EC:2.5.1.61 - FACTA Search

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Query: EC:2.5.1.61 (porphobilinogen deaminase)
637 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Heme biosynthetic activity in the symbiotic association involving crithidial flagellates and intracellular bacteroids was studied by enzymic, nutritional, and isotope incorporation experiments. Component organisms and their complexes in this association were analyzed separately to determine the underlying cause of the hemin requirement of hemoflagellates and the role of symbiotes in sparing this requirement of two crithidial species. Nutritional study of symbiote-free flagellates showed that their growth requires at least 0.1 mug/ml of hemin, which can be substituted by protoporphyrin IX, but not by the porphyrin precursors, delta-amino-levulinic acid or porphobilinogen. These flagellates, in the presence of protoporphyrin IX, incorporated 59Fe into heme, indicating that they possess ferrochelatase (EC 4.99.1.1), the terminal enzyme in the heme biosynthetic pathway, which catalyzes the insertion of iron into protoporphyrin IX. In symbiote-containing flagellates serially cultured in a defined medium free of tetrapyrrole compounds, heme and porphyrins can be detected by a fluorophotometric method, indicative of heme biosynthesis. Study of [14C]glycine incorporation into heme showed that the rate is much higher in symbiote-containing flagellates than in those without symbiotes. Microassay of uroporphyrinogen I synthase [EC 4.3.1.8; porphobilinogen ammonia-lyase (polymerizing)] revealed that the specific activity is high in symbiote-containing flagellates and higher still in isolated symbiotes, but essentially negligible in symbiote-free organisms. It is concluded that the bacterial symbiotes augment a very limited heme biosynthetic capacity of host flagellates by supplying uroporphyrinogen I synthase and perhaps other enzymes preceding ferrochelatase in the heme biosynthetic chain.
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PMID:Heme biosynthesis in bacterium-protozoon symbioses: enzymic defects in host hemoflagellates and complemental role of their intracellular symbiotes. 81 Jul 95

Sideroblastic anemia is an extremely rare disorder in children. This report describes a 9-year 4-month-old girl with severe refractory anemia with ringed sideroblasts (RARS) that progressed to severe bone marrow aplasia. Ultrastructural studies revealed the presence of abundant intramitochondrial deposits of iron in erythroblasts similar to that observed in adults with this disorder. Although acid ferrocyanide staining confirmed the ferric valence of the iron deposits, they lacked morphologic and cytochemical characteristics associated with ferritin and hemosiderin. Bone marrow culture showed decreased or absent CFU-GEMM, CFU-GM, CFU-E, and BFU-E. Erythrocyte uroporphyrinogen I synthase, aminolevulinic acid dehydratase, uroporphyrinogen decarboxylase, urinary porphyrins, porphobilinogen, and aminolevulinic acid were normal. Free red cell protoporphyrin was increased. Therapy with corticosteroid and androgens was totally ineffective. The aplastic bone marrow in this child appeared to represent the end stage of RARS and differed from adults with RARS, who more frequently demonstrate a chronic course, often with the onset of leukemia as a terminal sequela. Although this case documents the occurrence of RARS in a child, additional reports of children with this disorder will be required to determine the prognosis and natural history of RARS in children.
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PMID:Severe refractory anemia with ringed sideroblasts and bone marrow aplasia in a child. 155 Feb 66

All nucleated animal cells synthesize heme to provide the prosthetic group of respiratory cytochromes. Large amounts of heme are synthesized by erythroid cells for hemoglobin production and by liver cells for drug-induced cytochromes P450. This review focuses on the first enzyme of the heme biosynthetic pathway, 5-aminolevulinate synthase (ALAS), which catalyzes the rate-controlling step in liver and possibly other tissues. We report that there are two distinct human genes for ALAS: one, a housekeeping gene, is probably ubiquitously expressed while the other is active only in erythroid tissue. By contrast it has been reported that, for porphobilinogen deaminase, the third enzyme of the heme pathway, there is a single human gene with two promoters; one functional in all tissues, the other erythroid specific. In liver, transcription of the housekeeping ALAS gene is induced by drugs and repressed by heme. Heme also acts in a novel way to prevent transport of ALAS into mitochondria, its site of function. Porphyrias result from inherited defects in enzymes of the heme pathway subsequent to ALAS and the molecular abnormality is now known for the most common subtype of acute intermittent porphyria. In developing red cells, levels of ALAS are regulated by increased gene transcription and by a post-transcriptional mechanism, in which iron most probably controls translation of erythroid ALAS mRNA through an iron-responsive element identified in the 5' untranslated region of the mRNA. The human erythroid ALAS gene is located on the X-chromosome, suggesting that a defect in this gene may be responsible for X-linked sideroblastic anemias.
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PMID:Molecular regulation of 5-aminolevulinate synthase. Diseases related to heme biosynthesis. 209 58

Carbamazepine (CBMZP) has been implicated as an inhibitor of the activities of 5-aminolaevulinic acid dehydratase (ALA-D) and uroporphyrinogen I synthetase (URO-S). In an epileptic boy undergoing long-term treatment with valproic acid (VPA), 1.3 g/d, CBMZP, 0.9 g/d and folic acid, 7.5 mg/d, decreased activities of ALA-D and URO-S coincided with increased levels of erythrocyte protoporphyrin (EP) in the absence of Pb poisoning, iron depletion and erythropoietic protoporphyria. A progressive fall in plasma pyridoxal 5'-phosphate (B6-P) to 7.7 nmol/L (lower reference limit, 14.6 nmol/L) prompted implementation of pyridoxine HCl (B6-HCl), 87.5 mg/d followed by administration of both B6-HCl and preformed B6-P (50 mg/d each). This permitted the eventual withdrawal of VPA and a net reduction of CBMZP to 450 mg/d. During these manipulations, ALA-D and URO-S activities, EP and urinary porphyrins and their precursors were measured serially. An assay system utilizing red cell ALA-D for generation of porphobilinogen (PBG) from added ALA at pH 7.4 was used for determination of ALA-D and URO-S activities in separate aliquots of the same assay mixture both in the absence and presence of Zn and dithiothreitol (DTT). One unit (U) for ALA-D = 1 nmol PBG/L RBC/s; for URO-S = 1 nmol porphyrin/L/s; minimum normal level for ALA-D = 135 U; for URO-S = 6 U. B6-HCl alone entailed increases in ALA-D and URO-S prior to any reduction of CBMZP. After administration of both B6-HCl and B6-P and withdrawal of VPA, the overall increase in ALA-D was from 54.59 to 197.2 U (-Zn; -DTT) and from 50.76 to 217.3 U (+Zn; +DTT). The overall increase in URO-S was from 2.67 to 8.90 U (-Zn; -DTT) and from 3.02 to 8.66 U (+Zn; +DTT). During stepwise reduction of VPA, EP remained elevated to values as high as 2.48 mumol/L (upper reference limit, 1.33 mumol/L). Only after permanent withdrawal of VPA did concentrations of EP fall to normal levels. Values for porphyrins and their precursors in urine were normal throughout. Since both VPA and B6-P are strongly protein-bound, it is suggested that VPA displaced B6-P from protective protein binding sites and that the resulting deficit in B6-P (rather than CBMZP) reduced ALA-D and URO-S activities via primary reduction of ALA-synthetase activity. Increases in EP emerge as a hitherto unappreciated effect of VPA warranting further investigation.
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PMID:Protoporphyrinaemia and decreased activities of 5-aminolevulinic acid dehydrase and uroporphyrinogen I synthetase in erythrocytes of a Vitamin B6-deficient epileptic boy given valproic acid and carbamazepine. 250 Feb 71

In this study, we demonstrated that benzene and its metabolites, phenol and hydroquinone, were toxic to human burst-forming unit-erythroid (BFU-E) growth, hydroquinone being the most toxic. Phenol (10(-4) M) was also found to have a marked toxicity on stromal cell colony formation. BFU-E binding with human-tumor necrosis factor (rHu-TNF) was linear with the number of BFU-E colonies. Recombinant rHu-TNF suppressed BFU-E growth in a dose-dependent manner and this was reversed with anti-TNF antibody. Binding studies of rHu-TNF for human K562 cells indicated that K562 cells have a binding constant of approximately 1075 per cell. The heme pathway enzymes, uroporphyrinogen deaminase, and heme oxygenase activities were measured in BFU-E cultures exposed to iron, interleukins (1 and 2), and various lymphocyte and macrophage-conditioned media with or without hemin. In most instances, hemin was found to stimulate the heme synthetic pathway in the presence of these agents. Iron and adherent (macrophage) cell conditioned media (CM) were found to stimulate heme oxygenase activity. Macrophage CM was found to suppress erythropoiesis in contrast to phytohemagglutinin-stimulated leukocyte (PHAL)-CM, which enhanced erythroid growth. In addition, porphobilinogen deaminase levels were greater in 14-day cultures containing hemin plus PHAL-CM as compared with hemin alone. These results are discussed with respect to the generation of hematopoietic inhibitory-stimulatory factors by the marrow microenvironment and their effects on heme synthesis and degradation.
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PMID:Microenvironmental cytokines and expression of erythroid heme metabolic enzymes. 331 Dec 13

We examined the morphological and functional characteristics of erythroblasts derived from marrow erythroid progenitor cells grown in a methylcellulose microculture, which were taken from a female child with rare atypical sideroblastic anaemia (SA) partially responsive to pyridoxine. Colony formation was within the normal range in three successive cultures (median values: 82.25 CFU-E and 16.4 BFU-E derived colonies/6.6 X 10(4) cells) compared to growth by normal cells (65-315 CFU-E and 9-40 BFU-E). We evaluated in vitro differentiation by biochemical microassay of a cytosol enzyme involved in the haem pathway: uroporphyrinogen I synthase (UROS). The UROS values in the erythroid colonies from SA marrow were at the lowere end of the normal range (median values: 6.7 +/- 0.3 and 14.4 +/- 3.8 pmol uroporphyrinogen/h in CFU-E and BFU-E-derived colonies respectively versus 17.4 +/- 7.3 and 25 +/- 7.2 pmol/h in CFU-E and BFU-E colonies from normal subjects. Ultrastructural examination of the SA erythroblasts from non-cultured bone marrow or derived from cultured BFU-E revealed the characteristic deposition of iron in mitochondria around the nucleus of most cells (ringed sideroblasts). However, the majority of cultured cells had marked dyserythropoietic features, with a large number of bilobulated or trilobulated erythroblasts, multiple cytoplasmic vacuoles, numerous abnormalities of the nucleus, and excessive membrane material beneath the plasma membrane, all features difficult to observe in non-cultured marrows.
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PMID:A paediatric case of sideroblastic anaemia. Ultrastructural studies of erythroblasts cultured from marrow BFU-E in a methylcellulose micromethod. 379 91

Porphyria was induced in C57BL/10 mice with iron overload by a single oral dose (100 mg/kg) of hexachlorobenzene (HCB). Within 2 weeks hepatic uroporphyrinogen decarboxylase (EC 4.1.1.37) was inhibited, reaching a maximum (greater than 95%) at 6-8 weeks. There was no recovery by 14 weeks, despite a fall in liver HCB concentrations to only 6% of the day-3 value. The major rise in hepatic porphyrin levels occurred after 4 weeks and secondary inhibition of uroporphyrinogen synthase (EC 4.2.1.75) was inferred from the progressively greater proportion of uroporphyrin I present relative to the III isomer. Plasma alanine aminotransferase (EC 2.6.1.2) activity was also elevated. Although, in further studies, total microsomal cytochrome P-450 content and ethoxyphenoxazone de-ethylase activity reached a peak a few days after dosing and had declined significantly at the time of maximum inhibition of the decarboxylase, additional treatment of HCB-dosed mice with a cytochrome P1-450 inducer, beta-naphthoflavone, enhanced the inhibition, whereas piperonyl butoxide, an inhibitor of cytochrome P-450, partially protected. Uroporphyrinogen decarboxylase was not radiolabelled in vivo by [14C]HCB. There was no major difference in the ability to hydroxylate HCB between hepatic microsomes from induced C57BL/10 mice and those from the insensitive DBA/2 strain. By contrast, lipid peroxidation, in the presence of NADPH, was 8-fold greater in control C57BL/10 microsomes than in DBA/2 microsomes and was stimulated by iron treatment (although not by HCB). The results suggest that the inhibition of hepatic uroporphyrinogen decarboxylase is unlikely to be due to a direct effect of a metabolite of HCB but to another process requiring a specific cytochrome P-450 isoenzyme and an unknown iron species.
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PMID:Mechanistic studies of the inhibition of hepatic uroporphyrinogen decarboxylase in C57BL/10 mice by iron-hexachlorobenzene synergism. 380 Sep 66

Marrow cells induced toward erythroid differentiation by treatment with erythropoietin respond by increasing the rates of iron uptake and hemoglobin synthesis. Study of the enzymes of heme biosynthesis during erythroid differentiation suggests that induction of heme synthesis in these cells is regulated by synthesis of porphobilinogen deaminase. The activities of delta-aminolevulinic acid synthase, gamma, delta-dioxovaleric acid transaminase, delta-aminolevulinic acid dehydratase, and ferrochelatase were not affected significantly by treatment of suppressed marrow cells with erythropoietin over a period of 4 days, whereas that of porphobilinogen deaminase was increased by as much as 3.5-fold by the 3rd day of incubation. The time course of increase in porphobilinogen deaminase activity was parallel to that of the increase in heme synthesis. Moreover, when porphobilinogen deaminase activity was compared in marrow cells exposed to increased levels of erythropoietin in vivo (hyperplastic marrow) and marrow cells exposed to lowered levels of erythropoietin in vivo (suppressed marrow), the activity in the former case was greater than that in normal cells and for the latter type of cell it was lower than normal. Experiments using actinomycin D and cycloheximide suggest that transcription is required for the erythropoietin-induced porphobilinogen deaminase activity, indicating that induction is probably at the level of de novo synthesis of enzyme.
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PMID:The regulation of heme biosynthesis during erythropoietin-induced erythroid differentiation. 401 71

Porphyria cutanea tarda (PCT) is characterized biochemically by excessive hepatic synthesis and urinary excretion of uroporphyrin I. Clinical evidence has implicated iron in the pathogenesis of PCT. The synthesis of the normally occurring isomer of uroporphyrin, namely uroporphyrin III, from porphobilinogen (PBG) requires two enzymes; uroporphyrinogen I synthetase and uroporphyrinogen III cosynthetase (COSYN). In the absence of COSYN only uroporphyrinogen I is formed. These experiments were designed to study the effect of iron on porphyrin biosynthesis in porcine and human crude liver extracts and to measure COSYN activity in the presence of iron.Mitochondria-free crude liver extracts were prepared in 0.25 m sucrose at pH 7.4 by centrifugation at 37,000 g. Preparations were incubated with either 0.2 mm amino-levulinic acid (ALA) or 0.1 mm PBG. The addition of ferrous ion (either from ferritin iron [4 mug/ml] and cysteine [6.7 mm] or ferrous ammonium sulfate [0.3 mm Fe] and cysteine) significantly increased the rate of uroporphyrin synthesis from either ALA or PBG. The predominant porphyrin synthesized in the presence of ferrous ion was uroporphyrin I whereas coproporphyrin III predominated in its absence. Orthophenanthroline blocked these effects of ferrous ion.To investigate the effect of ferrous ion on COSYN, crude liver extracts were incubated with ferrous ammonium sulfate (0.3 mm Fe) and cysteine (6.7 mm) and the COSYN activity of the incubates was assayed directly. In both porcine and human extracts ferrous ion caused marked inhibition of COSYN activity. Orthophenanthroline blocked the inhibitory effect.Inactivation of COSYN by heating resulted in marked enhancement of porphyrin synthesis from PBG. The sole product was uroporphyrin I.Thus, inactivation of COSYN results in accelerated synthesis of uroporphyrin I. This effect of ferrous ion provides a possible biochemical explanation for the excess production and excretion of uroporphyrin I in patients with PCT and the reversal of this defect by phlebotomy.
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PMID:The role of iron in the pathogenesis of porphyria cutanea tarda. An in vitro model. 464 Sep 47

Mouse bone marrow cells infected in vitro with the anemia strain of Friend leukemia virus from large clusters (bursts) of erythroblasts after 5 days in culture in methylcellulose medium. Two types of erythroblast populations can be isolated from bursts of infected cells by manipulation of the culture conditions. One type of erythroblast, which is obtained when erythropoietin (EP) is added to the culture, has proliferated and undergoes differentiation to become an erythrocyte. The second type of erythroblast, which is obtained when no EP is added to the culture, is the product of extensive proliferation, but it fails to undergo the terminal stages of erythroblast differentiation. Comparisons of these two types of erythroblasts demonstrate that specific EP effects include changes in the nucleus, cytoplasm, and membrane of the treated cells. Those events of erythroid differentiation shown to be directed by EP were extrusion of the nucleus from the erythroblast, induction of uroporphyrinogen I synthetase activity, increased iron incorporation into protoporphyrin, synthesis of alpha- and beta-globin polypeptides due largely to increased mRNA production, and synthesis and incorporation of spectrin into the cell membrane. In this system, EP promotes these effects without observable stimulation of progenitor proliferation in addition to that caused by the virus alone. Thus, the role of EP in terminal erythrocyte differentiation is not simply that of an erythroid-specific mitogen.
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PMID:Specific differentiation events induced by erythropoietin in cells infected in vitro with the anemia strain of Friend virus. 695 15

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