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
Query: UNIPROT:P02794 (
ferritin
)
17,525
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The utilization of
ferritin
as a source of iron for the ferrochelatase reaction has been studied in isolated rat liver mitochondria. 1. It was found that isolated rat liver mitochondria utilized
ferritin
as a source of iron for the ferrochelatase reaction in the presence of succinate plus FMN (or
FAD
). 2. Under optimal experimental conditions, i.e., approx. 50 micromol/1 FMN, 37 degrees C, pH 7.4 and 0.5 mmol/l Fe(III) (as
ferritin
iron), the release process, as shown by the formation of deuteroheme, amounted to approx. 0.5 nmol iron/min per mg protein. 3. The release process could not be elicited by ultrasonically treated mitochondria, lysosomes, microsomes or cytosol, i.e., the release of iron from
ferritin
was due to mitochondria and was a function of the in situ orientation of the mitochondrial inner membrane. 4. The release of iron from
ferritin
by the mitochrondria might be of relevance not only for the in situ synthesis of heme in the hepatocyte, but also with respect to the mechanism(s) by means of which iron is mobilized for transport to the erythroid tissue.
...
PMID:Studies on the utilization of ferritin iron in the ferrochelatase reaction of isolated rat liver mitochondria. 20 37
Considerable evidence suggests that the release of iron from
ferritin
is a reductive process. A role in this process has been proposed for two hepatic enzymes, namely xanthine oxidoreductase and an NADH oxidoreductase. The abilities of xanthine and NADH to serve as a source of reducing power for the enzyme-mediated release of
ferritin
iron (ferrireductase activity) were compared with turkey liver and rat liver homogenates. The maximal velocity (Vmax.) for the reaction with NADH was 50 times greater than with xanthine; however, the substrate concentration required to achieve half-maximal velocity (Km) was 1000 times less with xanthine than with NADH. NADPH could be substituted for NADH with little loss in activity. Dicoumarol did not inhibit the reaction with NADH or NADPH, demonstrating that the ferrireductase activity with those substrates was not the result of the liver enzyme 'DT-diaphorase' [NAD(P)H dehydrogenase (quinone)]. A flavin nucleotide was required for ferrireductase activity with rat and turkey liver cytosol when xanthine, NADH or NADPH was used as the reducing substrate. FMN yielded twice the activity with NADH or NADPH, whereas
FAD
was twice as effective with xanthine as substrate. Kinetic comparisons, differences in lability and partial chromatographic resolution of the ferrireductase activities with the two types of reducing substrates strongly indicate that the ferrireductase activities with xanthine and NADH are catalysed by separate enzyme systems contained in liver cytosol. Complete inhibition by allopurinol of the ferrireductase activity endogenous to undialysed liver cytosol preparations and the ability of xanthine to restore equivalent activity to dialysed preparations indicate that the source of reducing power for the endogenous activity is xanthine. These studies suggest that xanthine, NADH or NADPH can serve as a source of reducing power for the enzyme-mediated reduction of
ferritin
iron, with a flavin nucleotide serving as the shuttle of electrons from the enzymes to the
ferritin
iron.
...
PMID:The mobilization of ferritin iron by liver cytosol. A comparison of xanthine and NADH as reducing substrates. 277 99
The immunoreaction of a monoclonal antibody (Mab) and an isolated synaptic vesicle (SV) was processed on a grid mesh and the result could be easily observed with electron microscopy. The SV suspension was obtained and dispersed on the grid mesh where immunoreaction procedures were performed. The resulting immunoreaction was visualized by labelling with
ferritin
particle (
FAD
) or horseradish peroxidase (HRP) for the electron microscopic observation. The SV specimen was observed by electron microscopy after faint negative staining with 1% uranyl acetate. With this method, the positive immunoreaction of Mab 171B5 and the isolated SV could be easily identified by the formation of a halo of
FAD
or a cobweb of HRP surrounding the SV. In the control experiment, the SV specimen was incubated with normal mouse serum instead of the Mab while the other procedures were performed in the same way. The SV was not outlined by
FAD
in the control experiment. Thus, the positive immunoreaction of the Mab and SV was thought to be an immunologically specific one. It was also determined that the Mab reacted specifically with the SV but not with the small membrane fragments and other unknown material. The present method seems to be useful for observing the immunoreaction of subcellular structures and their antibodies under electron microscopy.
...
PMID:A new method for electron microscopic observation of isolated synaptic vesicles labelled with monoclonal antibody. 317 13
Electron microscopic study of liver tissue from 30 thal patients in advanced stages has been described. In all cases, regardless of the type of hemoglobin, electron microscopic observations gave identical results. Significant findings are ferroacidophilic bodies, ferroacidophilic degeneration of hepatocytes, interhepatocyte collagen, hemosiderin and
ferritin
, paracrystalline accumulations of
ferritin
molecules, and liver cell ballooning. The ultrastructures of FAB,
FAD
, and balloon cells were similar to those seen in viral hepatitis, but no viral particles were found.
...
PMID:Electron microscopic study of liver tissue from 30 thalassemic patients. 339 May 42
The effect of riboflavin supplementation (5mg twice daily for 8 weeks) on reduced blood glutathione (GSH) and iron status was assessed in 18 patients with sickle cell disease (SCD-HbSS). Twelve SCD patients and 13 normal (Hb-AA) subjects served as the control. The total iron binding capacity (TIBC) and serum
ferritin
(SF) were significantly higher (p < 0.01), but GSH level, haemoglobin and transferrin saturation (TS) were significantly lower (p < 0.001) in SCD patients than in normal subjects. The administration of riboflavin elicited a significant increase (p < 0.01) in serum iron and TS but a non significant increase in SF and circulating Hb. The GSH level varied little in riboflavin supplemented but decreased significantly in unsupplemented SCD. The disparity in GSH concentration might reflect availability of
FAD
for regeneration of GSH from glutathione. Likewise, the haematological improvement in the supplemented group supports the assertion that riboflavin enhances erythropoiesis. For an effective management of SCD in Africa, a closer attention should be directed to the riboflavin status in haemolytic disorders.
...
PMID:Clinical trial of riboflavin in sickle cell disease. 829
A novel NADH-dependent, soluble flavoreductase of 60 kDa, active toward ferric chelates and quinones, has been purified from maize seedlings. Two closely related isoforms were separated. The two isoforms are similar in several biochemical features, with the exception of the apparent molecular mass of their subunits (29 and 31 kDa, respectively). They are homodimers in the native state, they bind
FAD
as the prosthetic group and show strong preference for NADH over NADPH as the electron donor. Ferric chelates (chiefly ferric citrate, Km 3-5 x 10(-5) M; kcat/Km 3.4-3.7 x 10(5) M-1 s-1), and some quinones (benzoquinone, coenzyme Q-0, and juglone) are used as electron acceptors. Enzymatic reduction of benzoquinone occurs with formation of radical semiquinones. Both soluble ferric chelate reductase isoforms are strongly inhibited by p-hydroxymercuribenzoic acid (I50 5 nM) and by cibachron blue, the latter giving nonlinear inhibition. It is suggested that soluble ferric chelate reductase might be involved in the symplastic reduction of iron chelates which is required for the assembly of iron-containing macromolecules such as cytochromes and
ferritin
.
...
PMID:Characterization of a novel NADH-specific, FAD-containing, soluble reductase with ferric citrate reductase activity from maize seedlings. 1006 52
In order to identify an enzyme capable of Fenton reaction in Synechocystis, we purified an enzyme catalyzing one-electron reduction of t-butyl hydroperoxide in the presence of
FAD
and Fe(III)-EDTA. The enzyme was a 26 kDa protein, and its N-terminal amino acid sequencing revealed it to be DrgA protein previously reported as quinone reductase [Matsuo M, Endo T and Asada K (1998) Plant Cell Physiol39, 751-755]. The DrgA protein exhibited potent quinone reductase activity and, furthermore, we newly found that it contained FMN and highly catalyzed nitroreductase, flavin reductase and ferric reductase activities. This is the first demonstration of nitroreductase activity of DrgA protein previously identified by a drgA mutant phenotype. DrgA protein strongly catalyzed the Fenton reaction in the presence of synthetic chelate compounds, but did so poorly in the presence of natural chelate compounds. Its ferric reductase activity was observed with both natural and synthetic chelate compounds with a better efficiency with the latter. In addition to small molecular-weight chemical chelators, an iron transporter protein, transferrin, and an iron storage protein,
ferritin
, turned out to be substrates of the DrgA protein, suggesting it might play a role in iron metabolism under physiological conditions and possibly catalyze the Fenton reaction under hyper-reductive conditions in this microorganism.
...
PMID:Synechocystis DrgA protein functioning as nitroreductase and ferric reductase is capable of catalyzing the Fenton reaction. 1729 43
The release mechanism for
ferritin
iron and the nature of the compound(s) which donate iron to the mitochondria are two important problems of intracellular iron metabolism which still await their solution. We have previously shown that isolated mitochondria reduce exogenously added flavins in a ubiquinol-flavin oxidoreductase reaction at the C-side of the inner membrane and that the resulting dihydroflavins function as reductants in mitochondrial mobilization of iron from
ferritin
(Ulvik, R. J., and Romslo, I. (1981). Biochim. Biophys. Acta 635, 457-469). In the present study it is shown that the rate at which iron is removed from
ferritin
depends on the capability of the flavins to penetrate (1) the mitochondrial outer membrane and (2) the intersubunit channels of the
ferritin
protein shell. Intact mitochondria reduce flavins at rates which decrease in the following order: riboflavin >>
FAD
> FMN. The
ferritin
iron mobilization rates decrease in the order of riboflavin > FMN >
FAD
. The results are further support for the operation of a flavin-dependent mitochondrial ferrireductase, and strengthen the suggested role for
ferritin
as a donor of iron to the mitochondria.
...
PMID:Reduction of exogenous flavins and mobilization of iron from ferritin by isolated mitochondria. 1825 Nov 3
Two free flavin-independent enzymes were purified by detecting the NAD(P)H oxidation in the presence of Fe(III)-EDTA and t-butyl hydroperoxide from E. coli. The enzyme that requires NADH or NADPH as an electron donor was a 28 kDa protein, and N-terminal sequencing revealed it to be oxygen-insensitive nitroreductase (NfnB). The second enzyme that requires NADPH as an electron donor was a 30 kDa protein, and N-terminal sequencing revealed it to be ferredoxin-NADP(+) reductase (Fpr). The chemical stoichiometry of the Fenton activities of both NfnB and Fpr in the presence of Fe(III)-EDTA, NAD(P)H and hydrogen peroxide was investigated. Both enzymes showed a one-electron reduction in the reaction forming hydroxyl radical from hydrogen peroxide. Also, the observed Fenton activities of both enzymes in the presence of synthetic chelate iron compounds were higher than their activities in the presence of natural chelate iron compounds. When the Fenton reaction occurs, the ferric iron must be reduced to ferrous iron. The ferric reductase activities of both NfnB and Fpr occurred with synthetic chelate iron compounds. Unlike NfnB, Fpr also showed the ferric reductase activity on an iron storage protein,
ferritin
, and various natural iron chelate compounds including siderophore. The Fenton and ferric reductase reactions of both NfnB and Fpr occurred in the absence of free flavin. Although the k(cat)/K(m) value of NfnB for Fe(III)-EDTA was not affected by free flavin, the k(cat)/K(m) value of Fpr for Fe(III)-EDTA was 12-times greater in the presence of free
FAD
than in the absence of free
FAD
.
...
PMID:Escherichia coli ferredoxin-NADP+ reductase and oxygen-insensitive nitroreductase are capable of functioning as ferric reductase and of driving the Fenton reaction. 2040 4
