Maria Angela La Rosa

Oxidative damage and genotoxicity biomarkers in transfused and untransfused thalassemic subjects.

Chronic anemia and tissue hypoxia increase intestinal iron absorption and mitochondrial impairment in thalassemic patients. Regular blood transfusions improve hemoglobin levels but determine an iron overload that induces reactive oxygen species (ROS) overproduction. The aim of this study was to assess cellular oxidative damage by detection of ROS, lipid peroxidation, 8-oxo-dG, and mitochondrial transmembrane potential (Δψ(m)) in transfused and untransfused thalassemic patients. We have also evaluated genotoxicity by CBMN and comet assay. Our data show that ROS and lipid hydroperoxides are significantly higher in thalassemic patients than in controls, especially in untransfused thalassemia intermedia patients. Moreover, the latter have a significant decrease in Δψ(m) that highlights the energetic failure in hypoxic state and the ROS overproduction in the respiratory chain. 8-OHdG levels are higher in thalassemics than in controls, but do not differ significantly between the two patient groups. Both genotoxicity biomarkers highlight the mutagenic potential of hydroxyl radicals released by iron in the Fenton reaction. Values for percentage of DNA in the comet tail and micronuclei frequency, significantly higher in transfused patients, could also be due to active hepatitis C virus infection and to the many drug treatments. Our biomonitoring study confirms the oxidative damage in patients with thalassemia major and shows an unexpected cellular oxidative damage in untransfused thalassemic patients. In addition to iron overload, the results highlight the important role played by hypoxia-driven mitochondrial ROS overproduction in determining oxidative damage in β-thalassemias.

Iron Burden and Liver Fibrosis Decrease During a Long-Term Phlebotomy Program and Iron Chelating Treatment After Bone Marrow Transplantation

In this retrospective study, we report the results of the association of a combined phlebotomy program and chelation in hereditary sideroblastic anemia (HSA) to reduce iron overload after bone marrow transplantation (BMT). A male HSA patient, not responding to pyridoxine treatment, was submitted to successful allogeneic BMT. As there was a persistence of a tissue iron overload, a regular phlebotomy program was started followed by chelation. A significant decrease of iron burden was obtained using a combined treatment with deferoxamine (DFO) and deferiprone (L1) in addition to the phlebotomy program. A 10-year follow-up shows a marked decrease in the concentration of serum ferritin, non-transferrin-bound iron (NTBI), liver iron and normal hemoglobin (Hb), which allows the patient to reach and maintain a good quality of life.

Role of genetic pattern on bone mineral density in thalassemic patients.

OBJECTIVES To evaluate the role of genetic background in osteoporosis/osteopenia development in beta-Thalassemia Major patients. DESIGN AND METHODS The influence of VDR (FokI, BsmI) as well as COLIA1 (Sp1) gene polymorphisms on BMD was investigated in 40 patients. RESULTS Although the examined gene polymorphisms did not significantly affect BMD variations in our population, BsmI was found to display beneficial effects on patient response to alendronate therapy. CONCLUSION Genetic factors retain a potential role for improvement of osteoporosis management in thalassemic patients.

Role of polymorphic sequences 5′ to the Gγ gene and 5′ to the β gene on the homozygous β thalassemic phenotype

Sixty‐seven homozygous male and female thalassemic patients with different phenotypes, aged between 8 and 33 years, were divided into three groups, according to the severity of their β‐thalassemia (thal) mutations. We investigated whether some co‐inherited genetic factors could influence the phenotype. Patients with milder β‐thal defects, homozygotes or compound heterozygotes for the IVS‐I‐6 (T→C) or −87 (C→G) mutations had a milder disease. In addition, determination of the co‐inheritance of the −158 (C→T) Gγ polymorphism and the (AT)9T5 repeat motif in the region −540 to −525, 5′ to the β‐globin gene, showed that in some patients with severe or mild/severe β‐thal mutations, linked to haplotype III, there was higher Hb F expression. We conclude that in homozygous β‐thal patients, the severity of the mutations is the most important factor influencing the phenotype, but some polymorphisms such as the −158 (C→T) Gγ and (AT)9T5 repeat motif, increasing the Hb F expression and ameliorate the clinical course of the disease.

A child with severe iron-deficiency anemia and a complex TMPRSS6 genotype

ABSTRACT Objectives: We report a case of a 7-year-old girl with severe hypochromic microcytic anemia, who was unresponsive to classical iron supplements. We suspected IRIDA, iron-refractory iron-deficiency anemia, a genetic iron metabolism disorder, caused by TMPRSS6 variations. TMPRSS6 encodes matriptase-2, a negative regulator of hepcidin, and its pathological variants are related to normal to high levels of hepcidin. We analyzed the TMPRSS6 gene and we improved clinical management of the patient, selecting the appropriate supplementation therapy. Intervention & Technique: The parenteral iron therapy was started, but the patient was only partially responsive and the anemia persisted. To confirm the diagnosis, the TMPRSS6 gene sequence was analyzed by DNA sequencing and other relevant biochemical parameters were evaluated. Results: The TMPRSS6 sequence analysis showed a complex genotype with a rare heterozygous missense variant, in addition to other common polymorphisms. The serum hepcidin value was normal. We unexpectedly observed a normalization of patient’s hemoglobin (Hb) levels only after liposomal iron treatment. Discussion and Conclusion: The proband was symptomatic for IRIDA during a critical phase of growth and development, but we did not find a clearly causative genotype. A long-term result, improving stably patient’s Hb levels, was obtained only after liposomal iron supplementation. Children may be at greater risk for iron deficiency and the degree of anemia as well as the response to the iron supplements varies markedly patient to patient. Here, we show the importance of comprehensive study of these patients in order to collect useful information about genotype–phenotype association of genes involved in iron metabolism.

HIF1α and Glut1 receptor in transfused and untransfused thalassemic patients

Keywords: hypoxia inducible factor 1; glucose transporter 1; hypoxia; transfusion; erythropoiesis

Long-term treatment with deferiprone in a L1 veteran.

Abstract:  We studied a patient with mild β‐thalassaemia major under treatment with the oral chelator deferiprone (DFP or L1) for about 10 yr (L1 veteran). Due to poor compliance with desferrioxamine, the patient started compassionate use of DFP at an age of 23 yr with a serum ferritin of 5200 μg/L. Monitoring iron overload by SQUID biosusceptometry revealed a dramatic decrease of liver iron concentrations from 4500 to 950 μg/gliver within 9.5 yr. A good clinical response to chelation treatment with DFP was observed together with an improvement of liver and cardiac function and a reduction in the hepatitis virus load.

Genotoxic effect of iron overload and disease complications in transfused β thalassaemic patients

In previously reported studies, we observed significantly high genotoxicity biomarkers in regularly transfused thalassaemic patients, thus, in this study, we better investigated the genotoxic effect of iron overload and of thalassaemia complications, including their drug treatments. The assessment was performed in 64 regularly transfused thalassaemic patients using cytokinesis-block micronucleus and comet assays. All patients were splenectomised and undergoing iron chelation therapy. To reduce hypoxia-induced oxidative damage, the patients with haemoglobin levels <9.5 g/dL were excluded. Serum concentrations of ferritin, iron, transferrin and the percentage of transferrin saturation, as well as cardiac and hepatic T2* magnetic resonance imaging, were considered to evaluate serum and organ siderosis.All genotoxic biomarkers significantly differed between patients and healthy subjects. Iron intake via blood transfusions was inversely related to percentage of DNA in tail. The disease complications affecting endpoints were active Hepatitis C virus infection, drug therapy for osteoporosis (i.e. bisphosphonates) and hormone replacement therapy for hypogonadism.The results, highlighting the combined effect of iron overload and, mainly, disease complications, including their respective pharmacological treatments, confirmed the increased cancer risk in thalassaemic patients.

The role of anaemia in oxidative and genotoxic damage in transfused β-thalassaemic patients

ABSTRACT Objectives: Redox imbalance and genotoxic damage are commonly observed in β thalassaemic patients. The aim of this study was to assess the role of anaemia in oxidative and genotoxic damage in regularly transfused thalassaemic patients, undergoing iron chelation therapy. Methods: We studied the relationships of haematological, biochemical and clinical parameters with oxidative (reactive oxygen species and 8-oxo-7,8-dihydro-2′-deoxyguanosine) and genotoxic biomarkers (Comet assay and cytokinesis-block micronucleus test) in blood samples from 105 patients. To reduce the early effect of redox-active iron, samples were collected when pharmacokinetics of the iron chelators ensured their maximum effectiveness. The transfusion regimen, cardiac and hepatic magnetic resonance imaging T2* were evaluated to characterize the patient cohort. Labile plasma iron (LPI) was also assayed. Results: Haemoglobin level had a significant effect on ROS, %DNA in the tail and micronuclei-micronucleated cell frequency (p < 0.05). Higher Hb values reduced redox imbalance. LPI, detectable in 50.5% of patients, was related to the number of apoptotic and necrotic lymphocytes (p = 0.03), demonstrating the cytotoxic effect of iron. Discussion: The results highlight that an adequate transfusion regimen is essential to limit oxidative and genotoxic damage in β-thalassemic patients undergoing chelation therapy. Conclusion: Owing to the higher risk of cancer in the thalassaemic cohorts, specific genotoxicity/oxidative biomarkers should be monitored in order to ameliorate and formulate more personalized disease management.

Soluble hemojuvelin in transfused and untransfused thalassaemic subjects

The hemojuvelin‐bone morphogenetic protein axis is the principal iron‐dependent mechanism of hepcidin regulation. The determination of soluble hemojuvelin (sHJV) levels could allow for a better understanding of the pathophysiological mechanisms of hepcidin regulation in thalassaemia.