Blood p50 evaluation enhances diagnostic definition of isolated erythrocytosis.

BACKGROUND: High oxygen-affinity haemoglobin variants and 2,3-diphosphoglycerate (2,3-DPG) deficiency are inherited diseases generating low tissue oxygen tension and erythropoietin-driven erythrocytosis, that characterizes the clinical phenotype of patients. Level of blood p50 (the oxygen tension at which haemoglobin is 50% saturated) is used to recognize these conditions. OBJECTIVES: To define the clinical utility of blood p50 measurement in the diagnosis of isolated erythrocytosis. SUBJECTS AND DESIGN: Venous blood p50 measurement was included in the diagnostic work-up of 102 consecutive patients with isolated erythrocytosis besides blood cell count, arterial oxygen saturation, serum erythropoietin measurement and screening for JAK2 mutations. SETTING: Haematological Outpatient Section at University Hospital. RESULTS: Seven patients had relative erythrocytosis. Among 95 patients with absolute erythrocytosis, 4 (4.2%) had decreased p50 level. The extended study of family members revealed a familial inheritance. Two families had haemoglobin variants already described as Haemoglobin Malmö and Haemoglobin San Diego. In one family, the proband had a new high oxygen-affinity haemoglobin variant (Haemoglobin Safi) resulting from the transversion C-->A at codon 81 of the alpha2-globin gene. In the last family, a deficiency of 2,3-DPG was found. Within the 91 patients with normal p50 values, 46 (51%) had secondary erythrocytosis, 13 (14%) polycythemia vera and 32 (35%) idiopathic erythrocytosis. CONCLUSIONS: This study suggests that the investigation of blood p50 level may be useful to define diagnosis in patients with isolated erythrocytosis.

Iron status and HFE genotype in erythrocyte pyruvate kinase deficiency: study of Italian cases.

We evaluated the iron status and searched for mutations C282Y and H63D in the hereditary hemochromatosis gene (HFE) in 34 pyruvate kinase (PK)-deficient patients from 29 unrelated families. Nine had received multiple transfusions. Thirteen of the 25 nontransfused patients displayed increased serum ferritin concentration, in the absence of conditions known to raise this parameter. HFE genotype was abnormal in 9 of 34 patients. The allele frequency was 1.8% for mutation 845G--> (C282Y) and 16.1% for mutation 187C-->G (H63D). Nontransfused subjects with abnormal genotype had serum ferritin and transferrin saturation values significantly higher than those with wild-type genotype. Of the 12 adult nontransfused patients with increased iron status parameters, 1 was C282Y homozygous, 1 compound heterozygous for C282Y and H63D, 3 H63D heterozygous, and 7 had a normal HFE genotype. Serum ferritin and transferrin saturation were not related to hemoglobin, reticulocytes, and bilirubin concentration. At multivariate analysis serum ferritin was independently associated with age and gender, but not with splenectomy and HFE genotypes. The retrospective evaluation of the iron status profile of 10 patients (3 with abnormal and 7 with wild-type HFE genotype) with at least 10 years follow-up showed that overt iron accumulation requiring iron chelation had occurred only in the 3 patients (2 of whom were splenectomized) with the mutated HFE gene.

Cell age-related monovalent cations content and density changes in stored human erythrocytes.

Conversion of erythrocyte membrane protein 4.1b to 4.1a occurs through a non-enzymatic deamidation reaction in most mammalian erythrocytes, with an in vivo half-life of approximately 41 days, making the 4.1a/4.1b ratio a useful index of red cell age [Inaba and Maede, Biochim. Biophys. Acta 944 (1988) 256-264]. Normal human erythrocytes distribute into subpopulations of increasing cell density and cell age when centrifuged in polyarabinogalactan density gradients. We have observed that, when erythrocytes were stored at 4 degrees C under standard blood bank conditions, the deamidation was virtually undetectable, as cells maintained the 4.1a/4.1b ratio they displayed at the onset of storage. By measuring the 4.1a/4.1b values in subpopulations of cells of different density at various time points during storage, a modification of the normal 'cell age/cell density' relationship was observed, as erythrocytes were affected by changes in cell volume in an age-dependent manner. This may stem from a different impact of storage on the imbalance of monovalent cations, Na(+) and K(+), in young and old erythrocytes, related to their different complement of cation transporters.

Molecular characterization of the PK-LR gene in sixteen pyruvate kinase-deficient patients.

We studied the PK-LR gene in 16 unrelated patients with congenital haemolytic anaemia associated with erythrocyte pyruvate kinase deficiency. Fifteen different mutations were detected among the 28 mutated alleles identified: two deletions (del 1010G, del 1042--1044); one four nucleotide duplication (nt 1515--1518, GGTC); one splice site [IVS6(-2)t]; nine missense (991A, 1003A, 1151T, 1160G, 1181T, 1181A, 1456T, 1483A, 1529A); and two nonsense (721T, 1675T) mutations. Eight of them [del 1010G, del 1042--1044, dupl 1515--1518, IVS6(-2)t, 1003A, 1160G, 1181T, 1181A] were novel. The deletion 1042-1044 causes the loss of Lys 348. Deletion 1010G and duplication 1515-1518 determine a frameshift and the creation of a stop codon at nucleotides 1019 and 1554 respectively. Mutation IVS6(-2)t leads to an alteration of the 5' and 3' splice site consensus sequence; the cDNA analysis shows a 67-bp deletion in the first part of exon 11 (del 1437--1503). All the four new missense mutations involve highly conserved amino acids. The most frequent mutation in Italy would appear to be 1456T. Correlation was made between mutations, biochemical characteristics of the enzyme and clinical course of the disease.

A case of complete adenylate kinase deficiency due to a nonsense mutation in AK-1 gene (Arg 107 --> Stop, CGA --> TGA) associated with chronic haemolytic anaemia.

Two siblings of Italian origin with mild chronic haemolytic anaemia, psychomotor impairment and undetectable adenylate kinase (AK) activity are reported. The other red cell enzyme activities were normal except for a slight decrease of PFK. 2,3-DPG levels were increased in both siblings, and AMP decreased in one only. The parents were not consanguineous and displayed intermediate AK activity. The sequence of complete erythrocyte AK-1 cDNA showed the presence of a nonsense homozygous mutation at codon 107 (CGA --> TGA, Arg --> Stop) in the siblings. The mutation results in a truncated protein of 107 amino acids in comparison with the 194 of the normal one. Moreover a 37 bp deletion in the first part of exon 6 (from nt 326 to nt 362 of the cDNA sequence) was detected in one allele; this deletion is not likely to further affect the enzyme structure, being localized after the stop codon. The new variant was named AK Fidenza, from the origin of the patients.

A variant of the EPB3 gene of the anti-Lepore type in hereditary spherocytosis.

The EPB3 gene encodes band 3 (anion exchanger 1) of the red cell membrane. A subset of hereditary spherocytosis (HS) is associated with EPB3 gene mutations and band 3 deficiency. We report a large Italian family in which 10 of the 27 members investigated displayed an autosomal dominant HS. SDS-PAGE revealed a reduction in band 3 in the patients. Screening of the Pst I polymorphic site confirmed the linkage of HS with the EPB3 gene. Analysis of complementary and genomic DNA showed a large additional segment. Nucleotide sequencing disclosed an in-frame duplication of 69 nucleotides (nt) including a triplet of intronic origin and a genuine exonic duplication of 66 nt. Two CCTGC sequences occurred close to one another, one near the intron 12 acceptor splice site (nt -7 to -3), and the other within exon 13 (nt 1494-1498). We assumed that the abnormal allele arose from an unequal recombination event of the anti-Lepore type between the two CCTGC sequences. At the level of the mutated protein, termed band 3 Milano, the additional segment (Gln plus duplication of residues 478-499) corresponded to the last part of the third transmembrane domain (TM3), the entire second outer loop and part of TM4 as it is currently defined in hydropathy analysis. After deglycosylation of band 3, only the normal band was detected, supporting the view that band 3 Milano is probably not incorporated into the membrane.

Molecular characterization of PK-LR gene in pyruvate kinase-deficient Italian patients.

We studied the PK-LR gene in 15 unrelated Italian patients with congenital hemolytic anemia associated with erythrocyte pyruvate kinase (PK) deficiency. Fourteen different mutations were detected among 26 mutated alleles identified: a five-nucleotide (nt) deletion (227 to 231), two splice-site (1269C and IVS3(-2)c), 10 missense (514C, 787T, 823A, 993A, 994A, 1168A, 1456T, 1529A, 1552A, and 1594T) and one nonsense mutation(s) (721T). Eight of these (deletion 227-231, 1269C, IVS3(-2)c, 514C, 787T, 823A, 1168A, and 1552A) were novel. Moreover, a new polymorphic site was detected in the 3' untranslated region of the mRNA (C/T, nucleotide 1738). The deletion 227-231 causes a stop codon after amino acid 77, probably resulting in an unstable gene product. Mutations 1269C and IVS3(-2)c lead to an alteration of the 5' and 3' splice-site consensus sequence, respectively; cDNA analysis failed to reveal any abnormal transcript, suggesting that these mutations generate an unstable mRNA that is rapidly degraded. Of the five new missense mutations, 823A (Gly275-Arg) and 1168A (Asp390-Asn) involve highly conserved amino acids, 514C (Glu172-Gln) and 1552A (Arg518-Ser), although found in less conserved regions, affect the balance of the electric charges of the protein. Mutation 787T (Gly263-Trp) is likely to determine strong modifications in the local structure of the molecule. The most frequent mutation in Italy appears to be 1456T (seven of 30 alleles), followed by 1529A (three of 30) and 994A (three of 30). A correlation was found between mutations, biochemical characteristics of the enzyme, and clinical course of the disease.