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3. Fanconi anaemia proteins: major roles in cell protection against oxidative damage

Author

Pagano G., Youssoufian H., Anak S. S., Brunk U. T., Calzone R., Clarke A. A., Degan P., Dunster C., Giudice A., Iaccarino M., Hirsch Kauffmann M., Kelly F. J., Lloret A., Malorni W., Manini P., Masella R., Nobili B., Pallardò F. V., Schweiger M., Vuttariello E., Youssoufian G., Zatterale A., D'ISCHIA, MARCO, Pagano, G., Youssoufian, H., Anak, S. S., Brunk, U. T., Calzone, R., Clarke, A. A., Degan, P., D'Ischia, M., Dunster, C., Giudice, A., Iaccarino, M., Hirsch-Kauffmann, M., Kelly, F. J., Lloret, A., Malorni, W., Manini, P., Masella, R., Nobili, B., Pallardò, F. V., Schweiger, M., Vuttariello, E., Youssoufian, G., Zatterale, A., D'Ischia, Marco, and Hirsch Kauffmann, M.

Subjects
congenital, hereditary, and neonatal diseases and abnormalities, Cytochrome, DNA Repair, DNA damage, DNA repair, Cell Cycle Proteins, Protein Serine-Threonine Kinases, medicine.disease_cause, Models, Biological, General Biochemistry, Genetics and Molecular Biology, chemistry.chemical_compound, FANCG, hemic and lymphatic diseases, Proto-Oncogene Proteins, FANCD2, medicine, oxidative stress, Humans, Fanconi Anemia Complementation Group G Protein, Glutathione Transferase, NADPH-Ferrihemoprotein Reductase, biology, Fanconi Anemia Complementation Group A Protein, Fanconi Anemia Complementation Group C Protein, nutritional and metabolic diseases, Nuclear Proteins, Proteins, Cytochrome P-450 CYP2E1, Glutathione, FANCA, Fanconi Anemia Complementation Group Proteins, Cell biology, DNA-Binding Proteins, Oxygen, Oxidative Stress, Cross-Linking Reagents, Fanconi Anemia, Biochemistry, chemistry, Mutation, biology.protein, Fanconi anaemia, Oxidation-Reduction, Proto-Oncogene Proteins c-akt, Oxidative stress, Protein Binding
Abstract

Fanconi anaemia (FA) is a cancer-prone genetic disorder that is characterised by cytogenetic instability and redox abnormalities. Although rare subtypes of FA (B, D1 and D2) have been implicated in DNA repair through links with BRCA1 and BRCA2, such a role has yet to be demonstrated for gene products of the common subtypes. Instead, these products have been strongly implicated in xenobiotic metabolism and redox homeostasis through interactions of FANCC with cytochrome P-450 reductase and with glutathione S-transferase, and of FANCG with cytochrome P-450 2E1, as well as redox-dependent signalling through an interaction between FANCA and Akt kinase. We hypothesise that FA proteins act directly (via FANCC and FANCG) and indirectly (via FANCA, BRCA2 and FANCD2) with the machinery of cellular defence to modulate oxidative stress. The latter interactions may co-ordinate the link between the response to DNA damage and oxidative stress parameters (3, 6-12).

Published
2003

4. Endosomal and lysosomal effects of desferrioxamine: protection of HeLa cells from hydrogen peroxide-induced DNA damage and induction of cell-cycle arrest

Author

Doulias, P. T., Christoforidis, S., Brunk, U. T., and Galaris, D.

Subjects
Time Factors, Cell Cycle/*drug effects/physiology, Cell Division/drug effects, DNA Damage/*drug effects/physiology, Hydrogen Peroxide/*adverse effects, rab5 GTP-Binding Proteins/genetics/metabolism, Dynamins/genetics/metabolism, Iron Chelating Agents/pharmacology, Deferoxamine/*pharmacology, Mutation, Humans, Endosomes/*drug effects, Iron/deficiency/metabolism, Lysosomes/*drug effects, HeLa Cells
Abstract

The role of endosomal/lysosomal redox-active iron in H2O2-induced nuclear DNA damage as well as in cell proliferation was examined using the iron chelator desferrioxamine (DFO). Transient transfections of HeLa cells with vectors encoding dominant proteins involved in the regulation of various routes of endocytosis (dynamin and Rab5) were used to show that DFO (a potent and rather specific iron chelator) enters cells by fluid-phase endocytosis and exerts its effects by chelating redox-active iron present in the endosomal/lysosomal compartment. Endocytosed DFO effectively protected cells against H2O2-induced DNA damage, indicating the importance of endosomal/lysosomal redox-active iron in these processes. Moreover, exposure of cells to DFO in a range of concentrations (0.1 to 100 microM) inhibited cell proliferation in a fluid-phase endocytosis-dependent manner. Flow cytometric analysis of cells exposed to 100 microM DFO for 24 h showed that the cell cycle was transiently interrupted at the G2/M phase, while treatment for 48 h led to permanent cell arrest. Collectively, the above results clearly indicate that DFO has to be endocytosed by the fluid-phase pathway to protect cells against H2O2-induced DNA damage. Moreover, chelation of iron in the endosomal/lysosomal cell compartment leads to cell cycle interruption, indicating that all cellular labile iron is propagated through this compartment before its anabolic use is possible. Free Radic Biol Med

Published
2003

5. The comparative biology of neuromelanin and lipofuscin in the human brain

Author

Double, K L, Dedov, V N, Fedorow, H, Kettle, E, Halliday, G, Garner, Brett, Brunk, U T, Double, K L, Dedov, V N, Fedorow, H, Kettle, E, Halliday, G, Garner, Brett, and Brunk, U T

Abstract

Neuromelanin and lipofuscin are two pigments produced within the human brain that, until recently, were considered inert cellular waste products of little interest to neuroscience. Recent research has increased our understanding of the nature and interactions of these pigments with their cellular environment and suggests that these pigments may, indeed, influence cellular function. The physical appearance and distribution of the pigments within the human brain differ, but both accumulate in the aging brain and the pigments share some structural features. Lipofuscin accumulation has been implicated in postmitotic cell aging, while neuromelanin is suggested to function as an iron-regulatory molecule with possible protective functions within the cells which produce this pigment. This review presents comparative aspects of the biology of neuromelanin and lipofuscin, as well as a discussion of their hypothesized functions in brain and their possible roles in aging and neurodegenerative disease. © 2008 Birkhaueser.

Published
2008

6. Necroptosis, necrosis and secondary necrosis converge on similar cellular disintegration features.

Author

Berghe, T. Vanden, Vanlangenakker, N., Parthoens, E., Deckers, W., Devos, M., Festjens, N., Guerin, C. J., Brunk, U. T., Declercq, W., and Vandenabeele, P.

Subjects
NECROSIS, APOPTOSIS, CELL death, TUMOR necrosis factors, PROTEIN kinases
Abstract

Necroptosis, necrosis and secondary necrosis following apoptosis represent different modes of cell death that eventually result in similar cellular morphology including rounding of the cell, cytoplasmic swelling, rupture of the plasma membrane and spilling of the intracellular content. Subcellular events during tumor necrosis factor (TNF)-induced necroptosis, H2O2-induced necrosis and anti-Fas-induced secondary necrosis were studied using high-resolution time-lapse microscopy. The cellular disintegration phase of the three types of necrosis is characterized by an identical sequence of subcellular events, including oxidative burst, mitochondrial membrane hyperpolarization, lysosomal membrane permeabilization and plasma membrane permeabilization, although with different kinetics. H2O2-induced necrosis starts immediately by lysosomal permeabilization. In contrast, during TNF-mediated necroptosis and anti-Fas-induced secondary necrosis, this is a late event preceded by a defined signaling phase. TNF-induced necroptosis depends on receptor-interacting protein-1 kinase, mitochondrial complex I and cytosolic phospholipase A2 activities, whereas H2O2-induced necrosis requires iron-dependent Fenton reactions. [ABSTRACT FROM AUTHOR]

Published
2010
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12. Effect of ambient oxygen concentration on lipofuscin accumulation in cultured rat heart myocytes--a novel in vitro model of lipofuscinogenesis

Author

Sohal, R. S., Marzabadi, M. R., Galaris, D., and Brunk, U. T.

Subjects
Male, Pigments, Biological/*metabolism, Rats, Inbred Strains, Fluorescence, Heart/drug effects, Oxygen/*pharmacology, Rats, Microscopy, Electron, Spectrometry, Fluorescence, Organelles/metabolism, Animals, Female, Oxidation-Reduction, Cells, Cultured, Lipofuscin/*metabolism, Myocardium/*metabolism/ultrastructure
Abstract

The objective of this study was to elucidate the factors involved in the accumulation of lipofuscin in post-mitotic cells. The hypothesis that oxidative stress accelerates the rate of lipofuscin accumulation was tested by examining the effects of 5%, 20%, and 40% ambient oxygen concentration on lipofuscin content in cultured rat cardiac myocytes. Lipofuscin was quantified by microspectrofluorometry at 7 and 12 days of in vitro age. Lipofuscin-emitted yellow autofluorescence increased in direct relationship to ambient oxygen concentration with age. Transmission electron microscopic examination of the cells after 3, 8, and 12 days in culture indicated a progressive time and oxygen dependent increase in the frequency and size of lipofuscin organelles. The results are interpreted to suggest that oxidative stress is one of the causal factors in the accumulation of lipofuscin. Free Radic Biol Med

Published
1989

13. Necroptosis, necrosis and secondary necrosis converge on similar cellular disintegration features.

Author

Vanden Berghe T, Vanlangenakker N, Parthoens E, Deckers W, Devos M, Festjens N, Guerin CJ, Brunk UT, Declercq W, and Vandenabeele P

Subjects
Animals, Cell Line, Tumor, Cell Membrane Permeability, Electron Transport Complex I metabolism, Hydrogen Peroxide toxicity, Iron metabolism, Lysosomes metabolism, Membrane Potential, Mitochondrial, Mice, Necrosis chemically induced, Necrosis enzymology, Phospholipases A2, Cytosolic metabolism, Reactive Oxygen Species metabolism, Receptor-Interacting Protein Serine-Threonine Kinases metabolism, Tumor Necrosis Factor-alpha toxicity, Necrosis metabolism
Abstract

Necroptosis, necrosis and secondary necrosis following apoptosis represent different modes of cell death that eventually result in similar cellular morphology including rounding of the cell, cytoplasmic swelling, rupture of the plasma membrane and spilling of the intracellular content. Subcellular events during tumor necrosis factor (TNF)-induced necroptosis, H(2)O(2)-induced necrosis and anti-Fas-induced secondary necrosis were studied using high-resolution time-lapse microscopy. The cellular disintegration phase of the three types of necrosis is characterized by an identical sequence of subcellular events, including oxidative burst, mitochondrial membrane hyperpolarization, lysosomal membrane permeabilization and plasma membrane permeabilization, although with different kinetics. H(2)O(2)-induced necrosis starts immediately by lysosomal permeabilization. In contrast, during TNF-mediated necroptosis and anti-Fas-induced secondary necrosis, this is a late event preceded by a defined signaling phase. TNF-induced necroptosis depends on receptor-interacting protein-1 kinase, mitochondrial complex I and cytosolic phospholipase A(2) activities, whereas H(2)O(2)-induced necrosis requires iron-dependent Fenton reactions.

Published
2010
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14. Sphingosine-induced apoptosis is dependent on lysosomal proteases.

Author

Kågedal K, Zhao M, Svensson I, and Brunk UT

Subjects
Animals, Aspartic Acid Endopeptidases antagonists & inhibitors, Caspases metabolism, Cell Line, Cell Membrane drug effects, Cysteine Proteinase Inhibitors pharmacology, Dose-Response Relationship, Drug, Enzyme Activation drug effects, Humans, Jurkat Cells, Membrane Potentials drug effects, Mice, Mitochondria drug effects, Necrosis, Phosphatidylserines metabolism, Sphingosine administration & dosage, Sphingosine physiology, Apoptosis drug effects, Apoptosis physiology, Endopeptidases physiology, Lysosomes drug effects, Lysosomes enzymology, Sphingosine pharmacology
Abstract

We propose a new mechanism for sphingosine-induced apoptosis, involving relocation of lysosomal hydrolases to the cytosol. Owing to its lysosomotropic properties, sphingosine, which is also a detergent, especially when protonated, accumulates by proton trapping within the acidic vacuolar apparatus, where most of its action as a detergent would be exerted. When sphingosine was added in low-to-moderate concentrations to Jurkat and J774 cells, partial lysosomal rupture occurred dose-dependently, starting within a few minutes. This phenomenon preceded caspase activation, as well as changes of mitochondrial membrane potential. High sphingosine doses rapidly caused extensive lysosomal rupture and ensuing necrosis, without antecedent apoptosis or caspase activation. The sphingosine effect was prevented by pre-treatment with another, non-toxic, lysosomotropic base, ammonium chloride, at 10 mM. The lysosomal protease inhibitors, pepstatin A and epoxysuccinyl-L-leucylamido-3-methyl-butane ethyl ester ('E-64d'), inhibited markedly sphingosine-induced caspase activity to almost the same degree as the general caspase inhibitor benzyloxycarbonyl-Val-Ala-DL-Asp-fluoromethylketone ('Z-VAD-FMK'), although they did not by themselves inhibit caspases. We conclude that cathepsin D and one or more cysteine proteases, such as cathepsins B or L, are important mediators of sphingosine-induced apoptosis, working upstream of the caspase cascade and mitochondrial membrane-potential changes.

Published
2001
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15. Apoptosis induced by exposure to a low steady-state concentration of H2O2 is a consequence of lysosomal rupture.

Author

Antunes F, Cadenas E, and Brunk UT

Subjects
Apoptosis physiology, Dose-Response Relationship, Drug, Humans, Hydrogen Peroxide administration & dosage, Jurkat Cells, Lysosomes metabolism, Mitochondria drug effects, Mitochondria metabolism, Models, Biological, Oxidative Stress drug effects, Time Factors, Apoptosis drug effects, Hydrogen Peroxide toxicity, Lysosomes drug effects
Abstract

We have re-examined the lysosomal hypothesis of oxidative-stress-induced apoptosis using a new technique for exposing cells in culture to a low steady-state concentration of H(2)O(2). This steady-state technique mimics the situation in vivo better than the bolus-administration method. A key aspect of H(2)O(2)-induced apoptosis is that the apoptosis is evident only after several hours, although cells may become committed within a few minutes of exposure to this particular reactive oxygen species. In the present work, we were able to show, for the first time, several correlative links between the triggering effect of H(2)O(2) and the later onset of apoptosis: (i) a short (15 min) exposure to H(2)O(2) caused almost immediate, albeit limited, lysosomal rupture; (ii) early lysosomal damage, and later apoptosis, showed a similar dose-related response to H(2)O(2); (iii) both events were inhibited by pre-treatment with iron chelators, including desferrioxamine. This compound is known to be taken up by endocytosis only and thus to become localized in the lysosomal compartment. After exposure to oxidative stress, when cells were again in standard culture conditions, a time-dependent continuous increase in lysosomal rupture was observed, resulting in a considerably lowered number of intact lysosomes in apoptotic cells, whereas non-apoptotic cells from the same batch of oxidative-stress-exposed cells showed mainly intact lysosomes. Taken together, our results reinforce earlier findings and strongly suggest that lysosomal rupture is an early upstream initiating event, and a consequence of intralysosomal iron-catalysed oxidative processes, when apoptosis is induced by oxidative stress.

Published
2001
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16. Is lipofuscin eliminated from cells?

Author

Terman A and Brunk UT

Subjects
Fibroblasts drug effects, Fibroblasts metabolism, Heart drug effects, Humans, Inclusion Bodies metabolism, Leupeptins pharmacology, Myocardium metabolism, Lipofuscin metabolism, Pigment Epithelium of Eye metabolism
Published
1999

17. alpha-tocopheryl succinate-induced apoptosis in Jurkat T cells involves caspase-3 activation, and both lysosomal and mitochondrial destabilisation.

Author

Neuzil J, Svensson I, Weber T, Weber C, and Brunk UT

Subjects
Caspase 3, Enzyme Activation, Humans, Jurkat Cells, Lysosomes, Mitochondria physiology, Tocopherols, Vitamin E metabolism, Vitamin E pharmacology, Apoptosis drug effects, Caspases metabolism, Vitamin E analogs & derivatives
Abstract

Alpha-Tocopheryl succinate (alpha-TOS), but not a-tocopherol, triggered apoptosis in Jurkat T cells. Apoptosis was induced by alpha-TOS in a time- and concentration-dependent mode, and signs of apoptosis were visible at concentrations of alpha-TOS as low as 30 microM, and within 3-5 h after addition of the ester. Employing a specific fluorogenic substrate, caspase-3 was found to be activated rapidly in response to alpha-TOS at 50 microM. We also found that Jurkat T cells challenged with alpha-TOS, when exposed to the lysosomotropic weak base acridine orange, showed decreased lysosomal uptake of the dye. This is suggestive of the involvement of lysosomal destabilisation in apoptosis of the cells. Apoptosis of Jurkat T cells induced with alpha-TOS also involved a drop in the mitochondrial membrane potential, although this phenomenon occurred after the initiation of lysosomal rupture. All apoptotic features observed with alpha-TOS were very similar to those found when cross-linking of the Fas receptor triggered apoptosis. These findings are consistent with the recent idea that vitamin E can contribute to elimination of malignant cells by the induction of apoptosis, and can be of (patho)physiological significance.

Published
1999
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18. Uptake of oxidized LDL by macrophages results in partial lysosomal enzyme inactivation and relocation.

Author

Li W, Yuan XM, Olsson AG, and Brunk UT

Subjects
Acridine Orange, Animals, Biological Transport physiology, Cell Line, Electrophoresis, Agar Gel, Enzyme Activation physiology, Enzymes metabolism, Humans, Lipoproteins, HDL pharmacology, Lipoproteins, LDL antagonists & inhibitors, Lipoproteins, LDL pharmacology, Lysosomes drug effects, Mice, Tissue Distribution, Vitamin E pharmacology, Lipoproteins, LDL pharmacokinetics, Lysosomes enzymology, Macrophages metabolism
Abstract

The cytotoxicity of oxidized LDL (oxLDL) to several types of artery wall cells might contribute to atherosclerosis by causing cell death, presumably by both apoptosis and necrosis. After its uptake into macrophage lysosomes by receptor-mediated endocytosis, oxLDL is poorly degraded, resulting in ceroid-containing foam cells. We studied the influence ofoxLDL on lysosomal enzyme activity and, in particular, on lysosomal membrane stability and the modulation of these cellular characteristics by HDL and vitamin E (vit-E). Unexposed cells and cells exposed to acetylated LDL (AcLDL) were used as controls. The lysosomal marker enzymes cathepsin L and N-acetyl-beta-glucosaminidase (NAbetaGase) were biochemically assayed in J-774 cells after fractionation. Lysosomal integrity in living cells was assayed by the acridine orange (AO) relocation test. Cathepsin D was immunocytochemically demonstrated in J-774 cells and human monocyte-derived macrophages. We found that the total activities of NAbetaGase and cathepsin L were significantly decreased, whereas their relative cytosolic activities were enhanced, after oxLDL exposure. Labilization of the lysosomal membranes was further proven by decreased lysosomal AO uptake and relocation to the cytosol of cathepsin D, as estimated by light and electron microscopic immunocytochemistry. HDL and vit-E diminished the cytotoxicity of oxLDL by decreasing the lysosomal damage. The results indicate that endocytosed oxLDL not only partially inactivates lysosomal enzymes but also destabilizes the acidic vacuolar compartment, causing relocation of lysosomal enzymes to the cytosol. Exposure to AcLDL resulted in its uptake with enlargement of the lysosomal apparatus, but the stability of the lysosomal membranes was not changed.

Published
1998
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19. Effects of iron- and hemoglobin-loaded human monocyte-derived macrophages on oxidation and uptake of LDL.

Author

Yuan XM, Brunk UT, and Olsson AG

Subjects
Cell Survival, Culture Media, Culture Media, Conditioned, Electrophoresis, Agar Gel, Exocytosis, Humans, Kinetics, Lipid Metabolism, Lipofuscin metabolism, Lysosomes metabolism, Oxidation-Reduction, Superoxides metabolism, Thiobarbituric Acid Reactive Substances metabolism, Hemoglobins metabolism, Iron metabolism, Lipoproteins, LDL metabolism, Macrophages metabolism
Abstract

It is generally accepted that transition metals are required for cellular LDL oxidation. LDL may also be oxidized by iron and reducing agents in cell-free systems. We hypothesized that lysosomal iron may be exocytosed from macrophages that have been iron loaded by phagocytosis and degradation of iron-rich structures, eg, erythrocytes, and that such released iron may promote LDL oxidation and uptake by macrophages. Human monocyte-derived macrophages (HMDMs) were isolated and cultured for 7 days and then exposed to FeCl3, Fe-ADP, or Fe-EDTA (100 mumol/L) or hemoglobin (25 or 50 micrograms/mL) for 24 hours. After rinsing, LDL (50 to 150 micrograms/mL) was added in fresh culture medium without serum. After another 24 hours the media concentrations of iron and thiobarbituric acid-reacting substances as well as the electrophoretic mobility of LDL were increased, while the cells showed only minimal signs of decreased viability. Lipofuscin, neutral lipids, and phospholipids accumulated in a granular, lysosome-like pattern, and the cells acquired a foam cell-like morphology. There was a strong correlation (r = .87, P = .005) between the amount of iron added during the pre-exposure period and lipofuscin accumulation during the ensuing exposure to LDL in fresh, serum-free medium. Our results support our hypothesis and indicate that lysosomal iron may be exocytosed from HMDMs and promote oxidation and uptake of LDL and thus induce foam cell formation.

Published
1995
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