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Start Over Author "Peter Bohley" Topic cell biology
7 results on '"Peter Bohley"'

1. Cell-cycle-dependent regulation of ornithine decarboxylase activity in the unicellular green alga Chlamydomonas reinhardtii

Author

Peter Bohley and Jürgen Voigt

Subjects
genetic structures, Cell division, Cell growth, Physiology, fungi, Spermine, Chlamydomonas reinhardtii, Cell Biology, Plant Science, General Medicine, Cell cycle, Biology, biology.organism_classification, Ornithine decarboxylase, chemistry.chemical_compound, chemistry, Biochemistry, Putrescine, Genetics, Polyamine
Abstract

Polyamines play an important role in the control of cell growth and cell division. In the unicellular green alga Chlamydomonas reinhardtii as in animal cells, biosynthesis of the 3 commonly occurring polyamines (putrescine, spermidine and spermine) is dependent on the activity of ornithine decarboxylase (ODC, EC 4.1.1.17) catalyzing the formation of putrescine, which is the precursor of the other two polyamines. Therefore, we have investigated the regulation of ODC activity during the cell cycle of Clamydomonas reinhardtii using synchronized cultures. A 2.5-3-fold increase in ODC activity was observed during the transition to the cell division phase. This up-regulation of ODC activity was not due to an increased level of ODC-mRNA as revealed by northern-blot analyses, but correlated with an increased half-life of this particular enzyme (from 1.1 to 3.2 h). Addition of the DNA topoisomerase II inhibitor nalidixic acid during the second half of the growth period caused a transient decrease of ODC activity and a considerable delay of cell divisions. After cell division, a down-regulation of ODC activity was observed which was faster in the dark than in the light and also correlated with changes of the ODC half-life.

Published
2000

3. Proteases and proteolysis in the lysosome

Author

Per Ottar Seglen and Peter Bohley

Subjects
Pharmacology, Cathepsin, Mannose 6-phosphate receptor, medicine.diagnostic_test, Proteolysis, Proteins, Cell Biology, Protein degradation, Biology, Exopeptidase, Cathepsins, Endopeptidase, Cell biology, Cellular and Molecular Neuroscience, medicine.anatomical_structure, Endopeptidase activity, Biochemistry, Lysosome, Endopeptidases, medicine, biology.protein, Animals, Molecular Medicine, Lysosomes, Molecular Biology
Abstract

Proteins sequestered by a non-selective bulk process within the lysosomes turn over with an apparent half-life of about 8 minutes and this rapid lysosomal proteolysis is initiated by endopeptidases, in particular by the cathepsins D and L. We describe also the cathepsins B and H which show mainly exopeptidase and only low endopeptidase activity. Especially cathepsin H is most probably the only lysosomal aminopeptidase in many cell types. Additionally, the properties of other mammalian lysosomal endo- and exopeptidases are compared. Finally, we discuss some of the conditions for the action of lysosomal proteases as the low intralysosomal pH, the high part of lysosomal thiol groups and the absence of intralysosomal proteinase inhibitors.

Published
1992

4. The fates of proteins in cells

Author

Peter Bohley

Subjects
Signal peptide, Protein Folding, Chaperonins, Cells, Molecular Sequence Data, Protein Sorting Signals, Endoplasmic Reticulum, Cytosol, Lysosome, Large ribosomal subunit, Organelle, medicine, Protein biosynthesis, Animals, Humans, Amino Acid Sequence, Peptide sequence, Ecology, Evolution, Behavior and Systematics, Cell Nucleus, Organelles, Chemistry, Proteins, General Medicine, Cathepsins, Cell biology, Models, Structural, medicine.anatomical_structure, Proteasome, Protein Biosynthesis, Protein folding
Abstract

Nascent polypeptide chains are in a dangerous situation as soon as they leave their place of birth, the channel of the large ribosomal subunit: more than 20 different pathways for the degradation of proteins exist in cells. Chaperones protect and guide the young protein molecules and support their correct foldings. Targeting signals direct the proteins to the organelles of their destination. The lysosome is the site of random degradation, while the proteasome is highly selective. Although these two organelles provide the most important pathways for the degradation of long- and short-lived proteins, other pathways with roles in deciding the fate of cellular proteins must also be considered.

Published
1995

5. Nonselective autophagy of cytosolic enzymes by isolated rat hepatocytes

Author

Peter Bohley, Jürgen Kopitz, Per Ottar Seglen, Gunn T. Kisen, and Paul B. Gordon

Subjects
Leupeptins, Fructose-bisphosphate aldolase, Vacuole, In Vitro Techniques, Cell Fractionation, chemistry.chemical_compound, Serine dehydratase, Tyrosine aminotransferase, Cytosol, Electricity, Phagocytosis, Centrifugation, Density Gradient, Animals, chemistry.chemical_classification, biology, L-Lactate Dehydrogenase, Leupeptin, Aldolase A, Rats, Inbred Strains, Cell Biology, Articles, Enzyme assay, Rats, Kinetics, Enzyme, chemistry, Biochemistry, Liver, Vacuoles, biology.protein, Female, Lysosomes, Half-Life
Abstract

Seven cytosolic enzymes with varying half-lives (ornithine decarboxylase, 0.9 h; tyrosine aminotransferase, 3.1 h; tryptophan oxygenase, 3.3 h; serine dehydratase, 10.3 h; glucokinase, 12.7 h; lactate dehydrogenase, 17.0 h; aldolase, 17.4 h) were found to be autophagically sequestered at the same rate (3.5%/h) in isolated rat hepatocytes. Autophagy was measured as the accumulation of enzyme activity in the sedimentable organelles (mostly lysosomes) of electrodisrupted cells in the presence of the proteinase inhibitor leupeptin. Inhibitors of lysosomal fusion processes (vinblastine and asparagine) allowed accumulation of catalytically active enzyme (in prelysosomal vacuoles) even in the absence of proteolytic inhibition, showing that no inactivation step took place before lysosomal proteolysis. The completeness of protection by leupeptin indicates, furthermore, that a lysosomal cysteine proteinase is obligatorily required for the initial proteolytic attack upon autophagocytosed proteins. The experiments suggest that sequestration and degradation of normal cytosolic proteins by the autophagic-lysosomal pathway is a nonselective bulk process, and that nonautophagic mechanisms must be invoked to account for differential enzyme turnover.

Published
1990

6. Post-translational arginylation of ornithine decarboxylase from rat hepatocytes

Author

B Rist, Jürgen Kopitz, and Peter Bohley

Subjects
Male, Arginine, genetic structures, Arginyltransferase, Mice, Inbred Strains, RNA, Transfer, Arg, Biology, Kidney, Ornithine Decarboxylase, Biochemistry, Ornithine decarboxylase, chemistry.chemical_compound, Mice, Protein arginylation, medicine, Animals, Testosterone, Molecular Biology, Cells, Cultured, chemistry.chemical_classification, Leupeptin, Rats, Inbred Strains, Cell Biology, RNA, Transfer, Amino Acid-Specific, Molecular biology, Rats, Cytosol, Kinetics, Enzyme, medicine.anatomical_structure, chemistry, Liver, Hepatocyte, Protein Processing, Post-Translational, Half-Life, Research Article
Abstract

Ornithine decarboxylase (ODC) was purified 6500-fold from NMRI mouse kidneys under conditions designed to inhibit degradation by proteinases. The enzyme was homogeneous by SDS/polyacrylamide-gel electrophoresis, and the specific activity was among the highest reported. The yield was 70%. A monoclonal antibody against this preparation was generated and used in studies to investigate the half-life of ODC in cultured rat hepatocytes labelled with [35S]methionine. This value was 39 +/- 4 min and was unchanged when either NH4Cl (as a lysosomotropic agent) or leupeptin (as a lysosomal proteinase inhibitor) was added to the culture medium. Thus the intracellular turnover of ODC in cultured hepatocytes occurs mainly in extra-lysosomal compartments. Arginylation of rat ODC was investigated in vitro by incubation with L-[3H]arginyl-tRNA, and the incorporation of the label was compared with that of total cytosolic proteins. Arginylated ODC had a specific radioactivity 8600 times that of the bulk of cytosolic protein. Edman degradation of this ODC showed that the post-translational arginylation occurred only at the alpha-amino end of the enzyme. The inhibitor of arginyl-tRNA:protein arginyltransferase (EC 2.3.2.8), L-glutamyl-L-valyl-L-phenylalanine, increased the half-life of ODC in cultured hepatocytes from 39 min to more than 90 min. The possible significance of the preferential post-translational arginylation of ornithine decarboxylase to its rapid turnover is discussed.

Published
1990

7. Chapter 6 Intracellular proteolysis

Author

Peter Bohley

Subjects
chemistry.chemical_classification, medicine.diagnostic_test, Effector, Proteolysis, Cell, Biology, Cell biology, Amino acid, Metabolic pathway, medicine.anatomical_structure, Biochemistry, chemistry, medicine, Liberation, Energy source, Intracellular
Abstract

Publisher Summary Intracellular proteolysis is extensive and selective. It depends on the activity and the amount of proteinases and their inhibitors and on the conformation of the substrate proteins. It may be regulated by many effectors including substrates, cosubstrates, and products of these substrate proteins. Energy dependence and compartmentation are also important for the regulation of intracellular proteolysis. The expenditure of energy involved in this extensive turnover of cell proteins must be balanced by several metabolic advantages, such as the capacity to regulate metabolic pathways. In nongrowing organisms, intracellular proteolysis is necessary to adapt the protein composition to environmental changes. Consequently, one group of proteins can be replaced by another more appropriate group without extensive changes in the total amount of intracellular proteins. In addition, intracellular proteolysis allows a correction of errors in transcription or translation or in posttranslational events and it allows the liberation of amino acids as an energy source from superfluous protein molecules.

Published
1987

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