Erythropoietin and derivatives: Potential beneficial effects on the brain.

Erythropoietin (Epo), the main erythropoiesis-stimulating factor widely prescribed to overcome anemia, is also known nowadays for its cytoprotective action on non-hematopoietic tissues. In this context, Epo showed not only its ability to cross the blood-brain barrier, but also its expression in the brain of mammals. In clinical trials, recombinant Epo treatment has been shown to stimulate neurogenesis; improve cognition; and activate antiapoptotic, antioxidant, and anti-inflammatory signaling pathways. These mechanisms, proposed to characterize a neuroprotective property, opened new perspectives on the Epo pharmacological potencies. However, many questions arise about a possible physiological role of Epo in the central nervous system (CNS) and the factors or environmental conditions that induce its expression. Although Epo may be considered a strong candidate to be used against neuronal damage, long-term treatments, particularly when high Epo doses are needed, may induce thromboembolic complications associated with increases in hematocrit and blood viscosity. To avoid these adverse effects, different Epo analogs without erythropoietic activity but maintaining neuroprotection ability are currently being investigated. Carbamylated erythropoietin, as well as alternative molecules like Epo fusion proteins and partial peptides of Epo, seems to match this profile. This review will focus on the discussion of experimental evidence reported in recent years linking erythropoietin and CNS function through investigations aimed at finding benefits in the treatment of neurodegenerative diseases. In addition, it will review the proposed mechanisms for novel derivatives which may clarify and, eventually, improve the neuroprotective action of Epo.

Role of protein tyrosine phosphatase 1B (PTP1B) in the increased sensitivity of endothelial cells to a promigratory effect of erythropoietin in an inflammatory environment.

The proliferation and migration of endothelial cells are vascular events of inflammation, a process which can also potentiate the effects of promigratory factors. With the aim of investigating possible modifications in the activity of erythropoietin (Epo) in an inflammatory environment, we found that Epo at a non-promigratory concentration was capable of stimulating EA.hy926 endothelial cell migration when TNF-α was present. VCAM-1 and ICAM-1 expression, as well as adhesion of monocytic THP-1 cells to endothelial layers were also increased. Structurally modified Epo (carbamylation or N-homocysteinylation) did not exhibit these effects. The sensitizing effect of TNF-α on Epo activity was mediated by the Epo receptor. Inhibition assays targeting the PI3K/mTOR/NF-κB pathway, shared by Epo and TNF-α, show a cross-talk between both cytokines. As observed in assays using antioxidants, cell migration elicited by TNF-α + Epo depended on TNF-α-generated reactive oxygen species (ROS). ROS-mediated inactivation of protein tyrosine phosphatase 1B (PTP1B), involved in Epo signaling termination, could explain the synergistic effect of these cytokines. Our results suggest that ROS generated by inflammation inactivate PTP1B, causing the Epo signal to last longer. This mechanism, along with the cross-talk between both cytokines, could explain the sensitizing action of TNF-α on the migratory effect of Epo.

Aquaporin-1 plays a key role in erythropoietin-induced endothelial cell migration.

Water influx through aquaporin-1 (AQP-1) has been linked to the ability of different cell types to migrate, and therefore plays an important part in processes like metastasis and angiogenesis. Since the erythroid growth factor erythropoietin (Epo) is now recognized as an angiogenesis promoter, we investigated the participation of AQP-1 as a downstream effector of this cytokine in the migration of endothelial cells. Inhibition of AQP-1 with either mercury ions (Hg2+) or a specific siRNA led to an impaired migration of EA.hy926 endothelial cells exposed to Epo (wound-healing assays). Epo also induced the expression of AQP-1 at mRNA and protein levels, an effect which was dependent on the influx of extracellular calcium through L-type calcium channels as well as TRPC3 channels. The relationship between Epo and AQP-1 was further confirmed at shorter exposure times, as the cytokine was unable to trigger calcium influxes in cells where AQP-1 had previously been knocked down. Moreover, Epo promoted changes in the subcellular localization of AQP-1 as well as rearrangements in the actin cytoskeleton, which are consistent with a migratory phenotype. Worthy of note, carbamylated erythropoietin (cEpo), the non-erythropoietic and non-promigratory derivative of Epo, was incapable of AQP-1 modulation. The therapeutical implications of aquaporin targeting in angiogenesis-related diseases highlight the importance of the present results in the context of the relationship between AQP-1 and Epo.

Modification of erythropoietin structure by N-homocysteinylation affects its antiapoptotic and proliferative functions.

Many patients under therapy with recombinant human erythropoietin (rhuEPO) show resistance to the treatment, an effect likely associated with the accumulation of tissue factors, especially in renal and cardiovascular diseases. Hyperhomocysteinemia due to high serum levels of homocysteine has been suggested among the risk factors in those pathologies. Its main effect is the N-homocysteinylation of proteins due to the interaction between the highly reactive homocysteine thiolactone (HTL) and lysine residues. The aim of this study was to evaluate the effect of N-homocysteinylation on the erythropoietic and antiapoptotic abilities of EPO, which can be a consequence of structural changes in the modified protein. We found that both cellular functions were altered in the presence of HTL-EPO. A decreased net positive charge of HTL-EPO was detected by capillary zone electrophoresis, while analysis of polyacrylamide gel electropherograms suggested formation of aggregates. Far-UV spectra, obtained by Circular Dichroism Spectroscopy, indicated a switch of the protein's secondary structure from α-helix to ß-sheet structures. Results of Congo red and Thioflavin T assays confirm the formation of repetitive ß-sheet structures, which may account for aggregates. Accordingly, Dynamic Light Scattering analysis showed a markedly larger radius of the HTL-EPO structures, supporting the formation of soluble oligomers. These structural changes might interfere with the conformational adaptations necessary for efficient ligand-receptor interaction, thus affecting the proliferative and antiapoptotic functions of EPO. The present findings may contribute to explain the resistance exhibited by patients with cardio-renal syndrome to treatment with rhuEPO, as a consequence of structural modifications due to protein N-homocysteinylation.

Participation of membrane calcium channels in erythropoietin-induced endothelial cell migration.

Calcium (Ca2+) plays an important role in angiogenesis, as it activates the cell migration machinery. Different proangiogenic factors have been demonstrated to induce transient Ca2+ increases in endothelial cells. This has raised interest in the contribution of Ca2+ channels to cell migration, and in a possible use of channel-blocking compounds in angiogenesis-related pathologies. We have investigated the ability of erythropoietin (Epo), a cytokine recently involved in angiogenesis, to induce Ca2+ influx through different types of membrane channels in EA.hy926 endothelial cells. The voltage-dependent Ca2+ channel antagonists amlodipine and diltiazem inhibited an Epo-triggered transient rise in intracellular Ca2+, similarly to a specific inhibitor (Pyr3) and a blocking antibody against the transient potential calcium channel 3 (TRPC3). Unlike diltiazem, amlodipine and the TRPC3 inhibitors prevented the stimulating action of Epo in cell migration and in vitro angiogenesis assays. Amlodipine was also able to inhibit an increase in endothelial cell migration induced by Epo in an inflammatory environment generated with TNF-α. These results support the participation of Ca2+ entry through voltage-dependent and transient potential channels in Epo-driven endothelial cell migration, highlighting the antiangiogenic activity of amlodipine.

Esferocitosis hereditaria: experiencia clínica y diagnóstica en Argentina / Hereditary spherocytosis: clinical and diagnostic experience in Argentina / Esferocitose hereditária: experiência clínica e diagnóstica na Argentina

Los objetivos del presente estudio fueron: a) Analizar las características demográficas y clínicas de nuestra población al diagnóstico; b) Evaluar si las pruebas más recientes presentan ventajas sobre las tradicionales; c) Confirmar la frecuencia de las distintas deficiencias de proteínas de membrana; d) Establecer la relación entre severidad y resultado de las pruebas o tipo de deficiencia. Se analizaron 359 individuos estudiados desde 2007, cuando se incorporaron criohemólisis hipertónica (CH), citometría de flujo con eosina-5'- maleimida (5'EMA-CF), FOE por citometría de flujo (FOE-CF) y electroforesis de proteínas de membrana (SDS-PAGE) al estudio de laboratorio clásico, fragilidad osmótica eritrocitaria (FOE) y autohemólisis (AH). Criterios diagnósticos para Esferocitosis Hereditaria (ESH): esferocitos en frotis y dos pruebas positivas. Se identificaron 174 pacientes con ESH y 22 portadores sanos. El 74,9% eran menores de 12 años. La transmisión fue dominante en el 83,1% de los casos. Tuvieron manifestaciones neonatales 89,1%. Las pruebas con mayor sensibilidad fueron CH (92,0%), FOE diferida (91,1%) y 5'EMA-CF (88,5%). En los 125 pacientes en quienes se realizaron CH, 5'EMA-CF y FOE-CF se observó que todos tenían al menos una prueba positiva; 122 (97,6%) tuvieron dos o tres positivas. Las deficiencias más frecuentes fueron ankirina y espectrina. No hubo diferencia en el resultado de las pruebas entre los subgrupos de severidad. Se concluye que las deficiencias más frecuentes en Argentina son ankirina y espectrina, coincidiendo con otras poblaciones latinoamericanas. El uso simultáneo de CH, 5'EMA-CF y FOE-CF permite diagnosticar más del 97% de los casos. La incidencia de manifestaciones neonatales es elevada.

The aims of this study were (a) to assess demographic and clinical aspects of our population at diagnosis; (b) to evaluate diagnostic accuracy of hypertonic cryohemolysis (HC), eosin-5'-maleimide flow cytometry (EMA-FC) and flow cytometric osmotic fragility (OF-FC) in relation to standard screening tests osmotic fragility (OF) and autohemolysis (AH); (c) to confirm the previously reported prevalence of membrane proteins defects; and (d) to assess the relationship between severity of anemia and results of confirmatory tests. Since 2007, the following tests were available in our laboratory: OF, AH, HC, EMA-FC, OF-FC and SDS-PAGE of membrane proteins. Diagnostic criteria for hereditary spherocytosis were spherocytes in blood smear plus ≥2 positive tests. Data from 359 individuals were analyzed: 174 HS patients and 22 silent carriers were detected; 74.9% of patients were less than 12 years old; 83.1% of them showed a dominant inheritance pattern; antecedent of neonatal jaundice/anemia was registered in 89.1%. Tests with higher sensitivity were: HC (92.0%), incubated OF (91.1%), and EMA-FC (88.5%). HC, EMA-FC and OF-FC were simultaneously performed on 125 patients: each of them had at least 1 positive test; 122 (97.6%) had 2 or 3 positive tests. Ankyrin and spectrin were the most frequently found protein deficiencies. Comparison of test results in relation to severity of anemia showed no difference between groups. It can be concluded that compared toother Latin American countries, ankyrin and spectrin were the most frequent protein deficiencies. Simultaneous performing of HC, EMA-FC and OF-FC enabled diagnosing HS in more than 97% of patients. A high incidence of neonatal jaundice/anemia was observed.

Os objetivos do presente estudo foram: a) analisar as características demográficas e clínicas de nossa população ao diagnóstico; b) Avaliar se as provas mais recentes apresentam vantagens sobre as tradicionais; c) Confirmar a frequência das diversas deficiências de proteínas de membrana; d) Establecer a relação entre severidade e resultado das provas ou tipo de deficiência. Foram analisados 359 indivíduos estudados desde 2007, quando se incorporaram crio-hemólise hipertônica (CH), citometria de fluxo com eosina-5'-maleimida (5'EMA-CF), FOE por citometria de fluxo (FOE-CF) e eletroforese de proteínas de membrana (SDS-PAGE) ao estudo de laboratório clássico - fragilidade osmótica eritrocitária (FOE) e auto-hemólise (AH). Critérios diagnósticos para ESH: esferócitos em esfregaço e duas provas positivas. Foram identificados 174 pacientes com ESH e 22 portadores sadios. 74,9% eram menores de 12 anos. A transmissão foi dominante em 83,1%. Tiveram manifestações neonatais 89,1%. As provas com maior sensibilidade foram CH (92,0%), FOE diferida (91,1%) e 5'EMA-CF (88,5%). Nos 125 pacientes aos quais lhes realizaram CH, 5'EMA-CF e FOE-CF se observou que todos tinham no mínimo uma prova positiva; 122 (97,6%) tiveram duas ou três positivas. As deficiências mais frequentes foram anquirina e espectrina. Não houve diferença no resultado das provas entre os subgrupos de severidade. Conclui-se que as deficiências mais frequentes na Argentina são anquirina e espectrina, as quais coincidem com outras populações latinoamericanas. O uso simultâneo de CH, 5'EMA-CF e FOE-CF permite diagnosticar mais de 97% dos casos. A incidência de manifestações neonatais é elevada.

Eritropoyetina como agente eritropoyético y no eritropoyético: consideraciones terapéuticas / Erythropoietic and non-erythropoietic functions of erythropoietin: therapeutic considerations / Eritropoietina como agente eritropoiético e não eritropoiético: considerações terapêuticas / Erythropoietic and non-erythropoietic functions of erythropoietin: therapeutic considerations

La producción de glóbulos rojos es controlada continuamente para suplir la desaparición de las células envejecidas y garantizar un aporte de oxígeno adecuado a todo el organismo. La citoquina pleitrópica eritropoyetina (Epo), originalmente definida por su rol en la eritropoyesis para prevenir la muerte programada de progenitores eritroides en la médula ósea, ha demostrado un rol antiapoptótico protector sobre diversos tejidos no hematopoyéticos. A la reconocida eficacia del tratamiento con eritropoyetina recombinante humana (rhuEpo) para contrarrestar la anemia que acompaña a patologías muy diversas, se agregan algunos aspectos que impiden lograr los resultados terapéuticos esperados, ya sea por resistencia al tratamiento o por el desarrollo de efectos adversos. Con el fin de prevenir estos efectos, así como reducir las dosis de rhuEpo en tratamientos crónicos se han desarrollado nuevos agentes que presentan modificaciones estructurales de la Epo, o bien alteraciones en las propiedades/actividad de la Epo nativa. Dado que, actualmente, los resultados sobre los efectos de la Epo sobre morbilidad/ mortalidad en diversas patologías no están suficientemente claros, nuevas investigaciones serán útiles para resolver dudas sobre la efectividad de la eritropoyetina y sus derivados o agentes alternativos con el fin de proveer bases sólidas para el desarrollo de ensayos clínicos concluyentes.

Erythropoietin (Epo), the cytokine required for promoting erythropoiesis through the proliferation and differentiation of erythroid cells, has been reported to act as a pleiotropic cytokine beyond the hematopoietic system. In contrast with the potentially beneficial effects attributed to recombinant human erythropoietin (rhuEpo), research has advanced to indicate that mortality and morbidity rates are increased in some patient groups when treated with rhuEpo. Some cardiac and systemic conditions may predispose to adverse events, and other factors, such as proinflammatory agents, may lead to resistance to erythropoietin treatment. Many compounds are currently under investigation in order to avoid these unwanted effects and to reduce the rhuEpo dose during chronic therapies. They are either erythropoiesis-stimulating agents different from erythropoietin or structurally modified erythropoietins with altered properties and activities. In recent reports, contrasting data have raised several concerns regarding the effectiveness of erythropoietin treatment to prevent adverse events. Therefore, much investigation is needed to provide a solid basis for the development of conclusive clinical trials.

A produção de glóbulos vermelhos é controlada continuamente para suprir o desaparecimento das células envelhecidas e garantir uma contribuição de oxigênio adequado a todo o organismo. A citocina pleiotrópica eritropoietina (Epo), originalmente definida por seu papel na eritropoiese para prevenir a morte programada de progenitores eritroides na medula óssea, tem demonstrado um papel anti-apoptótico protetor sobre diversos tecidos não hematopoiéticos. Adicionam-se à reconhecida eficácia do tratamento com eritropoietina recombinante humana (rhuEpo), para contra-arrestar a anemia que acompanha patologias muito diversas, alguns aspectos que impedem alcançar os resultados terapêuticos esperados, quer seja por resistência ao tratamento ou pelo desenvolvimento de efeitos adversos. Com o fim de prevenir estes efeitos, bem como reduzir as doses de rhuEpo em tratamentos crônicos foram desenvolvidos novos agentes que apresentam modificações estruturais da Epo, ou então alterações nas propriedades/atividade da Epo nativa. Devido a que, atualmente, os resultados sobre os efeitos da Epo sobre morbidade/mortalidade em diversas patologias não estão suficientemente claros, novas pesquisas serão úteis para resolver dúvidas sobre a efetividade da eritropoietina e seus derivados ou agentes alternativos visando a fornecer bases sólidas para o desenvolvimento de ensaios clínicos concludentes.

Red blood cell aquaporin-1 expression is decreased in hereditary spherocytosis.

Aquaporin-1 (AQP1) is the membrane water channel responsible for changes in erythrocyte volume in response to the tonicity of the medium. As the aberrant distribution of proteins in hereditary spherocytosis (HS) generates deficiencies of proteins other than those codified by the mutated gene, we postulated that AQP1 expression might be impaired in spherocytes. AQP1 expression was evaluated through flow cytometry in 5 normal controls, 1 autoimmune hemolytic anemia, 10 HS (2 mild, 3 moderate, 2 severe, and 3 splenectomized), and 3 silent carriers. The effect of AQP1 inhibitors was evaluated through water flow-based tests: osmotic fragility and hypertonic cryohemolysis. Serum osmolality was measured in 20 normal controls and 13 HS. The effect of erythropoietin (Epo) on AQP1 expression was determined in cultures of erythroleukemia UT-7 cells, dependent on Epo to survive. Independent of erythrocyte size, HS patients showed a lower content of AQP1 in erythrocyte membranes which correlated with the severity of the disease. Accordingly, red blood cells from HS subjects were less sensitive to cryohemolysis than normal erythrocytes after inhibition of the AQP1 water channel. A lower serum osmolality in HS with respect to normal controls suggests alterations during reticulocyte remodeling. The decreased AQP1 expression could contribute to explain variable degrees of anemia in hereditary spherocytosis. The finding of AQP1 expression induced by Epo in a model of erythroid cells may be interpreted as a mechanism to restore the balance of red cell water fluxes.

Social and environmental health determinants and their relationship with parasitic diseases in asymptomatic children from a shantytown in Buenos Aires, Argentina.

Health inequities are a common problem for all countries and are the result of not only adverse social conditions but also poor public policies. Today chronic diseases represent the most relevant threats and are a current challenge. Parasitic infections, a leading cause of child morbidity affecting low-income populations, can be transmitted because of an unhealthy environment. Notwithstanding, scarce data have been published on the epidemiological profile of intestinal parasitoses in asymptomatic children living in shantytowns. Vulnerable populations settled in slums are growing in Argentina, particularly in Buenos Aires city. Consequently, this work intended to screen healthy carriers of enteric parasites and determine the epidemiologic profile in asymptomatic children residing in one of those communities, to explore risk factors associated with the transmission of parasites, and to initiate a basic health education campaign to promote healthy behavior in the community. Fecal samples (n = 138) were analyzed by conventional parasitological methods and a survey gathered data on symptoms, family composition, and environmental and hygiene-related variables. High prevalence of feco-orally-transmitted parasitoses (83·3%) and polyparasitism were remarkable findings. The main environmental health determinants were those related to excreta disposal and water provision. Health promotion actions were performed through the diffusion of a set of posters with iconic images and brief messages for health education. Results suggest the need for an environmental sanitation policy to complement health promotion actions. It is essential to spread the results of investigations that address inequities and social determinants of health in order to integrate data with local political processes and alert on acceptable actions for developing appropriate interventions.

Signaling pathways of cell proliferation are involved in the differential effect of erythropoietin and its carbamylated derivative.

It is now recognized that in addition to its activity upon erythroid progenitor cells, erythropoietin (Epo) is capable of stimulating survival of different non-erythroid cells. Since stimulation of erythropoiesis is unwanted for neuroprotection, Epo-like compounds with a more selective action are under investigation. Although the carbamylated derivative of erythropoietin (cEpo) has demonstrated non-hematopoietic tissue protection without erythropoietic effect, little is known about differential mechanisms between Epo and cEpo. Therefore, we investigated signaling pathways which play a key role in Epo-induced proliferation. Here we show that cEpo blocked FOXO3a phosphorylation, allowing expression of downstream target p27(kip1) in UT-7 and TF-1 cells capable of erythroid differentiation. This is consistent with the involvement of cEpo in slowing down G1-to-S-phase progression compared with the effect of Epo upon cell cycle. In contrast, similar antiapoptotic actions of cEpo and Epo were observed in neuronal SH-SY5Y cells. Inhibition and competition assays suggest that Epo may act through both, the homodimeric (EpoR/EpoR) and the heterodimeric (EpoR/ßcR) receptors in neuronal SH-SY5Y cells and probably in the TF-1 cell type as well. Results also indicate that cEpo needs both the EpoR and ßcR subunits to prevent apoptosis of neuronal cells. Based on evidence suggesting that cell proliferation pathways were involved in the differential effect of Epo and cEpo, we went forward to studying downstream signals. Here we provide the first evidence that unlike Epo, cEpo failed to induce FOXO3a inactivation and subsequent p27(kip1) downregulation, which is clearly shown in the incapacity of cEpo to induce erythroid cell growth.

Protective action of erythropoietin on neuronal damage induced by activated microglia.

Inflammation is a physiological defense response, but may also represent a potential pathological process in neurological diseases. In this regard, microglia have a crucial role in either progression or amelioration of degenerative neuronal damage. Because of the role of hypoxia in pro-inflammatory mechanisms in the nervous system, and the potential anti-inflammatory protective effect of erythropoietin (Epo), we focused our investigation on the role of this factor on activation of microglia and neuroprotection. Activation of microglial cells (EOC-2) was achieved by chemical hypoxia induced by cobalt chloride (CoCl2 ) and characterized by increased levels of nitrite, tumor necrosis factor-α and reactive oxygen species production, as well as up-regulation of inducible nitric oxide synthase expression. Under these conditions, cell proliferation data and proliferating cell nuclear antigen (PCNA) staining demonstrated a mitogenic effect of chemical hypoxia. Even though pre-treatment with Epo did not prevent nitrite production, inducible nitric oxide synthase protein expression or tumor necrosis factor-α secretion, it prevented the oxidative stress induced by CoCl2 as well as cell proliferation. Neuronal cells (SH-SY5Y) cultured in the presence of conditioned medium from activated EOC-2 cells or macrophages (RAW 264.7) developed significant apoptosis, an effect that was abolished by Epo via Epo/Epo receptor activation. The results show that even though Epo did not exert a direct anti-inflammatory effect on microglia activation, it did increase the resistance of neurons to subsequent damage from pro-inflammatory agents. In addition to its anti-apoptotic ability, the Epo antioxidant effect may have an indirect influence on neuronal survival by modulation of the pro-inflammatory environment.

Differential erythropoietin action upon cells induced to eryptosis by different agents.

Eryptosis is a process by which mature erythrocytes can undergo self-destruction sharing several features with apoptosis. Premature programmed erythrocyte death may be induced by different agents. In this study, we compared mechanisms involved in two eryptotic models (oxidative stress and cell calcium overload) so as to distinguish whether they share signaling pathways and could be prevented by erythropoietin (Epo). Phosphatidylserine (PS) translocation and increased calcium content were common signs in erythrocytes exposed to sodium nitrite plus hydrogen peroxide or calcium ionophore A23187 (CaI), while increased ROS and decreased GSH levels were detected in the oxidative model. Protein kinase activation seemed to be an outstanding feature in eryptosis induced by oxidative stress, whereas phosphatase activation was favored in the CaI model. Cell morphology and membrane protein modifications were also differential signs between both models. Epo was able to prevent cell oxidative imbalance, thus blunting PS translocation. However, the hormone favored intracellular calcium influx which could be the reason why it could not completely counteract the induction of eryptosis. Instead, Epo was unable to inhibit PS externalization in the CaI model. The different mechanisms involved in the eryptotic models may explain the differential action of Epo upon erythrocytes induced to eryptosis by different agents.

Oxidative stress due to aluminum exposure induces eryptosis which is prevented by erythropoietin.

The widespread use of aluminum (Al) provides easy exposure of humans to the metal and its accumulation remains a potential problem. In vivo and in vitro assays have associated Al overload with anemia. To better understand the mechanisms by which Al affects human erythrocytes, morphological and biochemical changes were analyzed after long-term treatment using an in vitro model. The appearance of erythrocytes with abnormal shapes suggested metal interaction with cell surface, supported by the fact that high amounts of Al attached to cell membrane. Long-term incubation of human erythrocytes with Al induced signs of premature erythrocyte death (eryptosis), such as phosphatidylserine externalization, increased intracellular calcium, and band 3 degradation. Signs of oxidative stress, such as significant increase in reactive oxygen species in parallel with decrease in the amount of reduced glutathione, were also observed. These oxidative effects were completely prevented by the antioxidant N-acetylcysteine. Interestingly, erythrocytes were also protected from the prooxidative action of Al by the presence of erythropoietin (EPO). In conclusion, results provide evidence that chronic Al exposure may lead to biochemical and morphological alterations similar to those shown in eryptosis induced by oxidant compounds in human erythrocytes. The antieryptotic effect of EPO may contribute to enhance the knowledge of its physiological role on erythroid cells. Irrespective of the antioxidant mechanism, this property of EPO, shown in this model of Al exposure, let us suggest potential benefits by EPO treatment of patients with anemia associated to altered redox environment.

Calcium as a mediator between erythropoietin and protein tyrosine phosphatase 1B.

Erythropoietin (Epo) is crucial for promoting the survival, proliferation, and differentiation of mammalian erythroid progenitors. The central role played by tyrosine phosphorylation of erythropoietin receptor (EpoR) in Epo-cell activation has focused attention on protein tyrosine phosphatases (PTPs) as candidates implicated in the pathogenesis of the resistance to therapy with human recombinant Epo. Prototypic member of the PTP family is PTP1B, which has been implicated in the regulation of EpoR signaling pathways. In previous reports we have shown that PTP1B is reciprocally modulated by Epo in undifferentiated UT-7 cell line. However, no information is available with respect to the modulation of this phosphatase in non-Epo depending cells or at late stages of erythroid differentiation. In order to investigate these issues we induced UT-7 cells to differentiate and studied their PTP1B expression pattern. Simultaneous observations were performed in TF-1 cells which can be cultured either with GM-CSF, IL-3 or Epo. We found that Epo induced PTP1B cleaveage in TF-1 and differentiated UT-7 cells. This pattern of PTP1B modulation may be due to an increased TRPC3/TRPC6 expression ratio which could explain the larger and sustained calcium response to Epo and calpain activation in Epo treated TF-1 and differentiated UT-7 cells.

A prospective study to assess the predictive value for hereditary spherocytosis using five laboratory tests (cryohemolysis test, eosin-5'-maleimide flow cytometry, osmotic fragility test, autohemolysis test, and SDS-PAGE) on 50 hereditary spherocytosis families in Argentina.

This prospective study was carried out to assess the usefulness of five laboratory tests in the diagnosis of hereditary spherocytosis (HS), based on the correlation of erythrocyte membrane protein defects with clinical and laboratory features, and also to determine the membrane protein deficiencies detected in Argentina. Of 116 patients and their family members tested, 62 of them were diagnosed to have HS. The specificity of cryohemolysis (CH) test was 95.2%, and its cut-off value to distinguish HS from normal was 2.8%. For flow cytometry, cut-off points of 17% for mean channel fluorescence (MCF) decrease and 14% coefficient of variation (CV) increase showed 95.9% and 92.2% specificity, respectively. Both tests showed the highest percentages of positive results for diagnosis. Either CH or flow cytometry was positive in 93.5% of patients. In eight patients, flow cytometry was positive only through CV increase. Protein defects were detected in 72.3% of patients; ankyrin and spectrin were the most frequently found deficiencies. The CV of the fluorescence showed significantly higher increases in moderate and severe anemia than in mild anemia (p = 0.003). Severity of anemia showed no other correlation with tests results, type of deficient protein, inheritance pattern, or neonatal jaundice. CH and flow cytometry are easy methods with the highest diagnostic accuracy. Simultaneous reading of mean channel fluorescence (MCF) decrease and CV increase improve diagnostic usefulness of flow cytometry. This test seems to be a reliable predictor of severity. The type of detected protein deficiency has no predictive value for outcome. Predominant ankyrin and spectrin deficiencies agree with reports from other Latin American countries.

c-FLIP is involved in erythropoietin-mediated protection of erythroid-differentiated cells from TNF-alpha-induced apoptosis.

The TNF-alpha (tumour necrosis factor) affects a wide range of biological activities, such as cell proliferation and apoptosis. Cell life or death responses to this cytokine might depend on cell conditions. This study focused on the modulation of factors that would affect the sensitivity of erythroid-differentiated cells to TNF-alpha. Hemin-differentiated K562 cells showed higher sensitivity to TNF-induced apoptosis than undifferentiated cells. At the same time, hemin-induced erythroid differentiation reduced c-FLIP (cellular FLICE-inhibitory protein) expression. However, this negative effect was prevented by prior treatment with Epo (erythropoietin), which allowed the cell line to maintain c-FLIP levels. On the other hand, erythroid-differentiated UT-7 cells - dependent on Epo for survival - showed resistance to TNF-alpha pro-apoptotic action. Only after the inhibition of PI3K (phosphatidylinositol-3 kinase)-mediated pathways, which was accompanied by negative c-FLIP modulation and increased erythroid differentiation, were UT-7 cells sensitive to TNF-alpha-triggered apoptosis. In summary, erythroid differentiation might deregulate the balance between growth promotion and death signals induced by TNF-alpha, depending on cell type and environmental conditions. The role of c-FLIP seemed to be critical in the protection of erythroid-differentiated cells from apoptosis or in the determination of their sensitivity to TNF-mediated programmed cell death. Epo, which for the first time was found to be involved in the prevention of c-FLIP down-regulation, proved to have an anti-apoptotic effect against the pro-inflammatory factor. The identification of signals related to cell life/death switching would have significant implications in the control of proliferative diseases and would contribute to the understanding of mechanisms underlying the anaemia associated with inflammatory processes.