The Arrhythmogenic Effect of Protein-Bound Uremic Toxin p-Cresylsulfate: An In Vitro Study.

BACKGROUND: p-Cresylsulfate (PCS) is a protein-bound uremic toxin that accumulates in patients with chronic kidney disease. Previous studies have indicated that serum total PCS levels are significantly increased in the presence of abnormal corrected QT (QTc) intervals, and that they are associated with QTc prolongation. However, the QTc prolongation effect of PCS remains unclear. The current study aimed to investigate the arrhythmogenic effect of PCS using in vitro experiments and computer simulation. METHODS: The arrhythmogenic effect of PCS was evaluated by incubating H9c2 rat ventricular cardiomyocytes in vitro with increasing concentrations of PCS. Electrophysiological studies and mathematical computer simulations were performed. RESULTS: in vitro, the delayed rectifier potassium current (IK ) was significantly decreased in a dose-dependent manner after treatment with PCS. The modulation of PCS on IK was through regulation of the phosphorylation of the major potassium ion channel protein Kv2.1. In computer simulations, the decrease in IK induced by PCS prolonged the action potential duration (APD) and sped up the re-entrant wave, which is known to be a trigger mechanism for lethal ventricular arrhythmias. CONCLUSIONS: PCS significantly downregulated the phosphorylation of the IK channel protein Kv2.1 and IK current activity, which increased the cardiomyocyte APD. This was observed both in vitro and in the computer O'Hara-Rudy dynamic human ventricular model. These findings suggest that PCS may play a key role in the development of cardiac arrhythmias.

Protein-bounded uremic toxin p-cresylsulfate induces vascular permeability alternations.

The goal of the present studies is to investigate that the impact of p-cresylsulfate (PCS) on the endothelial barrier integrity via in situ exposure and systemic exposure. Vascular permeability changes induced by local injection of PCS were evaluated by the techniques of both Evans blue (EB) and India ink tracer. Rats were intravenously injected with EB or India ink followed by intradermal injections of various doses of PCS (0, 0.4, 2, 10 and 50 µmol/site) on rat back skins. At different time points, skin EB was extracted and quantified. The administration of India ink was used to demonstrate leaky microvessels. Skin PCS levels were also determined by liquid chromatography-mass spectrometry. We also investigated whether the increased endothelial leakage occurred in the aortic endothelium in rats treated with 5/6 nephrectomy and intraperitoneal injection of PCS 50 mg/kg/day for 4 weeks. The aortic endothelial integrity was evaluated by increased immunoglobulin G (IgG) leakage. High doses of PCS, but not lower doses, significantly induced vascular leakage as compared to saline injection and EB leakage exhibited in time-dependent manner. A time-correlated increase in leaky microvessels was detected in the tissues examined. The injected PCS declined with time and displayed an inverse relationship with vascular leakage. Chronic kidney disease (CKD) rats administered with PCS, compared to control rats, had significantly higher serum levels of PCS and apparent IgG deposition in the aortic intima. Increased endothelial leakage induced by PCS in skin microvessels and the aorta of CKD rats suggests that the PCS-induced endothelial barrier dysfunction.

Urinary p-cresol is elevated in young French children with autism spectrum disorder: a replication study.

The aromatic compound p-cresol (4-methylphenol) has been found elevated in the urines of Italian autistic children up to 8 years of age. The present study aims at replicating these initial findings in an ethnically distinct sample and at extending them by measuring also the three components of urinary p-cresol, namely p-cresylsulfate, p-cresylglucuronate and free p-cresol. Total urinary p-cresol, p-cresylsulfate and p-cresylglucuronate were significantly elevated in 33 French autism spectrum disorder (ASD) cases compared with 33 sex- and age-matched controls (p < 0.05). This increase was limited to ASD children aged ≤8 years (p < 0.01), and not older (p = 0.17). Urinary levels of p-cresol and p-cresylsulfate were associated with stereotypic, compulsive/repetitive behaviors (p < 0.05), although not with overall autism severity. These results confirm the elevation of urinary p-cresol in a sizable set of small autistic children and spur interest into biomarker roles for p-cresol and p-cresylsulfate in autism.

Associations among total p-cresylsulfate, indoxyl sulfate and hippuric acid levels with hemodialysis quality indicators in maintenance hemodialysis patients.

BACKGROUND: Total p-cresylsulfate (PCS), indoxyl sulfate (IS) and hippuric acid (HA) are harmful uremic toxins known to be elevated in patients with uremia. Serum total PCS, IS and HA levels have been associated with coronary atherosclerosis, left ventricular hypertrophy, metabolic acidosis, neurological symptoms, and accelerated renal damage associated with chronic kidney disease; however, no study has examined the effect of total PCS, IS and HA on hemodialysis (HD) quality indicators. The aim of this study was to examine associations among total PCS, IS and HA with HD quality indicators in patients undergoing HD treatment. METHODS: This study included 264 consecutive patients at a single HD center who assessed using previously demonstrated HD quality indicators including anemia, bone-mineral metabolism, dialysis dose, cardiovascular risk, and middle molecule removal area. Serum HA was measured using a capillary electrophoresis method. Serum total PCS and IS concentrations were measured using an Ultra Performance LC System. RESULTS: Multiple regression analysis showed that sex, potassium, systolic blood pressure (SBP), average BP, ß2-microglobulin, and creatinine were independently positively associated with IS level, and that age, total cholesterol, and estimated glomerular filtration rate (eGFR) was independently negatively associated with IS level. In addition, ß2-microglobulin was independently positively associated with total PCS. Moreover, potassium, diastolic blood pressure, average BP, ß2-microglobulin, dialysis vintage, and albumin were independently positively associated with HA level, and age, transferrin saturation, fasting glucose, and eGFR were independently negatively associated with HA level. When the patients were stratified by age and sex, serum IS and HA levels were still independently associated with some hemodialysis quality indicators. In addition, canonical correlation analysis also confirmed the relationship between uremic toxins (IS and HA) and HD quality indicators (potassium, ß2-microglobulin, average BP, creatinine, and eGFR). CONCLUSION: This study demonstrated that uremic toxins (IS and HA) and HD quality indicators (potassium, ß2-microglobulin, average BP, creatinine, and eGFR) constructs were correlated with each other, and that there were sex and age differences in these associations among maintenance HD patients.

P-Cresylsulfate, the Protein-Bound Uremic Toxin, Increased Endothelial Permeability Partly Mediated by Src-Induced Phosphorylation of VE-Cadherin.

The goal of our study was to investigate the impact of p-cresylsulfate (PCS) on the barrier integrity in human umbilical vein endothelial cell (HUVEC) monolayers and the renal artery of chronic kidney disease (CKD) patients. We measured changes in the transendothelial electrical resistance (TEER) of HUVEC monolayers treated with PCS (0.1-0.2 mM) similar to serum levels of CKD patients. A PCS dose (0.2 mM) significantly decreased TEER over a 48-h period. Both PCS doses (0.1 and 0.2 mM) significantly decreased TEER over a 72-h period. Inter-endothelial gaps were observed in HUVECs following 48 h of PCS treatment by immunofluorescence microscopy. We also determined whether PCS induced the phosphorylation of VE-cadherin at tyrosine 658 (Y658) mediated by the phosphorylation of Src. Phosphorylated VE-cadherin (Y658) and phosphorylated Src levels were significantly higher when the cells were treated with 0.1 and 0.2 mM PCS, respectively, compared to the controls. The endothelial barrier dysfunction in the arterial intima in CKD patients was evaluated by endothelial leakage of immunoglobulin G (IgG). Increased endothelial leakage of IgG was related to the declining kidney function in CKD patients. Increased endothelial permeability induced by uremic toxins, including PCS, suggests that uremic toxins induce endothelial barrier dysfunction in CKD patients and Src-mediated phosphorylation of VE-cadherin is involved in increased endothelial permeability induced by PCS exposure.

Synbiotic meal decreases uremic toxins in hemodialysis individuals: A placebo-controlled trial.

Generation of uremic toxins p-cresylsulfate (p-CS), indoxyl sulfate (IS) and indole 3-acetic acid (IAA) in hemodialysis (HD) individuals may be associated with the gut flora and recognized markers of disease progression. This study investigated the effect of synbiotic meal on uremic toxins in HD individuals. We conducted randomized singleblind and placebo-controlled intervention study with 58 HD subjects (20F/38M, 63.1 ±â€¯10.9-old) who were randomly allocated in synbiotic group (SG, 40 g of extruded sorghum plus 100 mL of unfermented probiotic milk) or control group (CG, 40 g of extruded corn plus 100 mL of pasteurized milk), during 7-wk Metabolic markers and uremic toxins, fecal concentration of short chain fatty acid and pH value was determined. The SG group had decreased serum p-CS and IS, as well as decreased urea concentration (p < .05) compared to CG. SG showed higher fecal butyric acid and lower pH compared to baseline and SC (p < .05). In addition, serum p-CS and fecal pH were positively correlated to urea concentration in SG participants at the endpoint. The consumption of the synbiotic meal during 7-wk reduced colonic pH, and reduced serum uremic (p-CS and IS) toxins and urea in HD subjects.

Role of Uremic Toxins for Kidney, Cardiovascular, and Bone Dysfunction.

With decreasing kidney function, cardiovascular disease (CVD) and mineral bone disorders frequently emerge in patients with chronic kidney disease (CKD). For these patients, in addition to the traditional risk factors, non-traditional CKD-specific risk factors are also associated with such diseases and conditions. One of these non-traditional risk factors is the accumulation of uremic toxins (UTs). In addition, the accumulation of UTs further deteriorates kidney function. Recently, a huge number of UTs have been identified. Although many experimental and clinical studies have reported associations between UTs and the progression of CKD, CVD, and bone disease, these relationships are very complex and have not been fully elucidated. Among the UTs, indoxyl sulfate, asymmetric dimethylarginine, and p-cresylsulfate have been of particular focus, up until now. In this review, we summarize the pathophysiological influences of these UTs on the kidney, cardiovascular system, and bone, and discuss the clinical data regarding the harmful effects of these UTs on diseases and conditions.

Exploring binding characteristics and the related competition of different protein-bound uremic toxins.

Little is known about potential differences in binding characteristics of protein-bound uremic toxins (PBUTs) in patients with chronic kidney disease (CKD) versus healthy controls. The question arises whether eventual differences are attributed to (i) the elevated levels of competing uremic toxins, and/or (ii) post-translational modifications of albumin. We evaluated the binding characteristics of hippuric acid (HA), indole-3-acetic acid (IAA), indoxyl sulfate (IS), and p-cresylsulfate (pCS) by deriving a binding curve in three distinct conditions: (i) serum from healthy controls (healthy serum), (ii) blank serum from hemodialysis patients (blank HD serum; i.e. cleared from uremic toxins), and (iii) non-treated serum from HD patients (HD serum). Additionally, the mutual binding competition of these uremic toxins was studied in blank HD in pairs. In both experiments, equilibrium dialysis (37 °C, 5 h) was used to separate the free and bound fractions of each PBUT. Free and total PBUT concentrations were quantified by an ultra-high performance liquid chromatography method with tandem mass spectrometer detection and the percentage protein binding (%PB) of each PBUT was calculated. For all four compounds, the binding capacity of healthy serum was higher than blank HD serum, which was comparable to non-treated HD serum, except for HA. The competition experiments revealed that at high uremic concentrations, mutual competition was observed for the strongly bound PBUTs IS and pCS. The %PB of the weakly bound HA and IAA was lower (trend) only for the addition to blank HD serum containing the strongly bound IS or pCS. There is an intrinsic impact on protein binding in uremia, revealing a lower binding capacity, as compared to healthy controls. Competitive binding is only relevant for the strongly bound PBUTs at high uremic concentrations. In addition, at least part of the effect on binding capacity can be attributed to post-translational modifications of albumin.

Associations among chronic kidney disease, high total p-cresylsulfate and left ventricular systolic dysfunction.

BACKGROUND: A significant number of patients with chronic kidney disease (CKD) have cardiac abnormalities, and left ventricular systolic dysfunction (LVSD) is a common manifestation. p-Cresylsulfate (PCS), a protein-bound uraemic retention solute, is known to cause endothelial dysfunction and possibly plays a role in coronary atherosclerosis. Furthermore, the associations among serum total PCS, major adverse cardiovascular events, all-cause mortality, and QTc prolongation have also been found in previous studies. We thus investigated the association of total PCS and CKD with LVSD in the clinical setting. METHODS: We included 403 consecutive patients with stable angina. To evaluate LV function, all patients underwent echocardiography. To measure the serum total PCS concentrations and estimated glomerular filtration rate (eGFR), blood samples were obtained. RESULTS: Multiple regression analysis showed that left atrium diameter, left ventricular mass index, end diastolic interventricular septal thickness, left ventricular end-systolic diameter, left ventricular end-systolic volume, stroke volume, left ventricular end-systolic volume index, left ventricular ejection fraction (LVEF), and the interventricular septum/posterior wall of the left ventricle were independently associated with total PCS (all p<0.05). In addition, a significantly decreased LVEF was present in patients with lower and higher serum total PCS and with CKD, and with higher serum total PCS and without CKD than from those with lower serum total PCS concentrations and without CKD (p=0.004). In the multivariate logistic regression analysis, when patients without CKD and lower PCS were used as reference group, patients with the higher total PCS concentration and without CKD had an odds ratio of 3.59 for the risk of LVSD, the lower total PCS concentration and with CKD had an odds ratio of 3.89 for the risk of LVSD, and the higher total PCS concentration and with CKD had an odds ratio of 4.04 for the risk of LVSD (p=0.039, p=0.038, and p=0.020, respectively). CONCLUSIONS: High serum concentrations of total PCS or CKD, or both, represent an increased risk of impaired LV systolic function in stable angina patients.

Exploring Protein Binding of Uremic Toxins in Patients with Different Stages of Chronic Kidney Disease and during Hemodialysis.

As protein binding of uremic toxins is not well understood, neither in chronic kidney disease (CKD) progression, nor during a hemodialysis (HD) session, we studied protein binding in two cross-sectional studies. Ninety-five CKD 2 to 5 patients and ten stable hemodialysis patients were included. Blood samples were taken either during the routine ambulatory visit (CKD patients) or from blood inlet and outlet line during dialysis (HD patients). Total (CT) and free concentrations were determined of p-cresylglucuronide (pCG), hippuric acid (HA), indole-3-acetic acid (IAA), indoxyl sulfate (IS) and p-cresylsulfate (pCS), and their percentage protein binding (%PB) was calculated. In CKD patients, %PB/CT resulted in a positive correlation (all p < 0.001) with renal function for all five uremic toxins. In HD patients, %PB was increased after 120 min of dialysis for HA and at the dialysis end for the stronger (IAA) and the highly-bound (IS and pCS) solutes. During one passage through the dialyzer at 120 min, %PB was increased for HA (borderline), IAA, IS and pCS. These findings explain why protein-bound solutes are difficult to remove by dialysis: a combination of the fact that (i) only the free fraction can pass the filter and (ii) the equilibrium, as it was pre-dialysis, cannot be restored during the dialysis session, as it is continuously disturbed.

Serum total p-cresylsulfate level is associated with abnormal QTc interval in stable angina patients with early stage of renal failure.

BACKGROUND: p-Cresylsulfate (PCS), a protein-bound uraemic retention solute, is known to cause endothelial dysfunction and possibly plays a role in coronary atherosclerosis. Furthermore, the association among serum total PCS, major adverse cardiovascular events, and all-cause mortality were also found in previous studies. However, little is known about the relationship between total PCS level and prolonged QT interval. We assessed whether serum total PCS level is related with prolonged QT interval by measuring 12-lead electrocardiogram (ECG) recording in stable angina patients with early stage of renal failure. METHODS: Serum total PCS concentrations were measured by using the Ultra Performance LC System in 154 consecutive stable angina patients. A 12-lead ECG recording was obtained from each subject. RESULTS: Patients with abnormal corrected QT (QTc) interval have higher median serum total PCS levels than patients with normal QTc interval. Statistically significant associations were observed between the serum total PCS levels and the QTc interval (r=0.217, P=0.007). Using multivariate and trend analyses, serum total PCS level was independently associated with QTc prolongation. CONCLUSIONS: This study indicates that serum total PCS levels are significantly higher in the presence of abnormal QTc interval and are associated with the QTc prolongation. Whether total PCS plays a role in the pathogenesis of QTc prolongation requires future investigation.