Your search keyword '"Nelson, B."' showing total 18 results

1. Identification of NF1 as a silencer protein of the human adenine nucleotide translocase-2 gene

Author

Barath, Peter, Poliakova, Daniela, Luciakova, Katarina, and Nelson, B. Dean

Published

2004

2. Sp1 acts as a repressor of the human adenine nucleotide translocase-2 (ANT2) promoter

Author

Zaid, Ahmed, Hodny, Zdenek, Li, Ronggui, and Nelson, B. Dean

Published

2001

3. Immunological Studies on Beef-Heart Ubiquinol -- Cytochrome <em>c</em> Reductase (Complex III).

Author

Nelson, B. Dean and Mendel-Hartvig, Ib

Subjects

*IMMUNOGLOBULINS, *MITOCHONDRIA, *CYTOCHROMES, *ELECTROCHEMISTRY, *PHASE partition, *BILIARY tract

Abstract

Antibodies against isolated beef-heart ubiquinol- cytochrome c reductase (complex III) have been characterized. Antibodies to complex III react strongly with isolated beef heart complex III and intact beef heart mitochondria, as shown by immunodiffusion and rocket electrophoresis experiments. The complex III content of intact mitochondria can be quantitated with rocket electrophoresis using isolated complex III as a standard. Antibodies to complex III also react with beef liver mitochondria and with both heart and liver mitochondria from rats. The latter are very weak antigens compared to beef heart material. Antibodies to complex III do not react with respiratory chain complexes I and IV, or F1-ATPase from beef heart mitochondria, but gives a slight, but variable, reaction with complex II and the membrane fraction isolated from complex V (oligomycin-sensitive ATPase). Antigenic sites are located on at least five of the seven peptides of complex III. These peptides are presumably lacking in respiratory chain complexes which do not react with antibodies to complex III, and are assumed to be uniquely located in complex HI. Antiserum against complex III inhibits duroquinol-cytochrome c reductase activity in isolated complex III and in complex III incorporated into phospholipid vesicles. Oxidation of NADH and succinate is not affected in submitochondrial particles treated with 6-times more antibody than required for complete inhibition of enzyme activity in free complex III or in complex III-phospholipid vesicles. [ABSTRACT FROM AUTHOR]

Published

1977

4. Topology of the Peptides in Free and Membrane-Bound Complex III (Ubiquinol -- Cytochrome <em>c</em> Reductase) as Revealed by Lactoperoxidase and <em>p</em>-Diazoniumbenzene [35S] sulfonate Labeling.

Author

Gellerfors, Pär and Nelson, B. Dean

Subjects

*PROTEINS, *HYDROGEN-ion concentration, *LIPOSOMES, *ELECTROPHORESIS, *BIOCHEMISTRY, *ACRYLAMIDE

Abstract

The arrangement of the peptides of free complex III and complex III incorporated into phospholipid vesicles was investigated by labeling with 125I + lactoperoxidase and with p-diazoniumbenzene [35S]sulfonate (N=N-PhSO3H). The peptides were separated by sodium dodecylsulfate acrylamide gel electrophoresis and scanned for radioactivity. In free complex III, the most extensive iodination occurred in peptides II and IV, whereas all polypeptides (I -VI), except peptide VII, could be coupled to N=N-PhSO3H. Peptide VII was, however, labeled in the sodium-dodecylsulfate- dissociated enzyme. These results show that, with the possible exception of peptide VII, all peptides are at least partially exposed on the surface of the isolated complex. Complex III incorporated into phospholipid vesicles showed a labeling pattern which differed from the free enzyme, both with respect to the total incorporation and to the relative incorporation between the peptides. Total incorporation of N=N-Ph35SO3H and 125I was decreased by 60 - 70% in complex III=vesicles, suggesting that a large number of the binding sites on the free enzyme become buried within the membrane. In addition, peptides I, II, IV and V were relatively less labeled in complex III-vesicles than were peptides III and VI, suggesting a deeper location of the former peptides within the membrane. This is supported by the finding that labeling of deoxycholate-treated complex III-vesicles with N = N - Ph35SO3H results in an incorporation pattern similar to that in free complex III. Binding of N = N -PhSO3H and its effects on enzymatic activity was also studied in free and membrane-bound complex III. Both the binding of N = N -Ph35SO3H and inactivation of duroquinol -cytochrome c reductase were significantly slower in complex Ill-vesicles. These results indicate that many of the N = N -PhCO3H-binding sites on the free complex are inaccessible when the enzyme is incorporated into a vesicle. This approach was also used to ascertain intactness of the vesicles, and to show that N = N -PhSO3H labeled only those peptides exposed on the outer surface. [ABSTRACT FROM AUTHOR]

Published

1977

5. Analysis of the Peptide Composition of Purified Beef-Heart Complex III by Dodecylsulfate Electrophoresis.

Author

Gellerfors, Pär and Nelson, B. Dean

Subjects

*PEPTIDES, *PROTEINS, *ELECTROCHEMISTRY, *COLLOIDS, *PHASE partition, *ELECTROPHORESIS

Abstract

The peptides of purified complex III from beef heart mitochondria have been studied by electrophoresis on dodecylsulfate gels. Of the 12 peptides consistently observed, only eight appear to be integral peptides of the functional complex. Attempts to identify these peptides have been made through co-electrophoresis of complex [I and fractions in which the individual peptides were either purified or greatly enriched. Electrophoresis of complex III preparations which were not reduced by mercaptoethanol indicates that intermolecular disulfide bonds play no significant role in stabilizing the complex. [ABSTRACT FROM AUTHOR]

Published

1975

6. Transcript levels for nuclear-encoded mammalian mitochondrial respiratory-chain components are regulated by thyroid hormone in an uncoordinated fashion.

Author

Luciakova, Katarina and Nelson, B. Dean

Subjects

*THYROID hormones, *HORMONES, *THYROID gland, *MITOCHONDRIA, *PROTEINS, *ORGANIC compounds

Abstract

Thyroid hormone is one of the few known physiological regulators of mammalian mitochondrial biogenesis. Although it exerts a global effect on biogenesis, it does so by regulating the expression of a limited number of unidentified mitochondrial proteins. We have investigated these hormoneregulated proteins in rat liver. Hormone injection induced a 30-fold increase in the levels of cytochrome-c1 mRNA after 3 d. In addition, the mRNA for the growth-activated adenine-nucleotide translocator, ANT2, was increased 13-fold and that for the ATPase N,N'-dicyclohexylcarbodiimidebinding protein increased 4-5-fold. Mitochondrial transcripts of cytochrome-oxidase subunit I also increased. No changes were found in the mRNA levels for the FI-ATPase β-subunit or cytochrome oxidase IV. A single low dose of triiodothyronine induces rapid increases in cytochrome-c1 and ANT2 mRNA species which parallel changes in the activity of the hormone-responsive malic enzyme, but are earlier than other mitochondrial biogenetic events. These data strengthen the view that thyroid hormone regulates synthesis of specific components within each respiratory-chain complex and that these products apparently play key roles in inner-membrane biogenesis and assembly. The significance of ANT2 induction is also discussed with respect to the rapid respiratory response induced by thyroid hormone. [ABSTRACT FROM AUTHOR]

Published

1992

7. ADP is a substrate for the AAUAAA-directed poly(A) addition reaction catalyzed by HeLa cell nuclear extracts.

Author

Lakota, Jan and Nelson, B. Dean

Subjects

*HELA cells, *CLONE cells, *UTERINE cancer, *ADENOSINE diphosphate, *ADENOSINE triphosphate, *GENETICS, *BIOCHEMISTRY

Abstract

The specific poly(A) addition reaction catalyzed by crude nuclear extracts from HeLa cells can use ADP as efficiently as ATP as the donor of AMP residues. Both the ADP- and ATP-supported reactions require an intact upstream polyadenylation signal sequence element (AAUAAA). The mutated signal sequence (AACAAA) supports neither reaction. The ADP-supported poly(A) addition reaction can be resolved by glycerol gradient centrifugation of the crude nuclear extract into two components which are active when recombined but are inactive individually. The ATP-supported poly(A) addition is reconstituted by recombining the same gradient fractions, but the activity is lower than that supported by ADP. suggesting that an ATP-specific factor has been removed. A 150 mM KC1 fraction DEAE-Sepharose of the nuclear extract, also devoid of the ATP-supported poly(A) addition reaction, retains a normal ADP-supported reaction. Together, these data show that ADP is a substrate for polyadenylation, and suggest that different factors might be required to induce ADP- or ATP-specificity in the poly(A) addition reaction. [ABSTRACT FROM AUTHOR]

Published

1991

8. Import and processing of cytochrome <em>b-c</em>1 complex subunits in isolated hepatoma ascites cells.

Author

Kolarov, Jordan and Nelson, B. Dean

Subjects

*PROTEIN synthesis, *CYTOCHROMES, *CELLS, *PEPTIDES, *PROTEINS, *LIVER tumors, *CANCER cells, *HEPATOCELLULAR carcinoma, *ASCITES

Abstract

The import and processing of cytochrome c1 and the iron sulfur protein of the cytochrome b-c1 complex were studied in Zajdela hepatoma ascites cells. Both peptides were synthesized as larger percursor molecules which were approximately 2–3 kDa and 5–6kDa larger than the mature forms of apocytochrome c1 and apo-iron sulfur protein, respectively. Comparison of these precursors to those reported for functionally homologous peptides in yeast and Neurospora indicate significant size changes have occurred in mammals. Rhodamine 6G, a specific vital stain for mitochondria, is a potent inhibitor of precursor processing in isolated hepatoma cells. Both precursor to cytochrome c1 and precursor to FeS accumulate in the soluble and particulate fractions obtained by digitonin treatment of tumor cells treated with Rhodamine 6G. Appearance of the mature peptides was abolished. The precursors are unstable, however, and disappear from the cytosolic and membrane fractions during a 10min chase. Comparison of the effects of Rhodamine 6G and carbonylcyanide m-chloro- phenylhydrazone on precursor processing shows that: (a) Rhodamine 6G is a more effective inhibitor of processing. (b) it has less of an inhibitory effect on cellular protein synthesis, and (c) it inhibits processing trader conditions in which it appears to have little influence on coupled respiration in whole cells. The data suggest that the most likely mode of action of Rhodamine 6G is on the matrix processing step. [ABSTRACT FROM AUTHOR]

Published

1984

9. Rhodamine 6G inhibits the matrix-catalyzed processing of precursors of rat-liver mitochondrial proteins.

Author

Kuzela, Stefan, Joste, Vigg, and Nelson, B. Dean

Subjects

LIVER, MEMBRANE proteins, MITOCHONDRIA, CYTOCHROMES, HEPATOCELLULAR carcinoma, RETICULOCYTES

Abstract

Several inner membrane proteins from rat liver mitochondria have been translated for the first time in rabbit reticulocyte lysates. These include the Rieske iron-sulfur protein, cytochrome c1 and core protein I of the cytochrome bc1 complex, the α and β subunits of F1 ATPase, and subunit IV of cytochrome oxidase. All were translated from free polysomes as larger-molecular-mass precursors, and were processed to their mature forms by isolated liver mitochondria or by the isolated mitochondrial matrix fraction. In vitro processing, catalyzed by the isolated matrix fraction, is inhibited by rhodamine 6G. The latter is a fluorescent probe, which accumulates specifically in mitochondria of whole cells and which is used extensively to visualize mitochondrial morphology. The concentration of rhodamine 6G required for inhibition in vitro is similar to that of o-phenanthroline. Rhodamine 6G inhibits matrix-catalyzed processing of all precursors tested, indicating that the mechanism of inhibition is common for a variety of functionally unrelated precursors. The novel action of rhodamine 6G reported here can form the basis for its inhibition of precursor processing in intact hepatoma cells.

Published

1986

10. Isolation of the Cytochrome-bc¹ Complex from Rat-Liver Mitochondria.

Author

Gellerfors, Par, Johansson, Tomas, and Nelson, B. Dean

Subjects

CYTOCHROMES, MITOCHONDRIA, LIVER, ELECTROPHORESIS

Abstract

Focuses on the isolation of the cytochrome-bc1 complex from rat-liver mitochondria. Information about various methods of isolation of the cytochrome-bc1 complex from rat-liver mitochondria; Purpose of electrophoresis. [ABSTRACT FROM AUTHOR]

Published

1981

11. Evidence for a Function of Core Protein in Complex III from Beef-Heart Mitochondria.

Author

Gellerfors, Pär, Lundén, Mats, and Nelson, B. Dean

Subjects

CYTOCHROMES, HEMOPROTEINS, PROTEINS, MITOCHONDRIA, ENZYMES, BIOCHEMISTRY

Abstract

Purified complex III (ubiquinol-cytochrome c reductase) from beef heart mitochondria was alkylated with iodo[1-14C]acetamide. After 6–8 h of incubation with iodo[1-14C]acetamide, duroquinol and ubiquinol-2-cytochrome c reductase activities were inhibited approximately 50%. During this time 4.5 ± 1.6 nmol of iodo[1-14C]acetamide reacted per mg of complex III protein. Experiments carried out over 24 h indicated that enzyme activity could be inhibited to 70% and that alkylation of complex III was proportional to inhibition. The rates of cytochrome b and c1 reduction by duroquinol are also decreased upon treatment of complex III with iodoacetamide. Separation of the peptides of complex III by electrophoresis in sodium dodecylsulfate shows that all of the radioactivity is located in a single peptide of 50000 molecular weight, which has been identified as one of the two core proteins. The possible functions of core protein are discussed. [ABSTRACT FROM AUTHOR]

Published

1976

12. Studies with Ubiquinone-Depleted Submitochondrial Particles.

Author

Norling, Birgitta, Glazek, Elzbieta, Nelson, B. Dean, and Ernster, Lars

Subjects

NANOPARTICLES, UBIQUINONES, OXIDASES, SUCCINATE dehydrogenase, CHROMATOGRAPHIC analysis, PROTEINS, FREEZE-drying

Abstract

1. The incorporation of small amounts of ubiquinone (Q) into pentane-extracted submitochondrial particles has been studied. A procedure is described which allows nearly quantitative incorporation of as little as 0.2 to 0.3 nmol Q/mg protein, i.e: less than 10 % of the Q present in the lyophilized particles prior to extraction. 2. It is shown that both NADH oxidase and succinate oxidase activities can be restored to 100 % of that in lyophilized particles by incorporation of 6-8 nmol Q/mg protein. The relative activities of both oxidases show a parallel response to an increase of the Q content of the particles between 0.2 and 22 nmol Q/mg protein, 50% reactivation being obtained at about 2 nmol Q/mg protein. 3. 50 to 60% of the incorporated Q can be reduced by NADH or succinate, independent of the total concentration of Q in the membrane. Similar reduction values were obtained for lyophilized particles prior to extraction, suggesting that incorporated Q functions similarly to that originally present in the particles. 4. Succinate dehydrogenase activity, which is decreased % by extraction of Q. can be completely restored upon incorporation of only 1.5 nmol Q/mg protein. 5. Extraction of lyophilized particles with pentane + 10% acetone results in a more effective removal of Q, but also in a differential Q requirement for NADH oxidase and succinate oxidase. Thin-layer chromatography shows that extraction with pentane + acetone removes an additional, unidentified, nonpolar lipid. 6. The present data do not support the belief that succinate oxidase and NADH oxidase communicate with separate pools of Q. [ABSTRACT FROM AUTHOR]

Published

1974

13. Differential regulation of the transcript levels of some nuclear-encoded and mitochondrial-encoded respiratory-chain components in response to growth activation.

Author

Luciakova, Katarina, Li, Ronggui, and Nelson, B. Dean

Subjects

MITOCHONDRIA, ORGANELLES, GENES, CELLULAR recognition, IMMUNOLOGY, CELL communication

Abstract

Biogenesis of mammalian mitochondria requires the participation of both nuclear and mitochondrial genes. In order to study the expression and coordination of these two sets of genes, serumdeprived, quiescent NIH 3T3 cells were activated by serum addition. The steady-state levels of the transcripts for two growth-response genes (the mitochondrial adenine-nucleotide translocator and non-mitochondrial β-actin), one nuclear-encoded respiratory-chain component (FI-ATPase β-subunit) and the mitochondrial-encoded subunit I of cytochrome oxidase decreased significantly in quiescent cells and were rapidly restored with similar kinetics after addition of serum. The transcripts for two additional nuclear-encoded mitochondrial genes (cytochrome c1 and cytochrome oxidase subunit IV) did not respond to serum deprivation or growth activation. These results imply that mitochondrial biogenesis is at least partially regulated through growth-dependent mechanisms. Furthermore, the expression of nuclear genes encoding mitochondrial respiratory-chain components does not appear to be tightly coordinated, suggesting the existence of multiple control circuits. [ABSTRACT FROM AUTHOR]

Published

1992

14. Thyroid hormone regulation of nuclear-encoded mitochondrial inner membrane polypeptides of the liver.

Author

Joste, Vigg, Goitom, Zere, and Nelson, B. Dean

Subjects

THYROID hormones, MEMBRANE proteins, MITOCHONDRIAL membranes, MESSENGER RNA, PROTEIN synthesis, CYTOCHROME oxidase

Abstract

The effects of thyroid hormone on nuclear-encoded mitochondrial inner membrane proteins were investigated by in vitro translation of the endogenous mRNA present in a postmitochondrial fraction from the livers of rats treated in vivo with hormone. The levels of the mRNAs were estimated by quantitative immunoabsorption of the translation mixture. Total protein synthesis was increased 2.6-fold after 4 days of in vivo hormone treatment, but only 10-15% of the polypeptides were dramatically altered (> 5-fold). Among the most highly elevated were cytochrome c1 (> 10-fold increase) and the Rieske iron-sulfur protein of the cytochrome bc1 complex. Other inner membrane proteins (core protein 1, β subunit of F1 ATPase, subunit IV of cytochrome oxidase, 3-hydroxybutyrate dehydrogenase) and non-mitochondrial proteins (rat serum albumin, β2-microglobulin) were not altered significantly by hormone treatment. Cytochrome c1 and the Rieske protein increased after 12 h of hormone treatment, a relatively early response in mammalian mitochondrial biogenesis. The possible significance of this response for the regulation of mitochondrial synthesis and assembly is discussed. [ABSTRACT FROM AUTHOR]

Published

1989

15. Control of mitochondrial transcription by thyroid hormone.

Author

Mutvei, Ann, Kuzela, Stefan, and Nelson, B. Dean

Subjects

MITOCHONDRIAL DNA, DNA, MITOCHONDRIA, THYROID hormone synthesis, THYROID hormones, HORMONES, THYROID gland

Abstract

Thyroid hormone regulation of rat liver mitochondrial transcription was investigated. Steady-state levels of mitochondrial transcripts were measured by Northern blot analysis using cloned fragments of rat mtDNA. Thyroid hormone increased the steady-state concentrations of all mitochondrial mRNAs by 2–8 fold after 1–3 days of hormone treatment, whereas no significant change in the mitochondrial rRNA was observed. Analysis of transcript synthesis in isolated mitochondria shows that part or all of this increase is accounted for by elevated synthesis. Mechanisms by which thyroid hormone regulates transcription of the mitochondrial genome are discussed. [ABSTRACT FROM AUTHOR]

Published

1989

16. Expression of the human cytochrome c1 gene is controlled through multiple Sp1-binding sites and an initiator region.

Author

Li R, Luciakova K, and Nelson BD

Subjects

3T3 Cells, Animals, Base Sequence, Binding Sites genetics, Cell Line, DNA Primers genetics, Gene Expression, Humans, Mice, Molecular Sequence Data, Oxidative Phosphorylation, Peptide Chain Initiation, Translational genetics, Podophyllin metabolism, Podophyllotoxin analogs & derivatives, Polymerase Chain Reaction, Promoter Regions, Genetic, Transfection, Cytochromes c1 genetics, Podophyllin analogs & derivatives

Abstract

It is widely accepted that nuclear genes that encode proteins of the oxidative-phosphorylation system are regulated by nuclear factors believed to be specific for such genes. In the present study we show that the promoter for the human cytochrome c1 gene is an exception, in that it involves only conserved Sp1 core elements and an initiator region. Maximal promoter activity within a 1.4-kb 5' flanking region of the cytochrome c1 gene is contained in a fragment (-72 to +18) that lacks TATA and CCAAT elements. The transcriptional start site was mapped to an initiator region by RNase protection of mRNA from human HepG2 cells, and by primer extension of in vitro-generated transcripts, to a sequence that is highly similar to the dihydrofolate reductase family of initiators. Deletion of this region (+1 to +18) severely impairs transcription initiation. Sp1 core elements centered at nucleotides -21 and -39 define the activation domain of the proximal promoter. Only the -39 element is protected from DNase I in the presence of crude nuclear extracts. However, transfection, gel-mobility-shift, supershift and in vitro-transcription experiments show that the -21 element binds Sp1 protein and contributes to transcription activation. No other functional oxidative-phosphorylation-specific response elements have been identified. These data implicate Sp1 as a single activating factor for an oxidative-phosphorylation gene.

Published

1996

17. Import and processing of cytochrome b-c1 complex subunits in isolated hepatoma ascites cells. Inhibition by Rhodamine 6G.

Author

Kolarov J and Nelson BD

Subjects

Animals, Carbonyl Cyanide m-Chlorophenyl Hydrazone pharmacology, Electron Transport Complex III, Enzyme Precursors metabolism, Immunochemistry, In Vitro Techniques, Male, Protein Processing, Post-Translational drug effects, Rats, Rats, Inbred Strains, Liver Neoplasms, Experimental enzymology, Multienzyme Complexes metabolism, NADH, NADPH Oxidoreductases metabolism, Quinone Reductases metabolism, Rhodamines pharmacology, Xanthenes pharmacology

Abstract

The import and processing of cytochrome c1 and the iron sulfur protein of the cytochrome b-c1 complex were studied in Zajdela hepatoma ascites cells. Both peptides were synthesized as larger percursor molecules which were approximately 2-3 kDa and 5-6 kDa larger than the mature forms of apocytochrome c1 and apo-iron sulfur protein, respectively. Comparison of these precursors to those reported for functionally homologous peptides in yeast and Neurospora indicate significant size changes have occurred in mammals. Rhodamine 6G, a specific vital stain for mitochondria, is a potent inhibitor of precursor processing in isolated hepatoma cells. Both precursor to cytochrome c1 and precursor to FeS accumulate in the soluble and particulate fractions obtained by digitonin treatment of tumor cells treated with Rhodamine 6G. Appearance of the mature peptides was abolished. The precursors are unstable, however, and disappear from the cytosolic and membrane fractions during a 10 min chase. Comparison of the effects of Rhodamine 6G and carbonylcyanide m-chlorophenylhydrazone on precursor processing shows that: (a) Rhodamine 6G is a more effective inhibitor of processing, (b) it has less of an inhibitory effect on cellular protein synthesis, and (c) it inhibits processing under conditions in which it appears to have little influence on coupled respiration in whole cells. The data suggest that the most likely mode of action of Rhodamine 6G is on the matrix processing step.

Published

1984

18. Topology of the peptides in free and membrane-bound complex III (ubiquinol--cytochrome c reductase) as revealed by lactoperoxidase and p-diazoniumbenzene [35S] sulfonate labelling.

Author

Gellerfors P and Nelson BD

Subjects

Animals, Cattle, Chemical Phenomena, Chemistry, Iodine Radioisotopes, Membranes enzymology, Mitochondria, Heart enzymology, Sulfur Radioisotopes, Cytochrome Reductases metabolism, Diazonium Compounds, Lactoperoxidase, Peptides analysis, Peroxidases, Ubiquinone metabolism

Published

1977