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1.
Deferasirox-Dependent Iron Chelation Enhances Mitochondrial Dysfunction and Restores p53 Signaling by Stabilization of p53 Family Members in Leukemic Cells.
Calabrese, C, Panuzzo, C, Stanga, S, Andreani, G, Ravera, S, Maglione, A, Pironi, L, Petiti, J, Shahzad Ali, MS, Scaravaglio, P, et al
International journal of molecular sciences. 2020;(20)
Abstract
Iron is crucial to satisfy several mitochondrial functions including energy metabolism and oxidative phosphorylation. Patients affected by Myelodysplastic Syndromes (MDS) and acute myeloid leukemia (AML) are frequently characterized by iron overload (IOL), due to continuous red blood cell (RBC) transfusions. This event impacts the overall survival (OS) and it is associated with increased mortality in lower-risk MDS patients. Accordingly, the oral iron chelator Deferasirox (DFX) has been reported to improve the OS and delay leukemic transformation. However, the molecular players and the biological mechanisms laying behind remain currently mostly undefined. The aim of this study has been to investigate the potential anti-leukemic effect of DFX, by functionally and molecularly analyzing its effects in three different leukemia cell lines, harboring or not p53 mutations, and in human primary cells derived from 15 MDS/AML patients. Our findings indicated that DFX can lead to apoptosis, impairment of cell growth only in a context of IOL, and can induce a significant alteration of mitochondria network, with a sharp reduction in mitochondrial activity. Moreover, through a remarkable reduction of Murine Double Minute 2 (MDM2), known to regulate the stability of p53 and p73 proteins, we observed an enhancement of p53 transcriptional activity after DFX. Interestingly, this iron depletion-triggered signaling is enabled by p73, in the absence of p53, or in the presence of a p53 mutant form. In conclusion, we propose a mechanism by which the increased p53 family transcriptional activity and protein stability could explain the potential benefits of iron chelation therapy in terms of improving OS and delaying leukemic transformation.
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2.
Effect of iron chelation therapy on EPO-STAT5 signalling pathway and EPO resistance in iron-overloaded low-risk myelodysplastic syndrome patients.
Zhang, Y
Hematology (Amsterdam, Netherlands). 2020;(1):1-10
Abstract
Objectives: Background/aims: We aim to explore low-risk MDS patients' ESA response and the difference between iron-overloaded (IO) group and the control group in the expression of SOCS1, STAT5 and BCL2L1 which play a key role to EPO-STAT5 signal pathway.Methods: 56 low-risk MDS patients were divided into experimental group, IO patients; control group, non-IO patients. Among experimental group, 28 IO patients were treated with iron chelation therapy (ICT). SOCS1, phosphorylated STAT5 (p-STAT5) and BCL2L1 protein concentration in bone marrow supernatant have been analyzed by ELISA, STAT5a+b protein concentration in bone marrow mononuclear cells (BMMC) have been analyzed by Western blot, and mRNA expression of them have been detected in BMMC by RQ-PCR. The percentage of CD71+ cells in BMMC, apoptotic rate of CD71+ cells and ROS expression in CD71+ cells were detected by Flow cytometry.Results: Compared with the control group, the sEPO concentration, the efficacy of ESA and the expression of SOCS1, apoptotic rates of CD71+ cells and ROS expression in CD71+ cells in IO group were increased, the expression of STAT5 and BCL2L1 was reduced. Interestingly, after receiving ICT, some patients with EPO resistance have responded again to ESA treatment, with the decrease of the expression of SOCS1, apoptotic rates of CD71+ cells, ROS expression in CD71+ cells and the increase of the expression of STAT5 and BCL2L1.Conclusion: Iron overload can increase EPO resistance and the expression of SOCS1, inhibit the expression of STAT5 and BCL2L1. ICT could allivation of EPO resistance.
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3.
Effect of Genetic Polymorphisms on the Pharmacokinetics of Deferasirox in Healthy Chinese Subjects and an Artificial Neural Networks Model for Pharmacokinetic Prediction.
Chen, J, Xu, Y, Lou, H, Jiang, B, Shao, R, Yang, D, Hu, Y, Ruan, Z
European journal of drug metabolism and pharmacokinetics. 2020;(6):761-770
Abstract
BACKGROUND AND OBJECTIVE Deferasirox is an oral iron chelator used to reduce iron levels in iron-overloaded patients with transfusion-dependent anemia or non-transfusion-dependent thalassemia. This study investigated the effects of genetic polymorphisms on the pharmacokinetics of deferasirox in healthy Chinese subjects and constructed a pharmacokinetic prediction model based on physiologic factors and genetic polymorphism data. METHODS Twenty-eight subjects were enrolled in a randomized, open-label, two-period crossover study, and they received a single dose of one of two formulations of deferasirox (20 mg/kg) with a 7-day washout interval between the two periods. The plasma defersirox concentration was determined using a validated liquid chromatography-tandem mass spectrometry method, and pharmacokinetic parameters were calculated using the noncompartmental method. The polymorphisms of uridine diphosphate glucuronosyltransferase 1A1 (UGT1A1), UGT1A3, multidrug resistance protein 2 (MRP2), cytochrome P450 1A1 (CYP1A1), and breast cancer resistance protein 1 (BCRP1) were genotyped using Sanger sequencing. A back-propagation artificial neural network (BP-ANN) model was used to predict the pharmacokinetics. RESULTS The UGT1A1 rs887829 C > T single-nucleotide polymorphism (SNP) significantly influenced the area under the plasma concentration-time curve and the terminal half-life. Neither the MRP2 rs2273697 G > A SNP nor BCRP1 rs2231142 G > T SNP altered the absorption, disposition, and excretion of the drug. The BP-ANN model had a high goodness-of-fit index and good coherence between the predicted and measured concentrations (R2 = 0.921). CONCLUSION Metabolic enzyme-related genetic polymorphisms were more strongly associated with the pharmacokinetics of deferasirox than membrane transporter-related genetic polymorphisms in the Chinese population. TRIAL REGISTRATION www.Chinadrugtrials.org.cn CTR20191164.
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4.
Deferasirox Might Be Effective for Microcytic Anemia and Neurological Symptoms Associated with Aceruloplasminemia: A Case Report and Review of the Literature.
Miyake, Z, Nakamagoe, K, Yoshida, K, Kondo, T, Tamaoka, A
Internal medicine (Tokyo, Japan). 2020;(14):1755-1761
Abstract
The patient was a 64-year-old man presented with difficulty in walking, articulation, and swallowing, as well as cognitive impairment. He had refractory microcytic anemia and diabetes mellitus. His serum levels of iron, copper, and ceruloplasmin were low. Magnetic resonance imaging suggested iron deposition in the basal ganglia, thalami, cerebellar dentate nuclei, and cerebral and cerebellar cortices. He was diagnosed with aceruloplasminemia after a ceruloplasmin gene analysis. Iron chelation therapy with deferasirox improved his anemia and cerebellar symptoms, which included dysarthria and limb ataxia. The present study and previous reports indicate that cerebellar symptoms with aceruloplasminemia might respond to deferasirox in less than one year.
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5.
COVID-19 as part of the hyperferritinemic syndromes: the role of iron depletion therapy.
Perricone, C, Bartoloni, E, Bursi, R, Cafaro, G, Guidelli, GM, Shoenfeld, Y, Gerli, R
Immunologic research. 2020;(4):213-224
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Abstract
SARS-CoV-2 infection is characterized by a protean clinical picture that can range from asymptomatic patients to life-threatening conditions. Severe COVID-19 patients often display a severe pulmonary involvement and develop neutrophilia, lymphopenia, and strikingly elevated levels of IL-6. There is an over-exuberant cytokine release with hyperferritinemia leading to the idea that COVID-19 is part of the hyperferritinemic syndrome spectrum. Indeed, very high levels of ferritin can occur in other diseases including hemophagocytic lymphohistiocytosis, macrophage activation syndrome, adult-onset Still's disease, catastrophic antiphospholipid syndrome and septic shock. Numerous studies have demonstrated the immunomodulatory effects of ferritin and its association with mortality and sustained inflammatory process. High levels of free iron are harmful in tissues, especially through the redox damage that can lead to fibrosis. Iron chelation represents a pillar in the treatment of iron overload. In addition, it was proven to have an anti-viral and anti-fibrotic activity. Herein, we analyse the pathogenic role of ferritin and iron during SARS-CoV-2 infection and propose iron depletion therapy as a novel therapeutic approach in the COVID-19 pandemic.
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6.
Dysregulation of iron metabolism in cancer stem cells.
Recalcati, S, Gammella, E, Cairo, G
Free radical biology & medicine. 2019;:216-220
Abstract
Cancer stem cells (CSCs) are a distinct subpopulation of tumor cells endowed with stem-like properties. Importantly, CSCs can survive current standard therapies, resulting in metastatic disease and tumor recurrence. Here we describe the alterations of iron homeostasis occurring in CSCs, which in general are characterized by high intracellular iron content. Importantly, abnormalities of iron metabolism correlate with faster tumor growth and adverse prognosis in cancer patients. In line with the dependence of cancer on iron, we also discuss iron-dependent mechanisms as druggable pathways, as iron chelators have been considered for tumor therapy and new molecules currently proposed and studied as antineoplastic drugs may impinge on iron and its capacity to promote oxidative stress to have therapeutic value in cancer.
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7.
Strategies for managing transfusional iron overload: conventional treatments and novel strategies.
Sheth, S
Current opinion in hematology. 2019;(3):139-144
Abstract
PURPOSE OF REVIEW For individuals who have transfusion-dependent anemia, iron overload is the long-term complication, which results in significant morbidity. Ameliorating this is now the biggest unmet need. This review specifically addresses this issue. RECENT FINDINGS Over the last decade or so, major advances in the treatment of these individuals, has resulted from novel strategies aimed at reducing transfusion requirement as well as optimizing chelation therapy. This review will summarize these advances and provide insights into some of the therapies in the pipeline. Strategies aimed at reducing transfusion requirement include modulation of erythropoietic regulation by reducing ineffective red cell production through activin trapping, as well as stem cell gene modification approaches, which aim for a cure, and transfusion independence. Refined means of assessing tissue iron and the introduction of oral chelators have facilitated tailoring chelation regimens with closer monitoring and improved compliance. Newer approaches to ameliorate iron toxicity have focused on the hepcidin pathway, all of which would result in increased hepcidin levels and reduction of iron absorption from the intestine, sequestration of iron in normal storage sites and reduced exposure of more susceptible organs, such as the heart and endocrine organs, to the toxic effects of increased iron. SUMMARY These advances offer the promise of improved management of transfusion-dependent individuals.
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8.
Management of the aging beta-thalassemia transfusion-dependent population - The Italian experience.
Pinto, VM, Poggi, M, Russo, R, Giusti, A, Forni, GL
Blood reviews. 2019;:100594
Abstract
Thalassemia is among the most common monogenic diseases worldwide. Stem cell transplantation can be curative but is reserved for young patients, as probably gene therapy will be in the future. Adult thalassemia patients are treated with transfusion therapy and iron chelation, and improvements in the safety of transfusion protocols, use of iron chelation, monitoring of iron overload, and management of comorbidities have substantially prolonged survival, increasing the proportion of adult patients in the thalassemic population. However, older patients are more likely to develop multiple disease-related morbidities, including osteoporosis, endocrine disorders, liver disease, renal dysfunction, and cancer. Thus, the main objective of this article is to describe new challenges posed by the increasing life expectancy of patients with thalassemia, focusing on data from Italy where there is a well-documented history of thalassemia management. It is hoped that the mortality and morbidity benefits already seen in patients with thalassemia will continue to improve with ongoing advances in the quality of treatment.
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9.
Hematologic improvement with iron chelation therapy in myelodysplastic syndromes: Clinical data, potential mechanisms, and outstanding questions.
Leitch, HA, Gattermann, N
Critical reviews in oncology/hematology. 2019;:54-72
Abstract
Myelodysplastic syndromes (MDS) are clonal hematopoietic stem cell disorders characterized by cytopenias and progression to acute myeloid leukemia (AML). Although several treatments for MDS are available, the mainstay of therapy for most patients remains supportive care. This includes red blood cell (RBC) transfusion to correct anemia, which leads to iron overload. RBC transfusion dependence and iron overload portend inferior overall survival. Some studies indicate that iron chelation therapy (ICT) may have beneficial effects on clinical endpoints in MDS; however, these data are from non-randomized trials and the validity of the results is vigorously debated. A consistent observation in clinical studies of ICT in MDS has been hematologic improvement (HI) in some patients, including a reduction in RBC transfusion requirements and even transfusion independence. Here, we review data on HI with ICT in lower risk MDS, preclinical data examining mechanisms by which HI may occur, and identify areas for future investigation.
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10.
Effect of different iron chelation regimens on bone mass in transfusion-dependent thalassemia patients.
Bordbar, M, Haghpanah, S, Zekavat, OR, Saki, F, Bazrafshan, A, Bozorgi, H
Expert review of hematology. 2019;(11):997-1003
Abstract
Objectives: Iron overload might lead to bone loss in transfusion-dependent beta-thalassemia (TDT) patients. To investigate the role of iron chelation therapy (ICT) on bone mineral density (BMD) of TDT patients suffering from iron overload, the authors compared the efficacy of five different iron chelation regimens through assessing serum ferritin and BMD.Methods: In 256 consecutive TDT patients, BMD was measured by dual-energy X-ray absorptiometry in lumbar spine and femoral neck regions. Treatment outcome of five iron chelation regimens including Deferoxamine (DFO), Deferiprone (DFP), Deferasirox (DFX), and combination therapy was evaluated to compare the mean differences of serum ferritin and BMD indices pre- and post-treatment during 12-months follow-up period.Results: No significant difference was observed in DXA characteristics and serum ferritin level changes between ICT groups, but combination of DFO and DFX had the best outcome in improving bone mass through assessing each group individually.Conclusion: Combination therapy with DFX and DFO had the highest impact on reducing serum ferritin, however insignificant, and improving bone loss in both lumbar spine and femoral neck in comparison with other regimens. A randomized prospective clinical trial is advised to accurately assess the efficacy of iron chelation regimens on BMD measurements of TDT patients.