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:C0024530 (malaria)
44,886 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cape Town has a Greek community of about 5000, of whom approximately 75% originate from the island of Lesbos. In a survey of inherited haematological conditions in this population, 250 unrelated volunteers were investigated. The prevalence of heterozygous beta-thalassaemia was found to be 6.4%, with a gene frequency of 0.033. G6PD deficiency was detected in 10 males and it can be estimated that the prevalence in the male members of this population is 6.7%, with a gene frequency of 0.067. Hereditary spherocytosis was found in three respondents and this represents a prevalence of 1.2%, with a gene frequency of 0.006. One subject was heterozygous for the sickle cell trait (HbS) and another volunteer had haemoglobin Lepore, which had already been diagnosed in Greece. Our findings with respect to beta-thalassaemia and G6PD deficiency are similar to those reported from regions in Greece where malaria is not highly endemic.
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PMID:Inherited anaemias in the Greek community of Cape Town. 46 97

After 1940, the number of splenectomies performed in the United States and elsewhere increased rapidly. Splenectomy for Banti's disease and malaria decreased gradually into disrepute. Removal of the spleen for idiopathic thrombocytopenic purpura, congenital spherocytic anemia and acquired hemolytic anemia became accepted practice. However, debate still continues regarding the proper indications for splenectomy in Gaucher's disease, Felty's syndrome and leukemia.
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PMID:The spleen and splenectomy. 194 96

Between July 1974 and June 1978 the diagnosis of haemolytic anaemia was made in 267 patients. Thalassaemia major was the leading cause (40-50%) every year except in 1977, when a sharp rise in drug induced haemolysis in G-6-PD deficient patients (61.3%) was encountered. This was possible due to an increase in incidence of vivax malaria and the use of anti-malarial drugs in that year. Abnormal haemoglobins were noted in 9.7% of the total number of patients. Hereditary spherocytosis, autoimmune haemolytic anaemias and paroxysmal nocturnal haemoglobinuria formed a minor cause. Others included copper sulphate poisoning, snake bite, hornet sting and Plasmodium falciparum infection.
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PMID:Spectrum of haemolytic anaemias in Punjab, North India. 721 Jan 70

The glucose-6-phosphate dehydrogenase (G6PD) gene is X-linked. There are numerous mutations that cause a deficiency of this enzyme in erythrocytes. G6PD deficiency can produce anemia, both when drugs are administered and under the stress induced by infection. Functionally severe variants cause hereditary non-spherocytic hemolytic anemia, i.e. anemia even in the absence of stress. Neonatal jaundice occurs in G6PD deficiency, but it is likely that it is largely due to impairment of liver function, rather than to hemolysis. It has been suggested that there are clinical manifestations of G6PD deficiency that are related to other tissues, but the existence of these is not well documented. Some mutations that produce G6PD deficiency in red cells exist at polymorphic frequencies. Individuals with such mutations seem to have enjoyed a selective advantage because of resistance to falciparum malaria. Different mutations, each characteristic of certain populations, are found, and have been characterized at the deoxyribonucleic acid (DNA) level. G6PD A-(202A376G) is the most common African mutation. G6PD Mediterranean(563T) is found in Southern Europe, the Middle East and in the Indian subcontinent. Several other mutations are common in Asia. Genetic variability of G6PD has played an important role in the understanding of a variety of developmental processes.
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PMID:G6PD: population genetics and clinical manifestations. 886 Dec 78

This review discusses recent advances in our understanding of the structure, function and molecular genetics of the membrane domain of red cell anion exchanger, band 3 (AE1), and its role in red cell and kidney disease. A new model for the topology of band 3 has been proposed, which suggests the membrane domain has 12 membrane spans, rather than the 14 membrane spans of earlier models. The major difference between the models is in the topology of the region on the C-terminal side of membrane spans 1-7. Two dimensional crystals of the deglycosylated membrane domain of band 3 have yielded two and three dimensional projection maps of the membrane domain dimer at low resolution. The human band 3 gene has been completely sequenced and this has facilitated the study of natural band 3 mutations and their involvement in disease. About 20% of hereditary spherocytosis cases arise from heterozygosity for band 3 mutations, and result in the absence or decrease of the mutant protein in the red cell membrane. Several other natural band 3 mutations are known that appear to be clinically benign, but alter red cell phenotype or are associated with altered red cell blood group antigens. These include the mutant band 3 present in Southeast Asian ovalocytosis, a condition which provides protection against cerebral malaria in children. Familial distal renal tubular acidosis, a condition associated with kidney stones, has been shown to result from a novel group of band 3 mutations. The total absence of band 3 has been described in animals-occurring naturally in cattle and after targeted disruption in mice. Some of these severely anaemic animals survive, so band 3 is not strictly essential for life. Although the band 3-negative red cells were very unstable, they contained a normally-assembled red cell skeleton, suggesting that the bilayer of the normal red cell membrane is stabilized by band 3 interactions with membrane lipids, rather than by interactions with the spectrin skeleton.
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PMID:The structure and function of band 3 (AE1): recent developments (review). 949 67

The recent discovery of the specific molecular defects in many patients with hereditary spherocytosis and hereditary elliptocytosis/pyropoikilocytosis partially clarifies the molecular pathology of these diseases. HE and HPP are caused by defects in the horizontal interactions that hold the membrane skeleton together, particularly the critical spectrin self-association reaction. Single gene defects cause red cells to elongate as they circulate, by a unknown mechanism, and are clinically harmless. The combination of two defective genes or one severe alpha spectrin defect and a thalassaemia-like defect in the opposite allele (alphaLELY) results in fragile cells that fragment into bizarre shapes in the circulation, with haemolysis and sometimes life-threatening anaemia. A few of the alpha spectrin defects are common, suggesting they provide an advantage against malaria or some other threat. HS, in contrast, is nearly always caused by family-specific private mutations. These involve the five proteins that link the membrane skeleton to the overlying lipid bilayer: alpha and beta spectrin, ankyrin, band 3 and protein 4.2. Somehow, perhaps through loss of the anchorage band 3 provides its lipid neighbours (Peters et al, 1996), microvesiculation of the membrane surface ensues, leading to spherocytosis, splenic sequestration and haemolysis. Future research will need to focus on how each type of defect causes its associated disease, how the spleen aggravates membrane skeleton defects (a process termed 'conditioning'), how defective red, cells are recognized and removed in the spleen, and why patients with similar or even identical defects can have different clinical severity. Emphasis also needs to be given to improving diagnostic tests, particularly for HS, and exploring new options for therapy, like partial splenectomy, which can ameliorate symptoms while better protecting patients from bacterial sepsis and red cell parasites, and perhaps from atherosclerosis (Robinette & Franmeni, 1977) and venous thrombosis (Stewart et al, 1996).
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PMID:Red blood cell membrane disorders. 1105 1

This review describes some of the naturally occurring band 3 (AEI) variants and their association with disease. Southeast Asian Ovalocytic (SAO) band 3, an inactive and misfolded protein, is probably only maintained in certain populations because it provides protection against the cerebral form of malaria. Many mutations that cause instability of band 3, either at the mRNA or protein level, result in hereditary spherocytosis (HS). Some polymorphisms alter amino acid residues in the extracellular loops of band 3 and are associated with blood group antigens. A truncated form of AEI is expressed in kidney cells and certain AEI mutations are associated with distal renal tubular acidosis (dRTA). The molecular basis of these variants and their effect on the structure and function of band 3 are discussed. The association between band 3 and glycophorin A (GPA) and the structure/function changes of band 3 in the absence of GPA are also described.
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PMID:Erythroid band 3 variants and disease. 1089 57

Band 3 proteins, members of the anion exchange family of proteins (AE 0-3), are involved in a number of physiological activities such as cell volume and osmotic homeostasis, HCO3-/Cl- exchange, red cell aging, IgG binding and cellular removal, and the maintenance of the structural integrity of cells. They are present in the membranes of all cells and cellular organelles examined including Golgi, mitochondria and nuclei. The first polymorphisms of band 3 discovered were the asymptomatic band 3 Memphis variants carrying the Lys --> Gly substitution at position 56 in the cytoplasmic tail, and band 3 Texas (high transport band 3 Texas) with a mutation in the critical transmembrane, anion transport domain (Pro --> Leu substitution at position 868). The rate at which band 3 mutations were discovered accelerated in the mid 1990s and there are now over 50 known. The most common polymorphisms of band 3 are the Diego blood group antigens which reside on extracellular loops of the protein. Southeast Asia ovalocytosis (SAO; a nine amino acid deletion of residues 400-408) is a band 3 mutation known only in the heterozygous state in which it does not cause disease. It is thought to confer resistance to malaria by altering red cell deformability. Band 3 mutations are responsible for a subset of the heterogeneous group of disorders known as hereditary spherocytosis (HS). HS is a relatively common congenital or inherited group of anemias characterized by chronic hemolysis and abnormal red cell morphology. Red cells in the subset of HS with band 3 mutations behave like they are band 3 deficient either because the mutant protein is not incorporated into the membrane or because it is not functional. HS can be caused by mutations in any of at least 5 proteins involved in membrane stability. Band 3 mutations are associated with diseases in cells besides erythrocytes. For example, 2 types of distal renal tubular acidosis are the result of band 3 mutations either alone or combined with SAO. Band 3 alterations are implicated in neurological diseases such as familial paroxysmal dyskinesia, idiopathic generalized epilepsies, and neuro- or choreoacanthocytosis although they have not been demonstrated to be causative. Mutations in other genes can cause changes in band 3. An example is sickle cell anemia where the increased oxidation causes accelerated aging of band 3 and increased IgG binding and cellular removal.
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PMID:Band 3 and its alterations in health and disease. 1509 83

Hemolysis presents as acute or chronic anemia, reticulocytosis, or jaundice. The diagnosis is established by reticulocytosis, increased unconjugated bilirubin and lactate dehydrogenase, decreased haptoglobin, and peripheral blood smear findings. Premature destruction of erythrocytes occurs intravascularly or extravascularly. The etiologies of hemolysis often are categorized as acquired or hereditary. Common acquired causes of hemolytic anemia are autoimmunity, microangiopathy, and infection. Immune-mediated hemolysis, caused by antierythrocyte antibodies, can be secondary to malignancies, autoimmune disorders, drugs, and transfusion reactions. Microangiopathic hemolytic anemia occurs when the red cell membrane is damaged in circulation, leading to intravascular hemolysis and the appearance of schistocytes. Infectious agents such as malaria and babesiosis invade red blood cells. Disorders of red blood cell enzymes, membranes, and hemoglobin cause hereditary hemolytic anemias. Glucose-6-phosphate dehydrogenase deficiency leads to hemolysis in the presence of oxidative stress. Hereditary spherocytosis is characterized by spherocytes, a family history, and a negative direct antiglobulin test. Sickle cell anemia and thalassemia are hemoglobinopathies characterized by chronic hemolysis.
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PMID:Hemolytic anemia. 1520 94

Glucose-6-phosphate dehydrogenase (G6PD) deficiency is the commonest red cell enzymopathy in humans and has an X-linked inheritance. It has been reported from India more than 30 years ago and the prevalence varies from 0-27% in different caste, ethnic and linguistic groups. The major clinical manifestations are drug induced hemolytic anemia, neonatal jaundice and chronic non-spherocytic hemolytic anemia. Individuals with G6PD deficiency have a selective advantage against falciparum malaria. Thirteen biochemically characterized variants have been reported from India. At the molecular level, G6PD Mediterranean is the most common deficient variant in the caste groups whereas, G6PD Orissa is more prevalent among the tribal of India. The third common variant seen in India is G6PD Kerala-Kalyan.
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PMID:Glucose-6-phosphate dehydrogenase deficiency in India. 1522 63


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