Luís Relvas scite author profile

Congenital Erythrocytosis (CE), also called congenital polycythemia, represents a rare and heterogeneous clinical entity. It is caused by deregulated red blood cell production where erythrocyte overproduction results in elevated hemoglobin and hematocrit levels. 3Primary congenital familial erythrocytosis is associated with low erythropoietin (Epo) levels and generally results from mutations in the erythropoietin-receptor gene (EPOR).Secondary congenital erythrocytosis arises from conditions which cause tissue hypoxia thus resulting in increased Epo production. These include hemoglobin variants with increased affinity for oxygen (genes HBB, HBA1 and HBA2), decreased production of 2,3-biphosphoglycerate due to mutations in the BPGM gene, or mutations in the genes involved in the hypoxia sensing pathway (VHL, EPAS1 and EGLN1). Depending on the affected gene CE can be inherited either in an autosomal dominant or recessive mode, with sporadic cases arising de novo.Despite recent important discoveries in the molecular pathogenesis of CE, the molecular causes remain to be identified in about 70% of the patients.With the objective of collecting all the published and unpublished cases of CE the COST action MPN&MPNr-Euronet developed a comprehensive internet-based database focusing on the registration of clinical history, hematological, biochemical and molecular data (http://www.erythrocytosis.org/). In addition, unreported mutations are also curated in the corresponding Leiden Open Variation Database (LOVD).

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Molecular study of congenital erythrocytosis in 70 unrelated patients revealed a potential causal mutation in less than half of the cases (Where is/are the missing gene(s)?)

Bento

Almeida

Maia

et al. 2013

European J of Haematology

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IntroductionCongenital Erythrocytosis can be classified as primary, when the defect is intrinsic to the RBC progenitors and independent of the serum erythropoietin (Epo) concentration, or secondary, when the erythrocytosis is the result of an up-regulation of Epo production. Primary erythrocytosis is associated with mutations in the EPOR gene, secondary congenital erythrocytosis can de due to mutations that stabilize the hemoglobin in the oxygenated form or to mutations in the genes that control the transcriptional activation of the EPO gene -VHL, EGLN1, EPAS1. Material and MethodsWith the main objective of describing the etiology and molecular basis of congenital erythrocytosis we have studied 70 consecutive unrelated patients presenting with idiopathic erythrocytosis from our hematology clinic or referred from other centers. According to a study algorithm we have sequenced all the genes described as associated with congenital erythrocytosis. Results and DiscussionErythrocytosis molecular etiology was identify in 25 (36%) of the 70 subjects. High-affinity Hb variants were the most common cause, present in 20% of the cases. New mutations were identified in the JAK2, EPOR, VHL and EGLN1 genes. Conclusions High affinity hemoglobin variants are a very rare cause of secondary congenital erythrocytosis, but it seems likely that their incidence may be underestimated. Our experience shows that in erythrocytosis with a dominant inheritance and normal or inappropriate high Epo levels, the HBB and HBA genes should be the first to be studied. In spite of the seven genes known to be involved in congenital erythrocytosis, the majority of the cases have unknown etiology.

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High Prevalence of Hemoglobin Disorders and Glucose-6-Phosphate Dehydrogenase (G6PD) Deficiency in the Republic of Guinea (West Africa)

et al. 2011

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Reliable and accurate epidemiological data is a prerequisite for a cost effective screening program for inherited disorders, which however, is lacking in a number of developing countries. Here we report the first detailed population study in the Republic of Guinea, a sub-Saharan West African country, designed to assess the frequency of glucose-6-phosphate dehydrogenase (G6PD) deficiency and hemoglobinopathies, including screening for thalassemia. Peripheral blood samples from 187 Guinean adults were screened for hemoglobin (Hb) variants by standard hematological methods. One hundred and ten samples from males were screened for G6PD deficiency by the fluorescent spot test. Molecular analysis was performed for the most common α-thalassemia (α-thal) deletions, β-globin gene mutations, G6PD variants B (376A), A (376G), A- (376G/202A) and Betica (376G/968C), using polymerase chain reaction (PCR), restriction fragment length polymorphism (RFLP) or sequencing. Of the 187 subjects screened, 36 were heterozygous for Hb S [β6(A3)Glu→Val, GAG>GTG] (allele frequency 9.62%). Sixty-four subjects were heterozygous and seven were homozygous for the -α(3.7) kb deletion (allele frequency 20.85%). β-Thalassemia alleles were detected in five subjects, four with the -29 (A>G) mutation (allele frequency 1.07%) and one with codon 15 (TGG>TAG) (allele frequency 0.96%). The G6PD A- and G6PD Betica deficient variants were highly prevalent with a frequency of 5.7 and 3.3%, respectively. While we did not test for ferritin levels or α(0)-thal, four females (5.2%) had red cell indices strongly suggestive of iron deficient anemia: Hb <9.7 g/dL; MCH <19.3 pg; MCV <68.2; MCHC <31.6 g/dl; RDW >19.8%. Our results are consistent with high frequency of alleles such as Hb S, α-thal and G6PD deficient alleles associated with malaria resistance. Finding a 9.6% Hb S allele frequency supports the notion for a proficient neonatal screening to identify the sickle cell patients, who might benefit from early prophylactic treatment for infections. The incidence of significant iron deficient anemia in women is lower than expected in an under developed country.

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Polymorphic variations influencing fetal hemoglobin levels: Association study in beta-thalassemia carriers and in normal individuals of Portuguese origin

Pereira

Relvas

Bento

et al. 2015

Blood Cells, Molecules, and Diseases

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Three major loci have been associated with HbF levels, including -158C/T (XmnI) at HBG2 promoter region, and several polymorphisms at BCL11A intron-2 and HBS1L-MYB (HMIP) intergenic region. Mutations in the KLF1 gene were recently associated with increased HbF levels. This study aims to evaluate whether genetic variability at these loci influence HbF levels in β-thalassemia carriers and in normal individuals of Portuguese origin. Sixty five β-thalassemia carriers, HbF levels ranging from 0.2% to 9.5%, and 60 individuals with normal haematological parameters, HbF levels ranging from 0.2% to 7.4%, were selected for this study. In β-thal carriers linear regression models revealed strong statistical significant association for HBG2 (XmnI) rs7482144 (β=0.45; P=5.85x10 -7 ), and nominal significance for BCL11A rs766432 (β=0.21; P=0.02) and HMIP rs9399137 (β=0.20; P=0.01). In normal individuals, a case (HbF>2%; n=15) vs. control (HbF<1.7%; n=45) model, showed nominal significant associations for BCL11A SNPs rs11886868 (OR=4; P=0.001), rs766432 (OR=3.7; P=0.002) and rs7606173 (OR=0.36; P=0.03). KLF1 rs3817621 was not found associated with HbF levels. Our results suggest that in Portuguese β-thal carriers the HBG2 XmnI polymorphism is strongly associated with HbF levels. In normal individuals, BCL11A polymorphisms, but not HMIP or HBG2 (XmnI) loci, are nominally associated with HbF expression.3

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Hereditary nonspherocytic hemolytic anemia caused by red cell glucose-6-phosphate isomerase (GPI) deficiency in two Portuguese patients: Clinical features and molecular study

Manco

Bento

Victor

et al. 2016

Blood Cells, Molecules, and Diseases

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Glucose-6-phosphate isomerase (GPI) deficiency cause hereditary nonspherocytic hemolytic anemia (HNSHA) of variable severity in individuals homozygous or compound heterozygous for mutations in GPI gene. This work presents clinical features and genotypic results of two patients of Portuguese origin with GPI deficiency. The patients suffer from a mild hemolytic anemia (Hb levels ranging from 10 to 12.7g/mL) associated with macrocytosis, reticulocytosis, hyperbilirubinemia, hyperferritinemia and slight splenomegaly. Genomic DNA sequencing revealed in one patient homozygosity for a new missense mutation in exon 3, c.260G>C (p.Gly87Ala), and in the second patient compound heterozygosity for the same missense mutation (p.Gly87Ala), along with a frameshift mutation resulting from a single nucleotide deletion in exon 14, c.1238delA (p.Gln413Arg fs*24). Mutation p.Gln413Arg fs*24 is the first frameshift null mutation to be described in GPI deficiency. Molecular modeling suggests that the structural change induced by the p.Gly87Ala pathogenic variant has direct impact in the structural arrangement of the region close to the active site of the enzyme.

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Luís Relvas

Genetic Basis of Congenital Erythrocytosis: Mutation Update and Online Databases

Molecular study of congenital erythrocytosis in 70 unrelated patients revealed a potential causal mutation in less than half of the cases (Where is/are the missing gene(s)?)

High Prevalence of Hemoglobin Disorders and Glucose-6-Phosphate Dehydrogenase (G6PD) Deficiency in the Republic of Guinea (West Africa)

Polymorphic variations influencing fetal hemoglobin levels: Association study in beta-thalassemia carriers and in normal individuals of Portuguese origin

Hereditary nonspherocytic hemolytic anemia caused by red cell glucose-6-phosphate isomerase (GPI) deficiency in two Portuguese patients: Clinical features and molecular study

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