UMLS:C0002871 - FACTA Search

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

This contribution presents data from the literature as well as our own results concerning the mechanisms of hepatic encephalopathy (HE). 1. Blood chemistry: In patients with liver cirrhosis, the plasma levels of ammonia, phenylalanine, tyrosine, phenolic acids, and octopamine correlated with the stages of HE. Methionine and free tryptophan concentrations were increased only in stages 2-4. Further, branched chain amino acids were below the normal range. Experimental findings in animals elucidated some mechanisms of these changes. 2. Effects of administered substances: With ammonia, methionine, methanethiol, tryptophan, phenolic substances, and fatty acids central nervous disturbances were observed. 3. Interactions: Anemia, methanethiol, and fatty acids favored ammonia toxicity. Alkalosis diminished cerebral symptoms. 4. Neurotransmitters: HE was accompanied by an enhanced turnover of serotonin and by increased amounts of false neurotransmitters (like octopamine) in the brain. 5. Oxydative brain metabolism: Disorders of cerebral oxygen and glucose utilization were mainly documented in cases of long term HE with EEG alterations. 6. Structural changes of the brain: Most of them are irreversible.
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PMID:[Pathogenesis of hepatic encephalopathy (author's transl)]. 1 66

An experiment was performed to investigate the progressive changes of the anemia caused by excess methionine in rats, during the developmental and convalescent periods. Hemoglobin concentration, hematocrit value and red blood cell count were elevated in the initial stage of excess methionine feeding, they then gradually decreased. During the convalescent period, after ceasing administration of the excess methionine diet, symptoms of anemia gradually disappeared. The nitrogen efficiency ratio was markedly decreased by excess methionine feeding, however, it rapidly recovered after ceasing administration of the excess methionine diet. Iron deposited in the spleen also disappeared quickly during the convalescent period. Of the symptoms of anemia caused by excess methionine, the activity of delta-aminolevulinic acid synthetase (ALAS) in the bone marrow showed the most acute changes. As mentioned previously (1), although lowered globin biosynthesis due to amino acid imbalance could be considered as one of the important causes of the anemia and also would be one of the causes of the compensative elevation of ALAS activity, the possibility still remain that there are other unknown effects of excess methionine on ALAS activity in the bone marrow in this case.
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PMID:Developmental and convalescent changes of the anemia caused by excess methionine in the rat. 54 49

Erythroid cell iron uptake and globin synthesis were studied in the anemia of the Belgrade Laboratory rat (gene symbol, b), an autosomal recessive trait characterized by hypochromia and hyperferrinemia. Reticulocyte protein and globin synthesis, as measured in vitro by the incorporation of 3H-L-leucine, were significantly diminished in b/b animals, although no major imbalance between alpha-and beta-chain production was observed in b/b reticulocytes. The incorporation in vitro of 3H-L-methionine into marrow cell globin demonstrated no difference between b/b animals and +/? control animals in the proportion of alpha-to beta-chain production. The transfer of iron from plasma to reticulocytes, as measured in vitro by the uptake of 59Fe, was significantly decreased in b/b animals; Sephadex G 200 chromatography of b/b red cell lysates did not reveal the accumulation of 59Fe in nonhemoglobin fractions found when heme synthesis was inhibited with isoniazid. The magnitude of the reticulocyte iron-uptake defect was greater than the reticulocyte globin-synthesis defect, suggesting that the former is the primary lesion.
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PMID:Defective iron uptake and globin synthesis by erythroid cells in the anemia of the Belgrade laboratory rat. 62 89

Utilizing a bacterial-agar overlay technic incorporating the methionine-requiring bacterium Leukonostoc mesenteroides, little or no bacterial growth was seen surrounding the megaloblasts and proerythroblasts of eight patients who had severe untreated pernicious anemia. Similarly, scant bacterial growth was observed in five cases of chronic erythremic myelosis (DiGuglielmo syndrome). Heavy bacterial growth, indicating ample amounts of methionine, was seen in two cases of autoimmune hemolytic anemia, and in two cases of severe untreated folate-deficiency anemia. The results are consistent with the "methyltetrahydrofolate trap" hypothesis in pernicious anemia, in which a defect in the methylcobalamin-dependent methyltransferase leads to reduced amounts of methionine. These studies also suggest that a similar methyltransferase defect does not occur in folate deficiency or autoimmune hemolytic anemia. The generation of methionine, as estimated by the present technic, may also be defective in chronic erythremic myelosis.
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PMID:Detection of methionine in pernicious anemia megaloblasts and other types of erythroid precursors. 77 70

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

A variant strain of Rauscher leukemia virus (RLV-A) obtained from a transplantable murine monomyelocytic leukemia causes a disease characterized by frank anemia, wasting, hepatosplenomegaly and erythroblastosis. The involvement of platelets in this disease are reported here. The RLV-A induced a severe thrombocytopenia (25 percent of control level) at the terminal stage of disease. This thrombocytopenia was not associated with disseminated intravascular coagulopathy since the prothrombin times were always within normal limits. The partial thromboplastin time was elevated in the terminal stages of disease and was found to be associated with factor deficiencies, possibly owing to the presence of anti-factor antibodies, in the intrinsic coagulation pathway, especially factor VIII. Further, splenectomy did not abolish the thrombocytopenia, since splenectomized, virally infected animals also developed severe thrombocytopenia (29 percent of control levels). The ensuing splenomegaly during progression of disease was not the cause of the thrombocytopenia. A physiological response to the severe thrombocytopenia was the production of larger size platelets. At terminal stages of the disease, platelet volume increased to 4.2 mu 3 (normal is 3.0 mu 3). An increase in platelet volume was also observed in splenectomized, virally infected animals. Electron microscopy indicated that these circulating platelets contained c-type viral particles. Viral infection was associated with decreased life span of circulating platelets, as measured by 75Se-methionine at mid and terminal stages of the disease. Our results suggest that direct viral infection of platelets and/or megakaryocytes with subsequent cell lysis is a possible cause of the observed thrombocytopenia observed in RLVA-induced disease and may also occur in other retrovirally-induced diseases.
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PMID:Thrombocytopenia in a retrovirally-induced murine erythroleukemia. 145 28

Metabolic studies are described in a patient who presented at 3 weeks of age with severe anaemia, hyperbilirubinaemia and hypotonicity. Clinically, glycogen storage disease type II (Pompe disease) was suspected because of a massively enlarged heart and hepatosplenomegaly. This was confirmed biochemically by the demonstration of glycogen accumulation in skeletal muscle and undetectable acid alpha-1,4-glucosidase activity in fibroblasts. Further biochemical studies in this patient surprisingly revealed homocystinuria and methylmalonic aciduria, suggesting a defect in the uptake, transport or intracellular metabolism of vitamin B12. Studies in cultured fibroblasts from the patient revealed a low uptake of [57Co]cyanocobalamin and an impaired intracellular conversion to both 5'-deoxyadenosylcobalamin and methylcobalamin. Moreover, the incorporation of labelled propionate into proteins as well as the formation of labelled methionine from labelled 5-methyltetrahydrofolate was deficient in fibroblasts from the patient. Complementation studies revealed the presence of the cblC mutation in this patient. No treatment was initiated and the patient died at the age of 31 days. We conclude that the patient was affected by both glycogen storage disease type II and cblC disease. The remarkable combination of these two rare inborn errors can be the result of the consanguinity of the parents.
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PMID:Clinical and biochemical observations in a patient with combined Pompe disease and cblC mutation. 153 54

Feline immunodeficiency virus (FIV) grown in cat lymphocyte and thymocyte cultures was labelled with L-[35S]methionine or [3H]glucosamine and virus-coded proteins were identified using immunoprecipitation. Polypeptides with apparent Mr values of 15K, 24K, 43K, 50K, 120K and 160K were detected. An additional polypeptide of 10K was detected by Western blot analysis. The two highest Mr species sometimes appeared as one band, of which only the 120K polypeptide was glycosylated. In the presence of tunicamycin gp120 was no longer detectable and a non-glycosylated precursor of 75K was found instead. Pulse-chase experiments suggested that the smaller polypeptides p24 and p15 are cleavage products of both p160 and p50. Western blot analysis using a rabbit serum directed against p26 of equine infectious anaemia virus (EIAV) and an anti-EIAV horse serum from a field case of infection revealed a cross-reactivity with p24 of FIV. Cat sera collected late after experimental FIV infection recognized p26 of EIAV, indicating a reciprocal cross-reactivity.
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PMID:Intracellular proteins of feline immunodeficiency virus and their antigenic relationship with equine infectious anaemia virus proteins. 169 Feb 64

A child diagnosed in utero with hydrops fetalis and a hematocrit of 6.4% was studied to determine the etiology of the anemia. Fetal red blood cells (RBCs) obtained during in utero transfusion had extremely abnormal osmotic fragility. A maternal history of mild autosomal dominant hereditary spherocytosis was present, and the father, who was hematologically normal, had a slightly abnormal osmotic fragility test. The patient was transfusion dependent after birth, with circulating nucleated RBCs but less than 1% reticulocytes. The patient's anemia failed to respond to splenectomy. Because mature RBCs of the patient were not available for study, progenitor-derived erythroblasts grown in culture were investigated. Immunodot assays of the patient's progenitor-derived cells showed a total cell spectrin content 26% of normal. Immunoprecipitation of whole burst-forming units-erythroid-derived cells and solubilized membranes from cells pulse-labeled with 35S-methionine showed a severe deficiency in alpha-spectrin synthesis and a markedly reduced amount of alpha- and beta-spectrin on cell membranes. No alpha-spectrin degradation products were found within the cells or were produced during membrane preparation. Ankyrin content and band 3 synthesis were not different from control. Inheritance of two genetic defects causing severely reduced alpha-spectrin synthesis is proposed as the cause of the lethal anemia, resulting in cell fragmentation during precursor enucleation or during egress from bone marrow.
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PMID:Deficiency of alpha-spectrin synthesis in burst-forming units-erythroid in lethal hereditary spherocytosis. 195 89

We studied the long-term in vivo effects of recombinant granulocyte-macrophage colony stimulating factor (rhGM-CSF) on granulocyte functions in nine patients with myelodysplastic syndrome (MDS). The treatment schedule consisted of a 14 d course of rhGM-CSF (250 micrograms/m2/d s.c.) for patients with refractory anaemia (RA) and refractory anaemia with ringed sideroblasts (RARS), while patients with refractory anaemia with excess of blasts (RAEB) and refractory anaemia with excess blasts in transformation (RAEBt) received a 14 d combination course of rhGM-CSF (250 micrograms/m2 s.c.) and low dose cytosine arabinoside (20 mg/m2 s.c.). rhGM-CSF increased the mean neutrophil count from 3.9 x 10(9)/l to 44 x 10(9)/l. Significant increases of myeloperoxidase content in granulocytes occurred during treatment (P = 0.003). Phagocytosis and killing of Staph. aureus by granulocytes was markedly enhanced during treatment. Microbicidal capacity normalized in four out of six patients during GM-CSF therapy. However, chemotaxis in response to zymosan-activated serum (ZAS) and f-Met-Leu-Phe (f-MLP), was further impaired on the last day of treatment, which was associated with a marked increase in the expression of the granulocyte adhesion receptors CD11a (P = 0.01), CD11b (P = 0.002), CD11c (P = 0.00015) and CD18 (P = 0.0014). GM-CSF therapy did not cause significant changes in hexose monophosphate (HMP)-shunt activity, chemiluminescence, nor superoxide production. The present results show that in vivo administration of GM-CSF is able to repair at least in part the neutrophil anomalies in patients with myelodysplastic syndrome (MDS), which might be useful in modulating host response to infections. However, increased adherence and impaired chemotaxis may explain some toxicities observed during treatment with GM-CSF.
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PMID:In vivo administration of granulocyte-macrophage colony stimulating factor enhances neutrophil function in patients with myelodysplastic syndromes. 195 74

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