UMLS:C0002878 - FACTA Search

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Query: UMLS:C0002878 (hemolytic anemia)
7,530 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A new case of glucose phosphate isomerase deficiency associated with cogenital nonspherocytic hemolytic anemia is described in a 12-year-old girl of Spanish origin. The parents exhibited erythrocyte glucose phosphate isomerase activity between 50 and 60% of normal. The enzyme of the propositus had normal Michaelis-Menten constants both for F-6-P and G-6-P, but abnormal pH optimum and decreased heat stability at 48 degrees C. On starch-gel electrophoresis the father's enzyme was normal but the mother's showed a cathodic migrating band in addition to the normal one. The enzyme from the propositus exhibited only one band with cathodal mobility of 116% of the main band found in normal subjects. It is postulated that the propositus is double heterozygous for two abnormal alleles, and the mother contributes a mutant allele with abnormal electrophoretic mobility and thermolability at 48 degrees C whereas the father contributes an allele without enzymatic activity.
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PMID:Glucose phosphate isomerase deficiency with hereditary hemolytic anemia in a Spanish family: clinical and familial studies. 24 Jul 75

The haematological data in a 9-year-old Dutch child suffering from an unusual new variant of glucose-6-phosphate isomerase deficiency (GPI Utrecht) are discussed. Symptoms and signs differ in many respects from those generally observed in GPI deficiency, as mental retardation, drug sensitivity and increased susceptibility to infections were present. Extensive studies on mechanisms involved in drug-sensitive haemolytic anaemia did not reveal its causes. Though the defect was generalized, no disturbance in granulocyte and thrombocyte functions were detected.
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PMID:Haematological studies in a new variant of glucosephosphate isomerase deficiency (GPI Utrecht). 127 Mar 25

First trimester prenatal diagnosis was offered to the mother of a child affected by severe haemolytic anaemia due to glucose phosphate isomerase (GPI) deficiency. The mutant enzyme was characterized by an increased thermal lability. Both parents had 50 per cent normal red cell GPI activity. We have shown that the homozygous and heterozygous genotypes can be clearly distinguished from each other and controls by combinations of the measurement of enzyme activity and enzyme thermal lability. Examination of trophoblast cells obtained at 9 weeks of gestation led to the diagnosis of a GPI heterozygous fetus. The result was confirmed by analysis on uncultured and cultured amniotic fluid cells sampled at 16 weeks and by red blood cell studies of the healthy newborn. Prenatal diagnosis of GPI deficiency is indicated in families with previous cases resulting in severe haemolysis and mainly with the conservative view of arranging appropriate therapeutic measures for affected fetuses.
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PMID:First trimester monitoring of a pregnancy at risk for glucose phosphate isomerase deficiency. 370 21

A glucose-6-phosphate isomerase deficiency is described in an Arab boy suffering from chronic hemolytic anemia. The patient was probably true homozygous for the defect. The residual enzyme activity in his red blood cells (RBC) was approximately 30% of normal. The most striking enzyme abnormality observed was an extreme heat lability: upon incubation at 45 C, greater than 90% of activity was lost within 15 min. Furthermore, an increased affinity for the substrate glucose-6-phosphate was shown. The lability of the enzyme was also shown to exist in vivo by separating the patient's RBC into four fractions of different cell age by centrifugation on a discontinuous density gradient. This in vivo lability of the enzyme is believed to be the main cause of the hemolytic diathesis. Remarkably, the residual activity of the enzyme in the RBC of obligate heterozygotes was comparable to that in the patient. However, their enzyme activity was only slightly more labile than that in normal RBC and consequently no signs of hemolysis were noticed.
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PMID:Glucose-6-phosphate isomerase deficiency-Nahariya: extreme in vitro and in vivo lability of the mutant enzyme. 646 74

Glucose phosphate isomerase (GPI, glucose 6-phosphate ketol-isomerase, EC 5.3.1.9) is a housekeeping gene expressed in all tissues and organisms that utilize glycolysis and gluconeogenesis. Deficiency in humans leads to a rare form of nonspherocytic hemolytic anemia. We have isolated a 3.2-kb mouse cDNA containing glucose phosphate isomerase coding sequence and a 2.1-kb intronic sequence and a large proportion of the human gene (approaching 55 kb) in four phage lambda recombinants. A 4-kb intronic fragment from the human gene showing homology to the mouse intronic sequence has been isolated and sequenced. The fragment contains approximately 1.5 kb of sequence that is composed of 30 repeat units of a novel 50-bp tandemly repeated units. The mouse intronic sequence contains 18 similar units. The human consensus sequence differs from the mouse consensus sequence at only 7 positions out of 50 (positions 16, 26, 27, 42, 43, 47, and 48). A probe containing the repeat element detects polymorphisms, specific to glucose phosphate isomerase, in human DNA. The repeat element does not appear to be present at any other loci in human DNA. The conservation of this intronic repeat element extends to pig and Chinese hamster.
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PMID:Identification of a novel tandemly repeated sequence present in an intron of the glucose phosphate isomerase (GPI) gene in mouse and man. 754 51

Here we report the 4th Italian case of glucose phosphate isomerase (GPI) deficiency. The propositus is a young man suffering from chronic haemolytic anaemia since birth with occasional transfusion requirement. Biochemical characterization of the defective enzyme revealed increased affinity for F-6-P, decreased affinity for G-6-P and marked thermoinstability. Electrophoretic mobility appeared normal. GPI from both parents showed similar but less pronounced biochemical alterations. The variant described here seems to be different from those previously reported. Thus, we propose the provisional name of GPI "Morcone".
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PMID:Glucose phosphate isomerase (GPI) "Morcone": a new variant from Italy. 802 Jun 25

The first two mutations causing hereditary glucose-6-phosphate isomerase (GPI) deficiency associated with chronic nonspherocytic hemolytic anemia in nonhuman mammals are described in the mouse. As in humans, the hemolytic syndrome, which is characterized by a diminished erythrocyte number, lower hematocrit, lower hemoglobin, higher number of reticulocytes and plasma bilirubin concentration, as well as increased liver- and spleen-somatic indices, was exclusively manifested in homozygous mutants. In comparison with wild type, heterozygous individuals exhibited neither hematologic differences nor alterations of other physiologic parameters, including plasma concentration of glucose, pyruvate and lactate, body weight, organo-somatic indices of liver, lung, kidney, spleen, and heart, as well as viability. Glycolytic intermediates, adenine nucleotides, and metabolic rate were not significantly altered in erythrocytes from heterozygotes. On the contrary, if allowance is made for the young erythrocyte population, homozygous mutant erythrocytes showed an increased concentration of glucose-6-phosphate and normal or decreased concentrations of glycolytic metabolites following the enzymatic block. The concentration of adenosine triphosphate and the glycolytic rate also appeared to be reduced. Homozygous anemic mice showed hepatosplenomegaly and typical adaptations to hypoxia, such as an elevated heart-somatic index and, for one mutant line, an enhanced lung-somatic index. Further, these animals were characterized by a marked reduction of body weight and an increase of lethality both correlated with the degree of enzyme deficiency in tissues. The latter findings were attributed to a reduced glycolytic capability of the whole organism caused by the enzyme defect in tissues, rather than representing secondary consequences of GPI deficiency in erythrocytes. The similarity in physicochemical and kinetic properties of the mutant murine proteins reported earlier with those of allozymes found in human GPI deficiency, as well as the comparable metabolic and physiologic consequences of this enzyme defect in mice and humans support that these murine mutants are excellent animal models for the human disease.
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PMID:Glucose-6-phosphate isomerase deficiency associated with nonspherocytic hemolytic anemia in the mouse: an animal model for the human disease. 841 89

The structure of the gene for human glucose phosphate isomerase (GPI) has been determined. Three GPI clones were isolated from a human genomic library by using a full-length GPI cDNA probe and were characterized. Oligonucleotides based on the known cDNA sequence were used as primers in amplification and sequence analyses. This led to the identification of the exon-intron junctions. By this approach, 18 exons and 17 introns have been identified. The exons range in size from 44 to 431 nucleotides. The intronic sequences surrounding the exons provide useful information for the identification of mutations that give rise to human GPI deficiency associated with chronic hemolytic anemia.
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PMID:Human glucose phosphate isomerase: exon mapping and gene structure. 857 67

We have studied four unrelated Italian patients with chronic hemolytic anemia associated with glucose phosphate isomerase (GPI) deficiency. Using intronic primers, we were able to detect the gene alterations on the genomic DNA of the patients. Five different mutations were identified among the eight mutated alleles found: three missense mutations (301A,584T,1028G), one nonsense mutation (286T), and a four nucleotides deletion [Del 1473-IVS16(+2)]. All of these were new except for mutation 1028G, which was previously identified in a Japanese variant (GPI Narita). Two patients were homozygotes (301A/301A and 1028G/1028G), whereas the other two were compound heterozygotes sharing a common mutation [286T/584T and Del 1473-IVS16(+2)/584T]. The missense mutations were found to involve highly conserved amino acids, suggesting that these residues are crucial for the maintenance of the enzyme function. The mutation 286T results in a truncated protein of 95 amino acids in comparison with the 558 of the normal one. The four nucleotides deletion located at the junction of exon/intron 16(5'-TTGGTCGgtgagt-3') is the first GPI mutation affecting a splice site. Moreover one difference from the published sequence (473T-->G) was found in exon five in all of the eight alleles studied and in 30 normal subjects. Correlation was made between mutations, biochemical characteristics of the enzyme, and clinical course of the disease.
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PMID:Study of the molecular defects in glucose phosphate isomerase-deficient patients affected by chronic hemolytic anemia. 882 52

We report here two new cases of glucose phosphate isomerase (GPI) deficiency associated with hemolytic anemia and present the results of molecular analysis of the five Japanese GPI variants. A Japanese girl (GPI Fukuoka) had an episode of prolonged neonatal jaundice and at 3 years of age was admitted due to acute hemolytic crisis occurring with upper respiratory tract infection. Red blood cell (RBC) GPI activity was decreased to 11.8% of normal and the reduced glutathione (GSH) level of RBCs was slightly decreased. A 54-year-old Japanese man (GPI Iwate) was hospitalized due to chronic active hepatitis, and compensated hemolysis was noted. RBC GPI activity of the proband was decreased to 18.8%, and the GSH content was about half of the normal mean value. Sequencing of the reticulocyte GPIcDNA showed homozygous missense mutations 1028CAG-->CGG (343Gln-->Arg), 14ACC-->A7C (5Thr-->lle), 671ACG-->A7G (224Thr-->Met), and 1615GAC-->AAC (539Asp-->Asn) in GPI Narita, GPI Matsumoto, GPI Iwate, and GPI Fukuoka, respectively. We also identified GPI Kinki as a compound heterozygote of 1124ACA-->AGA(375Thr-->Arg)/ 1615GAC-->AAC(539Asp-->Asn). Our findings, together with the previous results of other investigators, showed that the GPI gene mutations so far identified were heterogeneous, although most GPI variants had common biochemical characteristics such as heat instability and normal kinetics. Several amino acid substitutions were identified in the proximity of the catalytically important amino acid residues such as Ser/Asp 159/160, Asp341, and Lys518, which have been identified in the structural analysis of the pig GPI. The molecular characterization of human GPI variants, therefore, may provide new insights into the genotype-phenotype correlation of GPI deficiency as well as the structure-function relationship of this enzyme.
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PMID:Molecular analysis of glucose phosphate isomerase deficiency associated with hereditary hemolytic anemia. 882 54

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