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1.
Toxicol In Vitro ; 98: 105832, 2024 Jun.
Artigo em Inglês | MEDLINE | ID: mdl-38653437

RESUMO

Sickle cell disease (SCD) is a hereditary hemoglobinopathy, caused by a mutation at position 6 of the ß-globin chain and patients are frequently exposed to several blood transfusions in order to maintain physiological function. Transfusion blood bags are composed of PVC and phthalates (as DEHP) are often introduced to the material in order to confer malleability. In this sense, DEHP can easily elute to the blood and cause harmful effects. This study aimed to unravel DEHP effect on SCD patient's hemoglobin function. We found that HbS polymerization using whole erythrocytes is decreased by DEHP in ex vivo experiments and this effect might be mediated by the DEHP-VAL6 interaction, evaluated in silico. Isolated HbS exhibited less polymerization at low DEHP concentrations and increased polymerization rate at higher concentration. When analyzing the propensity to aggregate, HbS is more inclined to aggregate when compared to HbA due to the residue 6 mutation. Circular dichroism showed characteristic hemoglobin peaks for oxygenated HbS that are lost when oxygen is sequestered, and DEHP at higher concentration mildly recovers a peak close to the second hemoglobin one. Finally, by transmission electron microscopy we demonstrated that high DEHP concentration increased polymer formation with a more organized structure. These findings show for the first-time the beneficial effect of low-dose DEHP on HbS polymerization.


Assuntos
Anemia Falciforme , Dietilexilftalato , Eritrócitos , Hemoglobina Falciforme , Polimerização , Humanos , Anemia Falciforme/genética , Anemia Falciforme/metabolismo , Hemoglobina Falciforme/genética , Hemoglobina Falciforme/metabolismo , Eritrócitos/efeitos dos fármacos , Eritrócitos/metabolismo , Dietilexilftalato/toxicidade , Simulação por Computador
2.
Anemia ; 2024: 7924015, 2024.
Artigo em Inglês | MEDLINE | ID: mdl-38596654

RESUMO

SCD is a hereditary disorder caused by genetic mutation in the beta-globin gene, resulting in abnormal hemoglobin, HbS that forms sickle-shaped erythrocytes under hypoxia. Patients with SCD have endocrine disorders and it was described that 7% of these patients have clinical hypothyroidism. Recent studies have shown that mature erythrocytes possess TSH receptors. Thus, we aimed to assess the effects of TSH on SCD erythrocytes. The experiments were conducted using different concentrations of TSH (1, 2, 3, and 5 mIU/L). In HbS polymerization assay, erythrocytes were exposed to TSH in hypoxia to induce polymerization, and measurements were taken for 30 minutes. The deformability assay was made using Sephacryl-S 500 columns to separate deformable from nondeformable cells. Static adhesion test utilized thrombospondin to assess erythrocyte adhesion in the presence of TSH. TSH at all contractions were able to reduce polymerization of HbS and increase deformability. The static adhesion of erythrocytes at the lowest concentrations of 1 and 2 mIU/L were increased, but at higher contractions of 3 and 5 mIU/L, static adhesion was not modulated. The results suggest that TSH has potential involvement in the pathophysiology of sickle cell disease by inhibiting HbS polymerization, positively modulating deformability and impacting static adhesion to thrombospondin.

3.
Can J Physiol Pharmacol ; 101(12): 642-651, 2023 Dec 01.
Artigo em Inglês | MEDLINE | ID: mdl-36821840

RESUMO

The effects of endothelin-1 (ET-1) on erythrocytes from sickle cell disease (SCD) patients have been described, but mechanisms of ET-1 regarding primary erythrocyte functions remain unknown. ET-1 is a vasoconstrictor peptide produced by endothelial cells, and the expression of ET-1 is increased in SCD. The present study used ex vivo experiments with sickle cell erythrocytes, ET-1, and bosentan, a dual antagonist of ETA and ETB receptors. We performed a hemoglobin S (HbS) polymerization assay with three concentrations of ET-1 (1, 20, and 50 pg/mL) and bosentan (100 nmol/L). ET-1 increased HbS polymerization at all concentrations, and this effect was suppressed by bosentan. For the deformability assay, red blood cells (RBCs) were incubated on a Sephacryl column with the same concentrations of ET-1 and bosentan. ET-1 decreased deformability, and this effect was reversed by bosentan. To observe erythrocyte adhesion, ET-1 and bosentan were incubated with RBCs in thrombospondin-coated 96-well plate, which demonstrated that ET-1 decreased adhesion but that bosentan enhanced adhesion. We also assessed erythrocyte apoptosis and observed decreased eryptosis induced by ET-1, and these effects were inhibited bosentan. Thus, these findings demonstrated that ET-1 modulates HbS polymerization, erythrocyte deformability, adhesion to thrombospondin, and eryptosis, and these effects were suppressed or enhanced by bosentan.


Assuntos
Anemia Falciforme , Endotelina-1 , Humanos , Bosentana/farmacologia , Endotelina-1/metabolismo , Células Endoteliais/metabolismo , Polimerização , Sulfonamidas/farmacologia , Eritrócitos/metabolismo , Anemia Falciforme/tratamento farmacológico , Deformação Eritrocítica , Trombospondinas , Antagonistas dos Receptores de Endotelina/farmacologia , Receptores de Endotelina/metabolismo , Endotelinas
4.
Cell Biochem Biophys ; 80(4): 711-721, 2022 Dec.
Artigo em Inglês | MEDLINE | ID: mdl-36175813

RESUMO

Angiotensin II (Ang II) regulates blood volume and stimulates erythropoiesis through AT1 (ATR1) and AT2 (ATR2) receptors, found in multiple tissues, including erythrocytes. Sickle cell disease (SCD) patients present altered Ang II levels. Hemoglobin S polymerization, deformability and phosphatidylserine translocation are important features of mature erythrocytes, therefore, our hypothesis is Ang II affects these parameters and, if it does, what would be the influence of AT1R and AT2R on these effects. A polymerization assay (PA), deformability, and annexin V binding were performed in SCD erythrocytes samples adding Ang II, ATR1 antagonist (losartan or eprosartan), and ATR2 antagonist (PD123319). Through the PA test, we observed a dose-dependent polymerization inhibition effect when comparing Ang II to control. Losartan did not affect the level or the rate of Ang II inhibition, while PD123319 showed an increased level of protection against polymerization, and eprosartan brought levels back to control. Ang II was able to reduce the translocation of phosphatidylserine from the inner to the outer leaflet, a marker of eryptosis, in the presence of PD123319. Also, ATR1 showed a positive effect increasing deformability. Our data shows that ATR1 is important for maintenance of erythrocyte physiological function in SCD and for prolonging its life.


Assuntos
Anemia Falciforme , Losartan , Acrilatos , Angiotensina II/metabolismo , Angiotensina II/farmacologia , Anexina A5 , Eritrócitos/metabolismo , Hemoglobina Falciforme/metabolismo , Humanos , Imidazóis , Losartan/farmacologia , Fosfatidilserinas , Polimerização , Receptor Tipo 1 de Angiotensina/metabolismo , Tiofenos
5.
Rep Biochem Mol Biol ; 10(2): 314-326, 2021 Jul.
Artigo em Inglês | MEDLINE | ID: mdl-34604421

RESUMO

BACKGROUND: Angiotensin II regulates blood volume via AT1 (AT1R) and AT2 (AT2R) receptors. As cell integrity is an important feature of mature erythrocyte, we sought to evaluate, in vitro, whether angiotensin II modulates resistance to hemolysis and the signaling pathway involved. METHODS: Human blood samples were collected and hemolysis assay and angiotensin II signaling pathway profiling in erythrocytes were done. RESULTS: Hemolysis assay created a hemolysis curve in presence of Ang II in several concentrations (10-6 M, 10-8 M, 10-10 M, 10-12 M). Angiotensin II demonstrated protective effect, both in osmotic stressed and physiological situations, by reducing hemolysis in NaCl 0.4% and 0.9%. By adding receptors antagonists (losartan, AT1R antagonist and PD 123319, AT2R antagonist) and/or signaling modulators for AMPK, Akt/PI3K, p38 and PKC we showed the protective effect was enhanced with losartan and abolished with PD 123319. Also, we showed activation of p38 as well as PI3K/Akt pathways in this system. CONCLUSION: Ang II protects human erythrocytes from hypo-osmotic conditions-induced hemolysis by activating AT2 receptors and triggering intracellular pathways.

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