Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Two males subjects are described with hitherto undescribed glucose-6-phosphate dehydrogenase (G6PD) variants. The first is of French ancestry, the second of Sicilian extraction. Each subject suffered from acute hemolytic anemia following ingestion of broad beans (Vicia fava). In both cases the hemolytic crisis occurred in a late period of life (29 and 58 years). No previous hemolytic crisis was recorded. The electrophoretic and kinetic properties of the mutant enzymes examined after purification from the red cells allowed each to be distinguished from other G6PD variants reported until now. The first variant was named Gd(-) Muret, the other Gd(-) Colomiers.
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PMID:Gd(-) Muret and gd(-) Colomiers, two new variants of glucose-6-phosphate dehydrogenase associated with favism. 725 Sep 73

Hemolytic or blood loss anemia was induce in six ponies and red blood cell concentrations of creatine, glucose-6-phosphate dehydrogenase (G-6-PD), lactate dehydrogenase (LDH), and aspartate transaminase (AST) were measured during the ensuing regenerative period. Creatine and G-6-PD levels correlated well and increased concentration of either was good indication of increased erythrogenesis. Erythrocyte LDH levels were of value in assessing the response to hemolytic anemia but not to blood loss anemia. The difference may be, at least in part, the result of differing degrees of regenerative effort seen in the two experimental groups. Red cell AST concentrations fluctuated markedly and were of no value in assessing the anemia in either group.
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PMID:Biochemical changes in equine erythrocytes during experimental regenerative anemia. 726 89

Two new glucose 6-phosphate dehydrogenase (G6PD) variants associated with chronic nonspherocytic hemolytic anemia were discovered, G6PD Kobe was found in a 16-year-old male associated with hemolytic crisis after upper respiratory infection. The enzyme activity of the variant was about 22% of that of the normal enzyme. The main enzymatic characteristics were slower than normal anodal electrophoretic mobility, high Km G6P, increased thermal-instability, an acidic pH optimum, and an extremely increased affinity for the substrate analogue, galactose 6-phosphate (Gal-6P). G6PD Sapporo was found in a 3-year-old male associated with drug-induced hemolysis. The enzyme activity was extremely low, being 3.6% of normal. In addition, this variant showed high Ki NADPH and thermal-instability. G6PD Kobe utilized the artificial substrate Gal-6P effectively as compared with the common natural substrate, glucose 6-phosphate. In G6PD Sapporo, NADPH could not exert the effect of product inhibition. The structural changes of these variants are expected to occur at the portions inducing conformational changes of the substrate binding site of the enzyme.
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PMID:Glucose 6-phosphate dehydrogenase variants: a unique variant (G6PD Kobe) showed an extremely increased affinity for galactose 6-phosphate and a new variant (G6PD Sapporo) resembling G6PD Pea Ridge. 732 62

Fifty-four cases of glucose 6-phosphate dehydrogenase (G6PD) deficiency have so far been reported in Japan. Among them, 21 G6PD variants have been characterized. Nineteen out of the 21 variants were characterized in our laboratory and G6PD Heian and "Kyoto" by others. G6PD Tokyo, Tokushima, Ogikubo, Kurume, Fukushima, Yokohama, Yamaguchi, Wakayama, Akita, Heian and "Kyoto" were classified as Class 1, because all these cases showed chronic hemolytic anemia and severe enzyme deficiency. All these variants showed thermal instability. G6PD Mediterranean-like, Ogori, Gifu and Fukuoka were classified as Class 2, whereas G6PD Hofu, B(-) Chinese, Ube, Konan, Kamiube and Kiwa belonged to Class 3. All the 6 Class 3 variants were found as the results of the screening tests. The incidence of the deficiency in Japanese seems to be 0.1-0.5% but that of the cases which may slow drug-induced hemolysis would be much less. G6PD Ube and Konan appear to be relatively common in Japan.
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PMID:Glucose 6-phosphate dehydrogenase variants in Japan. 744 Feb 23

We describe a case of favism in a female newborn infant with glucose-6-phosphate dehydrogenase (G6PD) deficiency whose mother had ingested fava beans 5 days before delivery. At birth there were clinical and hematologic signs of hemolytic anemia, hemoglobinuria, and no blood group immunization. Study of the G6PD activity and 2-deoxy-glucose-6-phosphate utilization rate revealed that the infant and the mother were heterozygous for G6PD deficiency.
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PMID:Favism in a female newborn infant whose mother ingested fava beans before delivery. 910 77

In order to explore the nature of glucose-6-phosphate dehydrogenase (G6PD) deficiency in Spain, we have analysed the G6PD gene in 11 unrelated Spanish G6PD-deficient males and their relatives by using the polymerase chain reaction and single-strand conformation polymorphism (PCR-SSCP) analysis combined with a direct PCR-sequencing procedure and PCR-restriction enzyme (RE) analysis. We have identified eight different missense mutations, six of which have been reported in previously described G6PD variants. In nine patients who had presented with acute favism we found the following mutations: G6PD A-376G-202A (four cases), G6PD Union1360T (two cases), G6PD Mediterranean563T (one case) and G6PD Aures143C (one case). In the remaining patient a novel A to G transition was found at nucleotide position 209 which has not been reported in any other ethnic group. This mutation results in a (70) Tyr to Cys substitution and the resulting G6PD variant was biochemically characterized and designated as G6PD Murcia. This new mutation creates a Bsp 1286I recognition site which enabled us to rapidly detect it by PCR-RE analysis. In two patients with chronic non-spherocytic haemolytic anaemia (CNSHA) we found the underlying genetic defects, as had been noted previously, to be located within a cluster of mutations in exon 10. One of them had the T to C transition at nucleotide 1153, causing a (385) Cys to Arg substitution, previously described in G6PD Tomah. The other, previously reported as having a variant called G6PD Clinic, has a G to A transition at nucleotide 1215 that produces a (405) Met to Ile substitution, thus confirming that G6PD Clinic is a new class I variant.
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PMID:Molecular genetics of glucose-6-phosphate dehydrogenase (G6PD) deficiency in Spain: identification of two new point mutations in the G6PD gene. 757 54

A 2-year-old Sicilian boy was investigated because of chronic nonspherocytic hemolytic anemia (CNSHA) associated with hepatosplenomegaly. Appropriate studies revealed deficiency of glucose-6-phosphate dehydrogenase type Seattle (G6PD Seattle). In addition, bone marrow morphology, serological studies and analysis of red cell membrane proteins revealed congenital dyserythropoietic anemia (CDA) type II (or HEMPAS). Because G6PD Seattle on its own does not cause CNSHA, we believe that the clinical manifestations in this patient are essentially due to the CDA type II abnormality. However, the coexistence of these two different red cell abnormalities may affect the clinical picture specifically by making CDA type II more hemolytic than it would have been otherwise.
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PMID:Congenital dyserythropoietic anemia type II associated with G6PD Seattle in a Sicilian child. 772 48

Individuals deficient in erythrocytic glucose-6-phosphate dehydrogenase (G6PD) show about a 2-fold increase in sensitivity toward dapsone-induced hemolytic anemia. Rat studies have shown that the hemolytic activity of dapsone resides in its N-hydroxy metabolites; exposure of rat red cells to N-hydroxy-dapsone in vitro followed by readministration to isologous rats results in premature splenic sequestration of the damaged cells. This study examines the ability of the steroid, epiandrosterone, to inhibit rat red cell G6PD and the effect of such inhibition on the susceptibility of rat red cells to N-hydroxydapsone hemolytic activity. Epiandrosterone was found to inhibit rat red cell G6PD uncompetitively and to suppress red cell hexose monophosphate shunt activity by more than 95%. Epiandrosterone suppression of rat red cell G6PD activity resulted in about a 2-fold increase in sensitivity of the rat cells to N-hydroxydapsone hemolytic activity, and a modest but significant increase in depletion of red cell glutathione. In contrast, suppression of rat red cell catalase activity by aminotriazole had no effect on the hemotoxicity of N-hydroxydapsone. Epiandrosterone appears to be a useful tool to explore the mechanism by which G6PD deficiency enhances susceptibility to hemolytic drugs.
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PMID:Dapsone-induced hemolytic anemia: role of glucose-6-phosphate dehydrogenase in the hemolytic response of rat erythrocytes to N-hydroxydapsone. 775 92

Among over 50 distinct mutations causing glucose-6-phosphate dehydrogenase (G6PD) deficiency, only two deletion mutations have so far been reported. Using nonradioisotopic single-strand conformation polymorphism analysis, we found two additional deletion mutations in two Japanese G6PD-deficient patients with nonspherocytic hemolytic anemia. Case no. 1 had a 3-nucleotide deletion in exon 6 predicting a deletion of a serine at amino acid 188 or 189, which caused a class 1 variant G6PD Tsukui. Case no. 2 had a 3-nucleotide deletion in exon 5 predicting a deletion of a lysine at residue 95, which caused a class 2 variant G6PD Urayasu. The 188th serine, which might be deleted in G6PD Tsukui, is located close to the putative G6P binding site. The 188th serine is also involved in the amino acid substitution in G6PD Mediterranean, but the kinetics of these two variants are totally different. The residue with an amino acid deletion in G6PD Urayasu was distant from the substrate binding sites and was located in a region with low sequence homology among species. The different properties of variants having mutations in exons 5 and 6 suggest that these two exons code distinct functional domains of the enzyme.
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PMID:Identification of two novel deletion mutations in glucose-6-phosphate dehydrogenase gene causing hemolytic anemia. 784 99

We have identified the glucose-6-phosphate dehydrogenase mutations responsible for enzyme deficiency in nine individuals with chronic nonspherocytic hemolytic anemia. We found the variants Tokyo, Iowa, Shinshu, and Guadalajara in British subjects and Kobe in an Italian. In addition we have determined the variant Corum has the mutation 820 G-->A and have found in British subjects the mis-sense mutations 224 T-->C, 488 G-->A and 833 C-->T which have not been described before. Some, but not all, of the mutations involve amino acids located near putative substrate binding sites.
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PMID:New glucose-6-phosphate dehydrogenase mutations associated with chronic anemia. 785 67


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