Andréa Novais Moreno-Amaral scite author profile

It is hypothesized that the uremic toxin indoxyl sulfate (IS) plays a role in the pathogenesis of renal anemia. To further explore that hypothesis, we examined the effects of IS on reactive oxygen species (ROS) production, levels of reduced glutathione (GSH), and erythrocyte death (eryptosis) in red blood cells (RBC) from healthy controls (CON-RBC) and hemodialyzed patients (HD-RBC), respectively. RBC were incubated either in either TRIS-Glc-BSA buffer or IS at concentrations of 0.01, 0.09, and 0.17 mM, respectively. We measured ROS generation (expressed as % of DCFH-DA positive RBC), eryptosis (expressed as % of annexin-V positive RBC), and GSH levels after 6, 12, and 24 h. When incubated in buffer, ROS production was approximately seven-fold higher at all time points HD-RBC when compared to CON-RBC. Incubation with IS increased ROS production in CON-RBS dose-dependently up to 10-fold. Eryptosis in buffer-incubated HD-RBC was up to seven-fold higher as compared to COB-RBC. Incubation of CON-RBC with IS increased the eryptosis rate dose-dependently up to 6-fold. Pretreatment of CON-RBC with the organic anion transporter 2 (OAT2) specific inhibitor ketoprofen or with NADPH oxidase inhibitor diphenyleneiodonium-Cl blunted the IS effect on both ROS production and eryptosis induction. While GSH levels in HD-RBC were reduced when compared to CON-RBC, they were not affected by IS incubation. In summary, IS increases ROS generation and eryptosis in CON-RBC by an activity dependent of the IS influx through OAT2, and NADPH oxidase activity-dependent, and a GSH-independent mechanism. These findings lend support to a putative role of IS in the pathogenesis of renal anemia.

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Uremic Toxicity-Induced Eryptosis and Monocyte Modulation: The Erythrophagocytosis as a Novel Pathway to Renal Anemia

Bonan

Steiner

Kuntsevich

et al. 2016

Blood Purif

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Background: We tested the effect of uremia on red blood cell (RBC) eryptosis, CD14⁺⁺/CD16⁺ monocytes and erythrophagocytosis. Design: RBC and monocytes from chronic kidney disease (CKD) stages 3/4 (P-CKD3/4) or hemodialysis (HD) patients and healthy controls (HCs) cells incubated with sera pools from patients with CKD stages 2/3 (S-CKD2/3) or 4/5 (S-CKD4/5) were evaluated to assess eryptosis, monocyte phenotypes and reactive oxygen species (ROS) by cytometer. Erythrophagocytosis was evaluated by subsequent co-incubation of preincubated HC-monocytes and autologous-RBC. Results: HC-eryptosis (1.3 ± 0.9%) was lower than in HD (4.3 ± 0.5%) and HC-RBC incubated with S-CKD4/5 (5.6 ± 1%). CD14⁺⁺/CD16⁺ were augmented in P-CKD3/4 (34.6 ± 8%) and HC-monocytes incubated with S-CKD4/5 (26.4 ± 7%) than in HC (5.4 ± 1%). In these cells, ROS was increased (44.5 ± 9%; control 9.6 ± 2%) and inhibited by N-acetylcysteine (25 ± 13%). Erythrophagocytosis was increased in CD14⁺⁺/CD16⁺ (60.8 ± 10%) than in CD14⁺⁺/CD16^- (15.5 ± 2%). Conclusions: Sera pools from CKD patients increase eryptosis and promote a proinflammatory monocyte phenotype. Both processes increased erythrophagocytosis, thereby suggesting a novel pathway for renal anemia.

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The role of the lectin pathway of the complement system in SARS-CoV-2 lung injury

Malaquias

Gadotti

Motta-Junior

et al. 2021

Translational Research

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Although some evidence showed the activation of complement systems in COVID-19 patients, proinflammatory status and lectin pathway remain unclear. Thus, the present study aimed to demonstrate the role of MBL and ficolin-3 in the complement system activation and compared to pandemic Influenza A virus H1N1 subtype infection (H1N1pdm09) and control patients. A total of 27 lungs formalin-fixed paraffin-embedded samples (10 from H1N1 group, 6 from the COVID-19 group, and 11 from the control group) were analyzed by immunohistochemistry using anti-IL-6, TNF-alfa, CD163, MBL e FCN3 antibodies. Genotyping of target polymorphisms in the MBL2 gene was performed by real-time PCR. Proinflammatory cytokines such as IL-6 and TNF-alpha presented higher tissue expression in the COVID-19 group compared to H1N1 and control groups. The same results were observed for ICAM-1 tissue expression. Increased expression of the FCN3 was observed in the COVID-19 group and H1N1 group compared to the control group. The MBL tissue expression was higher in the COVID-19 group compared to H1N1 and control groups. The genotypes AA for rs180040 (G/A), GG for rs1800451 (G/A) and CC for rs5030737 (T/C) showed a higher prevalence in the COVID-19 group. The intense activation of the lectin pathway, with particular emphasis on the MBL pathway, together with endothelial dysfunction and a massive proinflammatory cytokines production, possibly lead to a worse outcome in patients infected with SARS-Cov-2. Moreover, 3 SNPs of our study presented genotypes that might be correlated with high MBL tissue expression in the COVID-19 pulmonary samples.

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