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:C0002871 (anemia)
52,094 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Studies were done on the effect of ascorbic acid and five amino acids (histidine, cystine, cysteine, valine and glutamic acid) on intestinal iron absorption in a group of ninety Egyptian infants and young children, of which fifty-seven were healthy controls and thirty-three were suffering from Fe-deficiency anaemia. 2. Supplements tested promoted Fe absorption in healthy controls in the following order: valine larger than histidine larger than ascorbic acid. Cysteine, glutamic acid and cystine were found to have no significant effect. 3. Supplementation with valine, ascorbic acid and histidine also increased intestinal Fe absorption in anaemic subjects, but to a lesser extent than in controls. 4. Supplementation of haematinic therapy with these compounds is recommended. Their use is also suggested to improve the availability of the Fe content of everday diets.
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PMID:The absorption of iron, with or without supplements of single amino acids and of ascorbic acid, in healthy and Fe-deficient children. 112 66

The concentrations of unbound amino acids in erythrocytes and in plasma from 7 normal individuals, 11 patients with various types of aregeneratory anaemia, and 4 patients with hereditary haemolytic anaemias were determined on a Technicon Amino Acid Analyzer (Perry et al 1970). Most amino acids were normally found in higher concentrations in plasma than intracellularly. Cystine, methionine and trypotophan were almost exclusively present in plasma. Aspartic acid, however, was mainly found in erythrocytes, and glutathione only in erythrocytes. Glutamic acid and ornithine were more concentrated in the cells, while glycine and asparagine showed approximately the same concentrations in erythrocytes as in plasma. In the patients, plasma amino acids showed little deviations from normal, but in the erythrocytes there were striking changes. Erythrocyte glutamic acid concentrations were moderately to markedly elevated in all patients studied, and glycine concentrations in 13 out of 15 patients. In addition, the following amino acids were increased intracellularly in more than one patient: glutamine (8 patients), serine (7), asparagine (5), threonine (4), taurine (3), alanine (2), valine (2), ornithine (2), lysine (2), citrulline (2). Aspartic acid was decreased in erythrocytes from 4 patients with aregeneratory and 1 with haemolytic anaemia.
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PMID:Amino acid concentrations in plasma and erythrocytes in aregeneratory and haemolytic anaemias. 119 60

Homeostasis of essential amino acids and their transamination derivatives (ketoacids) is disturbed in haemodialysis (HD) patients. In long-term HD patients a hypercatabolic state is often paired with severe anaemia. To understand metabolic regulation mechanisms we measured with an improved fluorescence-HPLC method plasma concentrations of valine (Val), isoleucine (Ile), and leucine (Leu) and their corresponding ketoacids ketoisovaleric acid (KIV), ketomethylvaleric acid (KMV), and ketoisocaproic acid (KIC). The values of 18 modestly anaemic HD patients (group A: Hb greater than 11 g/dl) and of 16 severely anaemic HD patients (group B: Hb less than 8 g/dl) were compared with 19 healthy control persons (100%; significance of patient values vs controls P less than 0.05) and with each other (significantly different at P less than 0.05). Both branched chain amino acids and ketoacids are diminished in HD patients. This disturbance of protein metabolism is intensified with severe anaemia. The decrease of transamination products KIV and KMV parallels that of their corresponding Val and Ile, whereas KIC is reduced out of proportion to Leu. Leu has anabolic function and KIC antiproteolytic effects. Decreased Leu and KIC indicate catabolism. Reduced transamination of Leu and KIC suggests an endogenous protective mechanism against catabolism independent of anaemia. These differences should be considered with supplementation therapy of branched-chain compounds in HD patients.
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PMID:Essential branched-chain amino acids and alpha-ketoanalogues in haemodialysis patients. 131 69

Prematurity in Indian births is modeled, based on the hypothesis that reduced protein and glucose and aminoacids and maternal anemia and preeclampsia lead to placental dysfunction which is also affected by metabolic disturbance and fetal circulation related to cellular growth and questions about genetics. There may be an ethnic propensity for early maturation of the fetus which affects the higher stillbirth rates and perinatal mortality. It was observed that among, for instance, black and Indian racial groups there may be meconium release and fetal distress. The significance is that physicians should increase antenatal surveillance before 40 weeks. Maternal nutrition should be advanced and hyperalimentation by cordocentesis. Other interventions such as glucose, oxygen, and aspirin administration are still very experimental. The evidence that velocity of growth is different and low birth weight is due to abnormal growth and shortened gestation is currently being researched among different ethnic groups. The discussion is concerned with reports of ethnic variation among Indian and Malay babies in Singapore and babies of French or African ancestry in France. In these studies findings were that the Indians and Malays in Singapore vs. the Chinese had higher mortality, and black African ancestry in mixed ancestry babies was related to higher infant mortality. Another study on neonatal mortality in India led to the recommendation that 2000 gm be established as the limit for defining low birth weight. In the 1501- 2000 gm birth weight groups, 30-45% are preterm, and the remainder are term or postterm. Low birth weight may transcend generations in India even with emigration. Experimental studies show that intrauterine weight is related to placental volume. Reduced growth and lower fetal insulin/glucose ratio with elevated fetal glycine/valine ratio was found to be related to reduced glucose supply among fetuses with fetal hypertriglyceridemia. Fat seems to be lacking among low birth weight fetuses. Studies of somatomedin and somatostatin in metabolism are helping to provide greater understanding of fetal growth processes.
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PMID:The prematurity paradox of the small Indian baby. 180 Mar 24

A hypothesis presented in the paper discusses the role of valine substitution in p21 protein of H-ras, a product of ras family oncogene. The event was followed by a marked decrease in GTPase activity of the protein and alteration of its function in the cell. Recent results of X-ray structural analysis were compared with the model suggested by the authors earlier. The role of valine substitution in sickle-cell anemia held to be a genetic mechanism of protection against malaria is discussed. Based on similarity of valine substitution in p21 protein and hemoglobin, a relationship between certain forms of malignant transformation and malaria at molecular level is suggested.
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PMID:[The role of "valine substitution" in oncogene functioning (a hypothesis)]. 201 2

We assessed the effect of correction of anemia with recombinant human erythropoietin (rhEPO) on plasma amino acid levels in maintenance hemodialysis patients. The plasma amino acid pattern was estimated by high performance liquid chromatography in 18 healthy persons and 14 hemodialysis patients before and up to 12 weeks after rhEPO therapy. There was a correction of the plasma serine values (67 +/- 16 to 87 +/- 22; P less than 0.05) and a corresponding decrease in the serine precursors, glycine (317 +/- 113 to 228 +/- 56; P less than 0.05) and hydroxyproline (26 +/- 21 to 15 +/- 13; P less than 0.10). The low plasma branched-chain amino acids, valine (137 +/- 33 to 154 +/- 50; P less than 0.10) and leucine (72 +/- 22 to 80 +/- 27; P less than 0.20), also were corrected. The elevated values of ornithine (78 +/- 16 to 62 +/- 19; P less than 0.1) and arginine (94 +/- 14 to 72 +/- 14; P less than 0.1) fell. The diminished glutamine values (470 +/- 125 to 563 +/- 115; P less than 0.1) and the decreased tyrosine/phenylalanine ratio (0.78 +/- 0.17 to 0.98 +/- 0.21; P less than 0.05) rose. Thus, the administration of rhEPO not only affects erythropoiesis, but also corrects the plasma amino acid pattern towards normal.
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PMID:Correction of amino acid metabolism by recombinant human erythropoietin therapy in hemodialysis patients. 263 62

Nutritional iron deficiency induced in rats causes a significant reduction in level of brain nonheme iron and is accompanied by selective reduction of dopamine D2 receptor Bmax. Our previous studies have clearly demonstrated that these alterations can be restored to normal by supplementation with ferrous sulfate; however, neither brain nonheme iron level nor dopamine D2 receptor Bmax can be increased beyond control values even after long-term iron therapy. The possibility that iron deficiency can induce the breakdown of the blood-brain barrier (BBB) was examined. A 70 and 100% increase in brain uptake index (BUI) for L-glucose and insulin, respectively, were noted in iron-deficient rats. However, the BUI for valine was decreased by 40%, and those for L-norepinephrine and glycine were unchanged. In addition, it was demonstrated that in normal rats insulin is transported into the brain. The data show that iron deficiency selectively affects the integrity of the BBB for insulin, glucose, and valine transport. Whether the effect of iron deficiency on the BBB is at the level of the capillary endothelial cell tight junction is not yet known. However, this study has shown that an important nutritional disorder (iron-deficiency anemia) has a profound effect on the BBB and brain function.
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PMID:Selective alteration in blood-brain barrier and insulin transport in iron-deficient rats. 296 35

Synthetic alphaT1 and betaT1, the N-terminal tryptic peptides of alpha-chain and beta-chain of hemoglobin, and MetalphaT1 and MetbetaT1, peptides in which N-terminal methionyl residues are peptide-bonded to alphaT1 and betaT1, were prepared by the solid-state method of Merrifield. These synthetic peptides were used to establish conditions for chromatographic purification and analysis. When tryptic digests of nascent globin chains from rabbit and sickle-cell anemia reticulocytes incubated with (35)S- and (3)H-labeled amino acids were analyzed, radioactivity not present in tryptic digests of labeled hemoglobin appeared at the elution positions of MetalphaT1 and MetbetaT1. The fraction of nascent chains with N-terminal methionine was higher in sickle-cell anemia reticulocytes than in rabbit reticulocytes. If rate of peptide-chain elongation in polysomes is uniform, nascent human chains must attain a greater length before removal of the initial methionyl residue. Length of nascent chain at time of removal was calculated from two independent sets of data, one obtained from [(35)S]methionine incorporation into MetalphaT1, MetbetaT1, alphaT5, and betaT5, and the other obtained from [(3)H]lysine and [(3)H]valine incorporation into MetbetaT1 and betaT1.
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PMID:Delayed removal of N-terminal methionine from nascent globin chains in sickle-cell anemia reticulocytes. 451 5

Cyanate, which is in equilibrium with urea, combines with the alpha-amino group of the aminoterminal valine of hemoglobin in an irreversible, specific carbamylation reaction. Partial carbamylation (0.72 residues/hemoglobin tetramer) as determined by cyanate-(14)C incorporation or hydantoin analysis diminishes the in vitro sickling phenomenon. Since cyanate may react not only with hemoglobin but also with functional groups of other red blood cell proteins, the in vitro effect of cyanate was studied on sickle cells. Cells were incubated with 10 mM KCl (control) or 10 mM KNCO (carbamylated) for 1 hr, washed, and resuspended in autologous plasma. Glycolysis, ATP and 2,3-diphosphoglyceric acid (DPG) stability, autohemolysis, and osmotic fragility were not affected by carbamylation. Potassium loss in carbamylated cells (2.8 mmol/liter) was less than in control cells (9.0 mmol/liter). Pyruvate kinase activity of carbamylated cells was decreased ( approximately 25%) but the activities of other glycolytic enzymes were similar to those of control cells. Oxygen affinity of carbamylated sickle, normal, and DPG-depleted normal cells increased, and was a sensitive index of the degree and duration of reaction with cyanate. The reactivity of carbamylated cells to DPG was similar to control cells. DPG-depleted carbamylated cells regenerated DPG and increased the P(50) when incubated with pyruvate, inosine, and phosphate. The Bohr effect of normal and of sickle cells was not affected (Deltalog P(50)/Delta pH=-0.48 and -0.53, respectively) after carbamylation. The reserve buffering capacity of plasma offset the slightly diminished ( approximately 15%) CO(2) capacity of carbamylated cells so that whole blood CO(2) capacity, pH, and P(CO2) were normal. These studies provide further support for the potential clinical use of cyanate in treating and preventing the anemia and painful crises of sickle cell disease.
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PMID:The effects of cyanate in vitro on red blood cell metabolism and function in sickle cell anemia. 501 Nov 1

The recent use of urea as a treatment for the crisis phase of sickle-cell anemia has prompted us to investigate the possibility that cyanate, which is in equilibrium with urea in solution, might itself prevent the sickling of erythrocytes. We have found that in contrast to the high concentration of urea (1 M) needed to prevent reversibly the in vitro sickling of 80% of the cells, potassium cyanate (0.01-0.10 M) irreversibly inhibits sickling to the same extent. The prevention of sickling is a function of the amount of [(14)C]cyanate incorporated into acidprecipitable protein (0.1-1.0 mol of cyanate per mol of hemoglobin). Most of the radioactivity is accounted for by carbamylation of the NH(2)-terminal valine residues of hemoglobin; there is no detectable carbamylation of the lysine or cysteine residues. The reactive species, HN=C=O (isocyanic acid), may be an analog of O=C=O since both compounds bind to the same valine residues of hemoglobin. Deoxygenated sickled cells also incorporate [(14)C]-cyanate, but the sickling is not reversed. Oxygenation results in normal morphology in 75% of these cells. Upon subsequent deoxygenation, these cells remain normal. Potassium cyanate (5 mM) was also found to be an effective inhibitor of the gelling of deoxyhemoglobin S.
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PMID:Potassium cyanate as an inhibitor of the sickling of erythrocytes in vitro. 528 66


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