroxide and hydroxyl radical, and the cell redox state were analyzed using the scopoletin method, salicylate-trap method, and glutathione (GSH) content, respectively. Superoxide dismutase, catalase, and vitamin E also were used for clarifying the mechanism of toxicity. RESULTS: In the presence of copper (+ Cu), cytolysis at 16 h was more prominent in cells exposed to Cys than Hcy. In accordance with cytotoxicity, lipid peroxidation at 4 h of incubation, as well as hydrogen peroxide and hydroxyl radical formation in a shorter incubation, were remarkably greater in Cys + Cu than Hcy + Cu. The addition of Hcy, but not Cys, decreased GSH content significantly. CONCLUSION: In the presence of copper, Cys was extraordinarily more cytotoxic to renal cells than Hcy. Cytotoxicity from Hcy may be dependent upon depletion of cellular GSH, while Cys cytotoxicity is primarily dependent upon the generation of reactive oxygen species and lipid peroxidation.

Defective regulation of iron transporters leading to iron excess in the polymorphonuclear leukocytes of patients on maintenance hemodialysis.

BACKGROUND: Although hemodialysis (HD) patients are suspected of having defectively regulated iron metabolism, intracellular iron status has never been investigated thoroughly. To clarify the iron metabolism of HD patients, proteins involved in iron import (transferrin receptor [TfR]), as well as export (ferroportin 1), were investigated in polymorphonuclear leukocytes (PMNLs). Relations between iron status and several PMNL functions also were tested. METHODS: Seventeen HD patients and 17 controls were recruited. Relative quantitative polymerase chain reaction was used to measure ferroportin 1 and TfR messenger RNA (mRNA), and ferroportin 1 and TfR expression were semiquantified by means of Western blot analysis or immunohistochemistry. PMNL functions also were examined. RESULTS: Serum iron levels were significantly lower in HD patients than controls, and serum ferritin levels, as well as PMNL ferritin and iron content, were elevated in HD patients. Ferroportin 1 mRNA levels were substantially lower in PMNLs from HD patients, whereas TfR mRNA levels were higher. Western blot analysis and immunohistochemistry confirmed that expression of the corresponding proteins paralleled those of the mRNAs. PMNL phagocytic and bactericidal activity did not differ between HD patients and controls. Chemotactic peptide f-Met-Leu-Phe-stimulated degranulation activity of lactoferrin (Lf) was decreased significantly in HD patients, whereas those of myeloperoxidase and elastase were accelerated. Lf release correlated negatively with intracellular ferritin level. CONCLUSION: We show for the first time that increased iron levels in PMNLs of HD patients were associated with downregulation of ferroportin 1 and upregulation of TfR, which might be linked to hypercytokinemia.

Accumulation of cyanide and thiocyanate in haemodialysis patients.

BACKGROUND: Cyanide is a toxic agent, and its detoxification product, thiocyanate, may be a major pathogenetic substance in uraemia. Recent studies examining the myeloperoxidase(MPO)/thiocyanate system have suggested a link between thiocyanate and atherosclerosis. However, inaccuracies in conventional assays for cyanide and thiocyanate have limited the understanding of their metabolism in haemodialysis (HD) patients. METHODS: We used high-performance liquid chromatography to measure cyanide in erythrocytes and thiocyanate in plasma in 43 HD patients and in a group of 46 healthy controls that included 15 current smokers. To clarify the metabolic conversion of cyanide to thiocyanate in uraemic patients, we also measured cysteine and sulfate. We then used stepwise regression analysis to analyse factors that determine erythrocyte cyanide and plasma thiocyanate. RESULTS: Mean cyanide and thiocyanate were significantly greater in HD patients than in non-smoking controls. However, cyanide was far below lethal concentrations in dialysis patients. Thiocyanate was six to seven times greater in HD patients than in non-smoking controls, and decreases in thiocyanate following dialysis were only 19.3+/-3.5%. Multiple regression analysis showed a positive correlation between cyanide and thiocyanate in controls, but a negative correlation in HD patients. In patients, an inverse relationship between thiocyanate and BUN was also observed. CONCLUSIONS: The elevation of thiocyanate in patients undergoing dialysis probably is secondary to both limited efficiency of HD and deranged metabolism of cyanide and thiocyanate. Because thiocyanate is a preferred substrate for MPO, it may play a role in uraemic complications including cardiovascular events.

Free cysteine is increased in plasma from hemodialysis patients.

BACKGROUND: Although only the total thiol concentration, which includes bound and free forms, has been determined in most previous clinical studies, the free form may be a better predictor of cardiovascular risk. METHODS: We measured the apparent concentration of free homocysteine (Hcy) and cysteine (Cys) in filtered and acid-soluble fractions of plasma in healthy control subjects and in patients with chronic renal failure just before and after a hemodialysis session. RESULTS: In control, filtered Hcy and acid-soluble Hcy were similar, while filtered Cys was much smaller than in acid-soluble Cys. In prehemodialysis samples, filtered Cys was more than 60 times as abundant (259.2 +/- 26.2 micromol/L) as in control samples (4.1 +/- 0.7 micromol/L ). Free-to-total ratios for filtered Cys were 1.6 +/- 0.3% in controls, but 40.9 +/- 2.7% in prehemodialysis patients. CONCLUSIONS: The filtered fraction of thiols can be used to estimate solute transport across the dialysis membrane. In addition, the possible involvement of cysteine in the pathogenesis of atherosclerosis in hemodialysis patients should be reexamined.

Impairment of vascular responses to reactive hyperemia and nitric oxide in chronic renal failure.

BACKGROUND: Cardiovascular events are the leading cause of morbidity and mortality in patients with end-stage renal disease. The role of endothelial dysfunction, an early marker of arteriosclerosis, in patients with chronic renal failure (CRF) before the initiation of maintenance hemodialysis (HD), and the factors affecting endothelial dysfunction in the setting of chronic renal failure remain poorly understood. METHODS: We evaluated endothelial function by measuring flow-mediated vasodilation (%FMD) during reactive hyperemia in healthy individuals (HCS) and patients with chronic renal failure with (HD) or without (ND) hemodialysis. Nonspecific endothelium-independent vasodilation (%NTG) was measured after the administration of sublingual glyceryl trinitrate spray (0.3 mg). Factors affecting %FMD and %NTG were also tested. RESULTS: In ND and HD, plasma homocysteine, cysteine and stable NO metabolite (NO(-)(3)) concentrations were significantly elevated. In ND and HD, reactive hyperemia as well as %NTG and %FMD were attenuated to a similar degree. On multivariate regression analysis, NO(-)(3) concentration was directly correlated with both %FMD and %NTG, while the glutathione (GSH) concentration correlated with only %NTG. CONCLUSIONS: Our findings indicate that chronic renal failure before the initiation of maintenance hemodialysis impairs endothelial function and/or the response to NO, which is accompanied by the attenuated reactive hyperemia. Furthermore, the impairment might be related to the decreased synthesis or the dissipation of NO.

Association of hyperhomocysteinemia with plasma sulfate and urine sulfate excretion in patients with progressive renal disease.

BACKGROUND: Plasma total homocysteine (tHcy) level is increased in patients with renal disease, parallel to serum creatinine concentration. In renal failure, the final product of sulfated amino acid metabolism, sulfate, also accumulates as renal function declines. We hypothesized that the elevation in sulfate level could cause hyperhomocysteinemia and tested the relation between tHcy level and both urinary excretion and plasma levels of sulfate. METHODS: Forty patients with renal disease were divided into three groups: patients without renal failure (nRF; creatinine clearance [CCr] > or = 80 mL/min/1.73 m2 [> or =1.33 mL/s/1.73 m2]), patients with mild renal failure (mRF; 80 > CCr > or = 25 mL/min/1.73 m2 [1.33 > CCr >/ or 0.42 mL/s/1.73 m2]), and patients with severe renal failure (sRF; CCr < 25 mL/min/1.73 m2 [<0.42 mL/s/1.73 m2]). Daily urinary excretion and plasma levels of tHcy, total cysteine (tCys), and sulfate were measured. A healthy control (HC) group also was tested. Serum methionine, taurine, vitamin B12, and folate levels also were determined in patients with renal disease. RESULTS: Plasma tHcy and sulfate concentrations in the groups with mRF and sRF were greater than in the HC group. Plasma tCys concentrations in the mRF and sRF groups were greater than in the nRF group. Daily urinary Hcy and Cys excretion did not differ among the four groups. Daily urine sulfate and urea nitrogen excretion in the sRF group were significantly less than in the HC and nRF groups. Multiple regression analyses showed that plasma creatinine (beta = 0.40) and sulfate (beta = 0.43) levels were independently associated with plasma Hcy level; among urine parameters, only daily urine sulfate excretion (beta = -0.52) was independently associated with plasma Hcy level. CONCLUSION: The elevated plasma sulfate level, in accordance with renal function, is associated with plasma tHcy level. Decreased sulfate excretion, which might parallel the intake of sulfated amino acid or protein, may increase tHcy levels.