Andrea Biondani scite author profile

Background \ud \ud Stomatocytoses are a group of inherited autosomal dominant hemolytic anemias and include overhydrated hereditary stomatocytosis, dehydrated hereditary stomatocytosis, hereditary cryohydrocytosis and familial pseudohyperkalemia. \ud \ud Design and Methods \ud \ud We report a novel variant of hereditary stomatocytosis clue to a de novo band 3 mutation (p. G796R-band3 CEINGE) associated with a dyserythropoietic phenotype. Band 3 genomic analysis, measurement at of hematologic parameters and red cell indices and morphological analysis of bone marrow were carried out. We then evaluated the red cell membrane permeability and ion transport systems by functional studies of the patients erythrocytes and Xenopus oocytes transfected with mutated band 3. We analyzed the red cell membrane tyrosine phosphorylation profile and the membrane association of the tyrosine kinases Syk and Lyn from the Src-family-kinase group, since the activity of the membrane cation transport pathways is related to cyclic phosphorylation-dephosphorylation events. \ud \ud Results \ud \ud The patient showed mild hemolytic anemia with circulating stomatocytes together with signs of dyserythropoiesis. Her red cells displayed increased Na(+) content with decreased K(+) content and abnormal membrane cation transport activities. Functional characterization of band 3 CEINGE in Xenopus oocytes showed that the mutated band 3 is converted from being an anion exchanger (Cl(-), HCO(3)(-)) to being a cation pathway for Na(+) and K(+). Increased tyrosine phosphorylation of some red cell membrane proteins was observed in diseased erythrocytes. Syk and Lyn membrane association was increased in the patient's red cells compared to in normal controls, indicating perturbation of phospho-signaling pathways involved in cell volume regulation events. \ud \ud Conclusions \ud \ud Band 3 CEINGE alters function from that of anion exchange to cation transport, affects the membrane tyrosine phosphorylation profile, in particular of band 3 and stomatin, and its presence during red cell development likely contributes to dyserythropiesis

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PTPϵ has a critical role in signaling transduction pathways and phosphoprotein network topology in red cells

Franceschi

Biondani

Carta³

et al. 2008

Proteomics

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Protein tyrosine phosphatases (PTPs) are crucial components of cellular signal transduction pathways. We report here that red blood cells (RBCs) from mice lacking PTPε (Ptpre −/− ) exhibit abnormal morphology and increased Ca 2+ -activated-K + channel activity, which was partially blocked by the Src-Family-Kinases (SFKs) inhibitor PP1. In Ptpre −/− mouse RBCs, the activity of Fyn and Yes, two SFKs, were increased, suggesting a functional relationship between SFKs, PTPε and Ca 2+ -activated-K + -channel. The absence of PTPε markedly affected the RBC membrane tyrosine (Tyr-) phosphoproteome, indicating a perturbation of RBCs signal transduction pathways. Using signaling network computational analysis of the Tyr-phosphoproteomic data, we identified 7 topological clusters. We studied cluster 1, containing Syk-Tyr-kinase: Syk-kinase activity was higher in wild-type than in Ptpre −/− RBCs, validating the network computational analysis and indicating a novel signaling pathway, which involves Fyn and Syk in regulation of red cell morphology.

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Heat‐shock protein‐27, ‐70 and peroxiredoxin–II show molecular chaperone function in sickle red cells: Evidence from transgenic sickle cell mouse model

Biondani

Turrini

Carta³

et al. 2008

Proteomics Clinical Apps

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Sickle cell disease (SCD) is an autosomal recessive genetic red cell disorder characterized by the production of a defective form of hemoglobin, hemoglobin-S, that is worldwide-distributed. The acute clinical manifestations of SCD are related to hemoglobin cyclic-polymerization and to the generation of rigid, dense red blood cells (RBCs). We studied RBCs membrane proteome from human sickle RBCs, fractioned according to density compared to normal RBCs. 2-DE followed by MS analysis was carried out. We identified 65 proteins differently expressed, divided into five major clusters according to their functions: (i) membrane-cytoskeleton proteins; (ii) metabolic enzymes; (iii) ubiquitin-proteasome-system; (iv) flotillins; (v) chaperones. HSP27, HSP70 and peroxiredoxin-II (Prx-II) showed the most relevant changes. They were differently recruited to sickle RBCs membrane in response to in vitro hypoxia. Potential markers were then validated in a transgenic-mouse model for SCD, the SAD mice, exposed to hypoxia mimicking acute SCD vaso-occlusive-crisis (VOCs); we found that HSP70 and HSP27 bound to RBCs membrane respectively after 12 h and 48 h of hypoxia, while Prx-II membrane binding was modulated during hypoxia. Our data indicate that HSP27 and HSP70 play a novel role as RBCs membrane protein protectors and as possibly new markers of severity of RBCs membrane damage during acute VOCs.

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Andrea Biondani

Altered miRNA expression in T regulatory cells in course of multiple sclerosis

Reactive oxygen intermediates modulate nitric oxide signaling in the plant hypersensitive disease-resistance response

A novel erythroid anion exchange variant (Gly796Arg) of hereditary stomatocytosis associated with dyserythropoiesis

PTPϵ has a critical role in signaling transduction pathways and phosphoprotein network topology in red cells

Heat‐shock protein‐27, ‐70 and peroxiredoxin–II show molecular chaperone function in sickle red cells: Evidence from transgenic sickle cell mouse model

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