Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: DrugBank:EXPT00568 (ascorbate)
 23,072 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The transmembrane hemoprotein, cytochrome b(561) (b(561)), in the neuroendocrine secretory vesicles is shown to shuttle electrons from the cytosolic ascorbate (Asc) to the intravesicular matrix to provide reducing equivalents for the dopamine beta-monooxygenase (DbetaM) reaction. Intravesicular Asc may also play a role in relieving catecholamine-induced oxidative stress in catecholaminergic neurons. In the present study, we have examined the alteration of purified oxidized b(561) (b(561,ox)) under mild alkaline conditions to probe the structural and functional characteristics of the protein, using UV-vis and EPR spectroscopic and kinetic techniques. Our results show that low spin heme in oxidized b(561) (b(561,ox)) readily transforms to an altered high spin form and then slowly to an Asc nonreducible form, in a pH-, temperature-, and time-dependent manner, which can be described by single-exponential rate equations, A(t) = A(o)(1- e (-kt)) and A(t) = A(o)e(-kt), respectively. More than half of the Asc nonreducible altered b(561) could be converted back to the native b(561) by pH adjustment followed by dithionite reduction, suggesting the reversibility of the process. The heme center of the transformed Asc nonreducible protein is completely bleached instantaneously by dithionite in the presence of atmospheric oxygen, which appears to be mediated by molecular oxygen and/or hydrogen peroxide. These results demonstrate that the heme centers of the protein are susceptible to the pH-induced alteration and oxidative destruction, raising some questions regarding the proposed one alkaline labile, two-heme model of b(561) [Tsubaki, M.; Nakayama, M.; Okuyama, E.; Ichikawa, Y. (1997) J. Biol. Chem. 272, 23206-23210]. The pH-induced alteration and the destruction of heme under oxidative conditions may play a significant role in the amplification of oxidative stress in catecholaminergic neurons.
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PMID:pH-induced alteration and oxidative destruction of heme in purified chromaffin granule cytochrome b(561): implications for the oxidative stress in catecholaminergic neurons. 1265 66

The plant plasma membrane (PM) contains more than one b-type cytochrome. One of these proteins has a rather high redox potential (can be fully reduced by ascorbate) and is capable of transporting electrons through the PM. Four genes encoding proteins with considerable homology to the sequences of cytochrome b(561) proteins in the animal chromaffin granule membrane have recently been identified in the genome of Arabidopsis thaliana. In order to characterize the cytochrome b(561) located in the Arabidopsis PM, first PM vesicles were purified by aqueous polymer two-phase partitioning from the leaves of 9-week-old A. thaliana. PM proteins were solubilized by nonionic detergent, and the fully ascorbate-reducible b-type cytochrome was partially purified by anion-exchange chromatography steps. Potentiometric redox titration of the fraction, containing the fully ascorbate-reducible b-type cytochrome after the first anion-exchange chromatography step, revealed the presence of two hemes with redox potentials of 135 mV and 180 mV, respectively. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of the fractions containing the fully ascorbate-reducible b-type cytochrome after the second anion-exchange chromatography step revealed the presence of a single polypeptide band at about 120 kDa. However, heat treatment (15 min, 90 degrees C) before electrophoresis was able to split the 120 kDa band into two bands with molecular masses of about 23 and 28 kDa. These values are lower than the apparent molecular mass for the fully ascorbate-reducible b-type cytochrome purified from Phaseolus vulgarishypocotyls (about 52 kDa) but are in good agreement with those characteristic for the cytochrome b(561) proteins purified from chromaffin granule membranes (about 28 kDa) and the four polypeptides predicted from the Arabidopsis genome (24-31 kDa).
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PMID:Partial purification and characterization of an ascorbate-reducible b-type cytochrome from the plasma membrane of Arabidopsis thaliana leaves. 1276 41

Cytochrome b(561) in adrenal chromaffin vesicle membranes conveys electron equivalents from extravesicular ascorbate to the intravesicular monodehydroascorbate radical. We conducted a stopped-flow study on the reaction of ascorbate with purified cytochrome b(561) in the detergent-solubilized state for the first time. The time course of the reduction of oxidized cytochrome b(561) with ascorbate could not be fitted with a single exponential but with a linear combination of at least four exponential functions. This result is consistent with the notion that cytochrome b(561) contains two hemes b, each having a distinct redox potential and a function upon reactions with ascorbate and monodehydroascorbate radical. The fastest phase, which was assigned to the first one-electron donation from ascorbate to heme b on the extravesicular side, was further analyzed by transient phase kinetics employing a two-step bi-uni sequential ordered mechanism. The result showed K(s) = 2.2 mM for ascorbate at pH6.0. At a region below pH5.5, there was a significant lag before the reduction of hemes b occurred. This time lag was interpreted as due to a pH-dependent transient state before the first electron transfer to take place. The fastest phase was completely lost by N-carbethoxylation of heme-coordinating histidyl residues (His88 and His161) and Lys85 upon treatment with diethylpyrocarbonate. The presence of ascorbate during the treatment inhibited the N-carbethoxylation of the histidyl residues and, thereby, restored the final reduction level of hemes b. But the reduction rate was still only one-twentieth of the native form. This result suggested an important role of the conserved Lys85 for the interaction with ascorbate.
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PMID:Stopped-flow analyses on the reaction of ascorbate with cytochrome b561 purified from bovine chromaffin vesicle membranes. 1284 60

The only outer mitochondrial membrane cytochrome b(5) examined to date, from rat (rOM b(5)), exhibits greater stability than known mammalian microsomal (Mc) isoforms, as well as a much higher kinetic barrier for hemin dissociation and a more negative reduction potential. A BlastP search of available databases using the protein sequence of rOM b(5) as template revealed entries for analogous proteins from human (hOM b(5)) and mouse (mOM b(5)). We prepared a synthetic gene coding for the heme-binding domain of hOM b(5), and expressed the protein to high levels. The hOM protein exhibits stability, hemin-binding, and redox properties similar to those of rOM b(5), suggesting that they are characteristic of the OM b(5) subfamily. The divergence in properties between the OM and Mc b(5) isoforms in mammals can be attributed, at least in part, to the presence of two extended hydrophobic patches in the former. The biophysical properties characteristic of the OM proteins may be important in facilitating the two functions proposed for them so far, reduction of ascorbate radical and stimulation of androgen synthesis.
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PMID:Mammalian mitochondrial and microsomal cytochromes b(5) exhibit divergent structural and biophysical characteristics. 1473 50

Cytochrome b(561) from bovine adrenal chromaffin vesicles contains two hemes b with different midpoint potentials (+150 and +60 mV) and participates in transmembrane electron transport from extravesicular ascorbate to an intravesicular monooxygenase, dopamine beta-hydroxylase. Treatment of oxidized cytochrome b(561) with diethylpyrocarbonate caused a downshift of midpoint potential for the lower component, and this shift was prevented by the presence of ascorbate during the treatment. Present EPR analyses showed that, upon the treatment, the g(z) = 3.69 heme species was converted to a non-ascorbate-reducible form, although its g(z)-value showed no appreciable change. The treatment had no effect on the other heme (the g(z) = 3.13 species). Raman data indicated that the two heme b centers adopt a six-coordinated low-spin state, in both the reduced and oxidized forms. There was no significant effect of diethylpyrocarbonate-treatment on the Raman spectra of either form, but the reducibility by ascorbate differed significantly between the two hemes upon the treatment. The addition of ferrocyanide enhanced both the reduction rate and final reduction level of the diethylpyrocarbonate-treated cytochrome b(561) when ascorbate was used as a reductant. This observation suggests that ferrocyanide scavenges monodehydroascorbate radicals produced by the univalent oxidation of ascorbate and, thereby, increases both the reduction rate and the final reduction level of the heme center on the intravesicular side of the diethylpyrocarbonate-treated cytochrome. These results further clarify the physiological role of this heme center as the electron donor to the monodehydroascorbate radical.
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PMID:Properties of two distinct heme centers of cytochrome b561 from bovine chromaffin vesicles studied by EPR, resonance Raman, and ascorbate reduction assay. 1499 9

Mitochondrial function is a key determinant of both excitability and viability of neurons. Present studies were carried out to decipher cerebral mitochondrial oxidative energy metabolism and membrane function in the chronic condition of generalized seizures induced by picrotoxin (PTX) in rats. PTX-induced convulsions resulted in decreased respiration rates (14-41%) with glutamate, pyruvate + malate, and succinate as substrate. The ADP phosphorylation rates were drastically reduced by 44-65%. An opposite trend was observed with ascorbate + N,N,N',N'-tetramethyl-p-phenylenediamine [corrected] (TMPD) as substrate. In general, uncoupling of the mitochondrial electron transport was observed after PTX treatment. Malate dehydrogenase (MDH) and succinate dehydrogenase (SDH) activities were decreased by 20-80%; also, there was significant reduction in cytochrome b content after PTX treatment, while the F(o)F(1) ATPase (complex V) activity increased in basal and 2,4-dinitrophenol (DNP)-stimulated condition, indicating increased membrane fragility. The substrate kinetics analysis had shown that K(m) and V(max) of the higher affinity kinetic component of ATPase increased significantly by 1.2- to 1.4-fold in epileptic condition. Temperature kinetic analysis revealed 1.2-fold increase in energies of activation with decreased transition temperature. The total phospholipid (TPL) and cholesterol (CHL) contents decreased significantly with lowering of diphosphatidylglycerol (DPG), phosphatidylethanolamine (PE), phosphatidylinositol (PI), and phosphatidylserine (PS), while lysophospholipid (lyso), sphingomyelin (SPM), and phosphatidylcholine components were found to be elevated. Brain mitochondrial membrane was somewhat more fluidized in epileptic animals. Possible consequences of mitochondrial respiratory chain (MRC) dysfunction are discussed. In conclusion, impairment of MRC function along with structural alterations suggests novel pathophysiological mechanisms important for chronic epileptic condition.
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PMID:Structural and functional alterations in mitochondrial membrane in picrotoxin-induced epileptic rat brain. 1569 21

The extracellular cellobiose dehydrogenase (CDH) obtained from Chaetomium sp. INBI 2-26(-) has a molecular mass of 95 kDa and an isoelectric point of 5. This novel CDH is highly specific for the oxidation of cellobiose (K(m,app) 4.5 microM) and lactose (K(m,app) 56 microM). With 2,6-dichloroindophenol (DCIP) and cytochrome c(3+) (cyt c(3+)) as electron acceptors, CDH was most active at pH 6. The turnover number of the enzyme for cellobiose, lactose, DCIP and cyt c(3+) was in the range of 9-14s(-1) at 20 degrees C and pH 6. The UV-visible spectrum revealed the flavohemoprotein nature of the enzyme. The cytochrome b domain of the enzyme was reduced by ascorbate, dithionite, as well as specifically by cellobiose in a wide range of pH. The apparent first order rate constants of the spontaneous re-oxidation of the reduced heme domain were estimated as 0.01 and 0.00039 s(-1) at pH 4.5 and 6.5, respectively. The half-inactivation time of CDH at pH 6 and 55 degrees C was ca. 100 min; the stability at pH 8 and, particularly, pH 4 was remarkably lower. Cellobiose stabilized the enzyme against thermal inactivation, whereas DCIP in turn sensitized the enzyme. The new enzyme revealed low affinity for crystalline cellulose, but was capable of binding onto H(3)PO(4)-swollen filter paper. The results show significant differences to already known CDHs and perspectives for several biotechnological applications, where CDH with maximal activity at neutral pH and high affinity for cellobiose and lactose night have some advantages.
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PMID:Properties of neutral cellobiose dehydrogenase from the ascomycete Chaetomium sp. INBI 2-26(-) and comparison with basidiomycetous cellobiose dehydrogenases. 1611 65

Cytochrome b(561) from bovine adrenal chromaffin vesicles contains two hemes b with EPR signals at g(z) = 3.69 and 3.14 and participates in transmembrane electron transport from extravesicular ascorbate to an intravesicular monooxygenase, dopamine beta-hydroxylase. Treatment of purified cytochrome b(561) in an oxidized state with a sulfhydryl reagent, 4,4'-dithiodipyridine, caused the introduction of only one 4-thiopyridine group per b(561) molecule at either Cys57 or Cys125. About half of the heme centers of the modified cytochrome were reduced rapidly with ascorbate as found for the untreated sample, but the final reduction level decreased to approximately 65%. EPR spectra of the modified cytochrome showed that a part of the g(z) = 3.14 low-spin EPR species was converted to a new low-spin species with g(z) = 2.94, although a considerable part of the heme center was concomitantly converted to a high-spin g = 6 species. Addition of ascorbate to the modified cytochrome caused the disappearance or significant reduction of the EPR signals at g(z) = 3.69 and 3.14 of low-spin species and at g = 6.0 of the high-spin species, but not for the g(z) approximately 2.94 species. These results suggested that the bound 4-thiopyridone at either Cys57 or Cys125 affected the intravesicular heme center and converted it partially to a non-ascorbate-reducible form. The present observations suggested the importance of the two well-conserved Cys residues near the intravesicular heme center and implied their physiological roles during the electron donation to the monodehydroascorbate radical.
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PMID:Selective perturbation of the intravesicular heme center of cytochrome b561 by cysteinyl modification with 4,4'-dithiodipyridine. 1642 4

The role of cytochromes in photosynthetic electron transfer system has been studied using the pale green mutant of Chlamydomonas reinhardi (ATCC 18302). The existence of cytochromes b(563) and f is confirmed, while no significant amount of ascorbate-reducible cytochrome b(559) is detected in this mutant. The presence of cytochrome c and a small amount of a-type cytochrome is determined in these cells.Light-induced oxidation of cytochrome b(563) is eliminated by oxygen-induced oxidation, and oxygen-induced oxidation is greatly diminished under illumination. Antimycin A diminishes the oxygen-induced oxidation of cytochrome b(563), but does not affect light-induced oxidation. In the aerobic state in the presence of 2-heptyl-4-hydroxyquinoline-N-oxide, cytochrome b(563) is reduced by illumination with far red light; this reduction is not inhibited by 3-(4'-chlorophenyl)-1,1-dimethylurea.A tentative scheme for the electron transfer system in chloroplasts, which involves a cyclic pathway via cytochrome b(563) and its interaction with oxygen, is proposed.
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PMID:Energy and Electron Transfer Systems of Chlamydomonas reinhardi. I. Photosynthetic and Respiratory Cytochrome Systems of the Pale Green Mutant. 1665 96

Hill activity (oxygen evolution with ferricyanide as the electron acceptor), light-induced absorbance changes at liquid nitrogen temperature associated with the primary activity of photosystem II, and fluorescence yield changes at both low temperature and room temperature were measured with lyophilized spinach chloroplasts before and after extraction with hexane and reconstitution with beta-carotene and plastoquinone A. Extraction eliminated the Hill activity, and both beta-carotene and plastoquinone A were required for maximal restoration of activity to the reconstituted chloroplasts.Extraction also eliminated the light-induced absorbance changes at -196 C due to the photoreduction of C-550 and photooxidation of cytochrome b(559), and reconstitution with beta-carotene and plastoquinone A restored the low temperature photoreactions. However, only beta-carotene was essential for the restoration of the photoreactions. Cytochrome b(559) was modified, as a result of the extraction, to a lower redox potential, autooxidizable form and remained as such after reconstitution with beta-carotene. The beta-carotene-restored chloroplasts showed the photoreduction of C-550 but not the photooxidation of cytochrome b(559) because the cytochrome was already oxidized. When beta-carotene-reconstituted chloroplasts were suspended in buffer containing ascorbate prior to freezing, the cytochrome b(559) was reduced and could be photooxidized by irradiation at low temperature. After reconstitution with beta-carotene plus plastoquinone A the cytochrome b(559) was partially restored to its original high potential form and was in the reduced state so that both the photoreduction of C-550 and the photooxidation of cytochrome b(559) occurred on irradiation of the beta-carotene plus plastoquinone A-reconstituted chloroplasts. Reconstitution with plastoquinone A alone had essentially no effect on restoring the photoreactions.The fluorescence yield of dark-adapted lyophilized chloroplasts at -196 C showed an irreversible increase of about 2.5-fold during irradiation. After extraction the fluorescence yield of the chloroplasts was high (at the maximal light-induced level of the lyophilized control chloroplasts) and showed very little change in the light. Reconstitution with beta-carotene alone restored some fluorescence quenching which was relieved by irradiation at low temperature. Reconstitution with plastoquinone A alone restored a high degree of quenching, but this quenching was not relieved by light at low temperature. Fluorescence emission spectra at -196 C showed that the fluorescence of variable yield in the lyophilized and beta-carotene-reconstituted chloroplasts involved only the 680 and 695 nm emission bands but not the larger 730 nm emission band, whereas the irreversible quenching in plastoquinone A-reconstituted chloroplasts involved all wavelengths of emission. Extraction of the chloroplasts also eliminated the sharp 695 nm emission band at low temperature, and reconstitution with beta-carotene partially restored it.The fluorescence yield changes at room temperature differed from the low temperature measurements in that the strong fluorescence quenching restored to the plastoquinone A-reconstituted chloroplasts was relieved by light and reappeared in the dark. Thus plastoquinone A appeared to be much more effective than beta-carotene in restoring the fluorescence of variable yield in room temperature measurements. However, it is argued from the results at low temperature that the quenching in plastoquinone A-reconstituted chloroplasts, which is probably due to the oxidized form of the quinone, is nonspecific and a different quenching mechanism from that which obtains in normal chloroplasts.The results suggest that extraction with hexane removes plastoquinone A, which interrupts electron transport, and beta-carotene, which disrupts the primary photochemical activity of photosystem II. Reconstitution of the extracted chloroplasts with beta-carotene alone restores C-550 and the primary photochemical activity of photosystem II, and when the photosystem II reaction centers are restored the additional requirement of plastoquinone A for the Hill reaction can be demonstrated.
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PMID:Extraction and Reconstitution of Photosystem II. 1665 45


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