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: UNIPROT:Q0Z944 (hemoglobin)
63,986 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In somatic cell hybrids formed by the fusion of mouse erythroleukemic cells with mouse primary bone marrow cells, retention of the X chromosome contributed by the bone marrow parent is correlated with inhibition of hemoglobin accumulation in response to dimethyl sulfoxide. The inhibition of hemoglobin accumulation is not due to the absence of globin mRNA. Dimethyl sulfoxide-treated hybrid cells accumulate polyribosomal globin mRNA to levels comparable to those of the parental erythroleukemic cells under the same conditions. Heme, or its precursor delta-aminolevulinc acid, can overcome the effects of the bone marrow X chromosome and induce hemoglobin accumulation in the dimethyl sulfoxide-treated hybrid cells. The data suggest that the X chromosome contributed by the bone marrow cells inhibits hemoglobin production by inhibiting inducible heme biosynthesis, most probably at the step catalyzed by delta-aminolevulinic acid synthetase (EC 2.3.1.37).
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PMID:Negative control of hemoglobin production in somatic cell hybrids due to heme deficiency. 27 21

Porphyrin synthesis and iron accumulation was stimulated by exogenous 5-aminolevulinic acid (ALA) in uninduced Friend erythroleukemic cells (FELC). Uroporphyrin and protoporphyrin were the major intermediated precursors produced. All porphyrin types were conjugated to protein insoluble cellular components and could be extracted only by methanol sulfuric acid esterification. Heme content of the uninduced FELC was increased 6-fold in the presence of 5 x 10(-4) M ALA. As a consequence, the synthesis of the minor murine hemoglobin component was preferentially induced, an effect similar to that expressed by exogenous hemin. Addition of exogenous ALA to 0.5% DMSO-induced cells increased total hemoglobin synthesis with a higher efficiency of the minor hemoglobin. The endogenous synthesis of porphyrin from exogenous ALA was markedly reduced by hemin. Uroporphyrin, coproporphyrin, protoporphyrin and heme were equally repressed, indicating an inhibitory effect of hemin on ALA dehydrase and urosynthetase activities. In addition, hemin repressed [3H]leucine incorporation into protein by uninduced cells. Incubation of uninduced cells in culture medium without serum in the presence of hemin blocked their protein synthesis activity, whereas addition of serum exerted a protective effect on living FELC.
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PMID:5-Aminolevulinic acid stimulation of porphyrin and hemoglobin synthesis by uninduced Friend erythroleukemic cells. 28 14

Primary liver cells, isolated from 16- 17-day-old chick embryos, were incubated in a serum-free chemically defined medium (Ham's F12) supplemented with hormones for up to 6 days. The culture method also includes the complete removal of contaminating red cells before the initiation of culture. On the 2nd day in cluture, the level of amino-levulinate (ALA) synthase activity in response to allylisopropylacetamide (AIA) was increased 6-fold in cells grown in F12. Insulin, hydrocortisone, and triiodothyronine alone had no appreciable effects on ALA synthase levels. On the other hand, when added with AIA, insulin, insulin plus hydrocortisone, insulin plus hydrocortisone triiodothyronine increased ALA synthase levels 17-, 50-, 110-fold, respectively. The maximally induced levels of ALA synthase activity by AIA in the presence of insulin, hydrocortisone, and triiodothyronine were approximately 15 nmol of ALA/mg of protein/h, 37 degrees or 3 micronmol of ALA/g of tissue/h, 37 degrees, a value similar to that found in ovo or at least 5 times greater than that found in rat liver. The morphology of hepatocytes was maintained for at least 6 days in culture, although the induction of ALA synthase was reduced after the 4th day unless triiodothyronine was present. Dibutyryl adenosine 3':5'-monophosphate (10(8) M) or glucagon (5x10(8) M) had little effect on the induced as well as noninduced levels of ALA synthase or porphyrins. These data demonstrate a "permissive" effect of insulin, hydrocortisone, and triiodothyronine on the induction of ALA synthase and porphyrins by AIA in cultured chick embryo liver cells. In the absence of insulin hydrocortisone, or triiodothyronine, AIA produces only a slight increase in ALA synthase activity or porphyrins (or both); on the other hand, it produces a marked increase in the enzyme activity and porphyrins when these hormones are added to the culture medium. The term "permissive" is applied to these hormone-dependent effects. A sensitive spectrofluorometric method for heme quantitation allowed us to follow changes in the cellular heme content in hemoglobin-free cultured liver cells. Heme content in the cultured liver cells was approximately 250 pmol/mg of protein at the initiation of culture but gradually declined to 175 pmol/mg of protein at the initiation of culture but gradually declined to 175 pmol/mg of protein during 48 h of incubation. The apparent decrease in heme content may be accounted for by the concomitant increase in protein content in these cells.
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PMID:Induction of aminolevulinate synthase and porphyrins in cultured liver cells maintained in chemically defined medium. Permissive effects of hormones on induction process. 32 58

Synthesis of globin in reticulocyte lysates depends on the presence of heme, the prosthetic group of hemoglobin. In the absence of heme, an inhibitor of polypeptide chain initiation is activated. The inhibitor is a cyclic AMP-independent protein kinase that catalyzes the phosphorylation by ATP of the small subunit of the initiation factor eIF-2. This blocks the interaction of eIF-2 with eIF-2-stimulating protein (ESP) that is essential for initiation. Our observations are consistent with the view that the inhibitor is activated by phosphorylation catalyzed by a cyclic AMP-dependent protein kinase. Heme inhibits this enzyme and, in this way, prevents activation of the inhibitor of chain initiation.
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PMID:Regulation of protein synthesis. 49 99

The protoporphyrinemia of iron deficiency is well recognized. Clinically, information on the protoporphyrin/heme molar ratio in whole blood offers certain advantages over protoporphyrin measurement alone. A procedure for determining this ratio is reported. Protoporphyrin is extracted, solubilized, and measured fluorometrically. Heme (as hemin chloride) is precipitated with the blood proteins, the precipitate is dissolved in an alkaline/pyridine solvent, and the resulting bispyridine ferriprotoporphyrin is measured spectrophotometrically. The molar ratio of these two metabolites correlates well with values for plasma ferritin, plasma iron, transferrin saturation, hemoglobin, and hematocrit. In some cases the ratio increases detectably while the other variables, especially hematocrit and hemoglobin, remain normal. Evidently it is a more sensitive index to iron status. For healthy men and women, the mean ratio is 16.0 (SD, 5.3). The mean + 3 SD, or a ratio of 32, is distinctly abnormal, as shown by a confirmatory test. We validated the test by surveying routine blood specimens obtained from several population groups.
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PMID:Erythrocyte protoporphyrin/heme ratio in the assessment of iron status. 76 86

The interaction between human erythrocyte lysates and antibiotics was studied, and the effect of intracellular components on the activity and binding of the drugs was determined. Lysates inhibited antibacterial activity of penicillin G, dicloxacillin, tetracycline, and minocycline to about the same extent as did human plasma. Dicloxacillin activity was the most inhibited, followed by the activities of penicillin G, minocycline and tetracycline. All four antibiotics bound to human hemoglobin, as determined by gel filtration methods. Heme-free globin was also effective in binding the antibiotics. In addition, minocycline and tetracycline were bound to another erythrocytic protein, which, on the basis of electrophoretic mobility, molecular size, and localization, has been identified as carbonic anhydrase. Experiments with pure preparations of carbonic anhydrase revealed that the C isozyme is the major binder of the tetracyclines and that zinc is required for binding. Tetracyclines did not inhibit enzymatic activity of carbonic anhydrase.
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PMID:Binding of antibiotics to the human intracellular erythrocyte proteins hemoglobin and carbonic anhydase. 81 28

Heme oxygenase (HO), the primary enzyme responsible for heme catabolism, was measured in spleens from 10 normal subjects, 14 patients with chronic hemolytic anemia (HA), 12 with idiopathic thrombocytopenic purpura (ITP), and 10 with various lymphoproliferative disorders (LD) to determine the splenic enzymatic capacity for heme catabolism and the response of splenic HO to hemolysis. Splenic NADPH-cytochrome c reductase activity and cytochrome P-450 levels were also measured. Splenic HO specific activity in normal spleens was 0.235 +/- 0.106 (SE) nmoles bilirubin/mg protein/min; in HA, 0.276 +/- 0.050; in ITP, 0.228 +/- 0.036; and in LD, 0.420 +/- 0.105. However, the total HO activity per spleen was significantly greater in HA (742.9 +/- 137.4 (SE) nmoles/min, p less than 0.001) and LD (681.9 +/- 180.3, p less than 0.005) than in normal spleens (137.1 +/- 55.0), but was not significantly increased in ITP (269.5 +/- 121.5). In normal spleens cytochrome P-450 was 0.052 +/- 0.006 (SE) nmoles/mg and NADPH-cytochrome c reductase activity was 8.3 +/- 2.2 (SE) nmoles/mg/min; neither of these specific activities was significantly altered in HA, ITP, or LD. Again, total activity was significantly increased in HA and LD associated with increased splenic size. Although total HO activity is greater in the larger spleens, HO activity does not increase per unit weight of tissue. In normal spleen the calculated capacity for bilirubin production by HO was 115 mg per day. This accounts for only 50% of normal daily production from erythroid sources and suggests that other sites are of major importance for hemoglobin degradation.
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PMID:Human spleen heme oxygenase in normal, hemolytic and other pathological states. 82 32

Heme oxygenase (HO) and biliverdin reductase (BR), the two NADPH-dependent enzymes involved in the degradation of hemoglobin and its derivatives, were measured in bone marrow aspirates from 5 hematologically normal persons, 4 patients with chronic leucemia (CL), 11 patients with acute leucemia (AL), 8 patients with refractory sideroblastic anemia (RA), 7 patients with iron-deficiency anemia (IA), 5 patients with hemolytic anemia (HA), and 7 patients with secondary anemia (SA) to determine the enzymatic capacity of the bone marrow in different hematologic disorders for heme catabolism. HO activity in the bone marrow of normal persons was 0.42 +/- 0.28 (SD) nmoles bilirubin/10 mg protein/min; in CL, 2.15 +/- 1.34; in AL, 0.39 +/- 0.25; in RA, 0.58 +/- 0.37; in IA, 0.41 +/- 0.28; in HA, 2.56 +/- 1.40; and in SA, 1.72 +/- 1.06. BR activity, respectively, was in normal persons 8.7 +/- 2.4 (SD) nmoles bilirubin/10 mg protein/min; in CL, 13.6 +/- 9.1; in AL, 3.8 +/- 3.1 in RA, 5.1 +/- 2.7; in IA, 5.5 +/- 3.7; in HA, 17.0 +/- 7.2; and in SA, 10.5 +/- 4.2. On the basis of these findings it seems evident that both oxygenase and biliverdin reductase activities of the bone marrow are capable of adaptive regulation. The physiologic role of bone marrow in heme catabolism seems to be of significant importance.
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PMID:Bone marrow: its contribution to heme catabolism. 107 Feb 84

In the sera pig, cattle, rabbit and guinea pig, only uniform Hemoglobin-Haptoglobin fraction but several heme-hemopexin fractions, could be demonstrated for each species in starch gel electrophoretic studies. Heme binding by albumin was also observed, though to a varying degree, being most pronounced for the guinea pig. The protection mechanism against hemoglobin and iron losses from the organism of the animals investigated allows far-reaching parallels with that of man.
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PMID:[Hemoglobin and hem protein complexes in mammal sera. 1. Starch gel electrophoretic studies]. 115 50

It was investigated whether the protoporphyrin that can be extracted from red blood cells of erythropoietic protoporphyria (E.P.P.) patients is present in the cells as free molecules or protein-bound. With isoelectric focusing and with starch gel electrophoresis it could be shown that virtually all protoporphyrin in the erythrocytes is protein-bound. It is very likely that the protoporphyrin is bound to hemoglobin at heme-binding sites. This was indicated by several observations: 1. With isoelectric focusing the protoporphyrin-protein complex is focused at a pH only slightly higher than the isoelectric point of hemoglobin. 2. With chromatography on Sephadex columns it appeared that hemoglobin and the protopotphyrin-protein complex have the same molecular weight. 3. A Heme-protoporphyrin exchange occurred when the heme-globin bond was labialized by conversion to hemiglobin. The resulting protoporphyrin-hemoglobin complex had the same electrophoretic mobility with starch gel electrophoresis as the protoporphyrin-protein complex, extracted from red blood cells of E.P.P. patients.
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PMID:Characterization of protoporphyrin in red blood cells of patients with erythropoietic protoporphyria. 117 5


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