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ABSTRACT: SCOPE: Rotenone is a toxicant believed to contribute to the development of Parkinson's disease. METHODS AND RESULTS: Using human peripheral blood lymphocytes we demonstrated that exposure to rotenone resulted in disruption of electron transport accompanied by the production of reactive oxygen species, development of apoptosis and elevation of peroxidase activity of mitochondria. Employing LC/MS-based lipidomics/oxidative lipidomics we characterized molecular species of cardiolipin (CL) and its oxidation/hydrolysis products formed early in apoptosis and associated with the rotenone-induced mitochondrial dysfunction. CONCLUSION: The major oxidized CL species - tetra-linoleoyl-CL - underwent oxidation to yield epoxy-C18:2 and dihydroxy-C18:2 derivatives predominantly localized in sn-1 and sn-2 positions, respectively. In addition, accumulation of mono-lyso-CL species and oxygenated free C18:2 were detected in rotenone-treated lymphocytes. These oxidation/hydrolysis products may be useful for the development of new biomarkers of mitochondrial dysfunction.
Molecular Nutrition & Food Research 05/2013; · 4.30 Impact Factor
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ABSTRACT: Ca2+-independent lipoprotein-associated phospholipase A2 (Lp-PLA2) is a member of the phospholipase A2 superfamily with a distinguishing characteristic of high specificity for oxidatively modified sn-2 fatty acid residues in phospholipids which has been especially well characterized for peroxidized species of phosphatidylcholines (PC). The ability of Lp-PLA2 to hydrolyze peroxidized species of phosphatidylserine (PS) - acting as a recognition signal for clearance of apoptotic cells by professional phagocytes - as well as the products of the reaction have not been investigated. We performed LC-MS-ESI-based structural characterization of oxygenated/hydrolyzed molecular species of PS - containing linoleic acid in either sn-2 position (C18:0/C18:2) or in both sn-1 and sn-2 positions (C18:2/C18:2) - formed in cytochrome c/ H2O2 driven enzymatic oxidation reaction. Cytochrome c has been chosen as a catalyst of peroxidation reactions due to its likely involvement in PS oxidation in apoptotic cells. We found that Lp-PLA2 catalyzed the hydrolysis of both non-truncated and truncated (oxidatively fragmented) species of oxidized PS species albeit with different efficiencies and performed detailed characterization of the major reaction products - oxygenated derivatives of linoleic acid as well as non-oxygenated and oxygenated species of lyso-PS. Among linoleic acid products, derivatives oxygenated at the C9 position, including 9-hydroxyoctadecadienoic acid (9-HODE) - a potent ligand of G protein- coupled receptor G2A - were the most abundant. Computer modeling of interactions of Lp-PLA2 with different PS oxidized species indicated that they are able to bind in proximity (<5Å) to Ser273 and His351 of the catalytic triad. For 9-hydroxy- and 9-hydroperoxy- derivatives of oxidized PS, the sn-2 ester bond was positioned within the very close proximity (<3Å) from the Ser273 residue - a nucleophile directly attacking the sn-2 bond - thus favoring the hydrolysis reaction. We suggest that oxidatively modified free fatty acids and lyso-PS species generated by Lp-PLA2 may represent important signals facilitating and regulating execution of apoptotic and phagocytosis programs essential for control of inflammation.
Biochemistry 11/2012; · 3.42 Impact Factor
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Jing Ji,
Anthony E Kline,
Andrew Amoscato,
Alejandro K Samhan-Arias,
Louis J Sparvero, Vladimir A Tyurin,
Yulia Y Tyurina,
Bruno Fink,
Mioara D Manole,
Ava M Puccio,
David O Okonkwo,
Jeffrey P Cheng,
Henry Alexander,
Robert S B Clark,
Patrick M Kochanek,
Peter Wipf,
Valerian E Kagan,
Hülya Bayır
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ABSTRACT: The brain contains a highly diversified complement of molecular species of a mitochondria-specific phospholipid, cardiolipin, which, because of its polyunsaturation, can readily undergo oxygenation. Using global lipidomics analysis in experimental traumatic brain injury (TBI), we found that TBI was accompanied by oxidative consumption of polyunsaturated cardiolipin and the accumulation of more than 150 new oxygenated molecular species of cardiolipin. RNAi-based manipulations of cardiolipin synthase and cardiolipin levels conferred resistance to mechanical stretch, an in vitro model of traumatic neuronal injury, in primary rat cortical neurons. By applying a brain-permeable mitochondria-targeted electron scavenger, we prevented cardiolipin oxidation in the brain, achieved a substantial reduction in neuronal death both in vitro and in vivo, and markedly reduced behavioral deficits and cortical lesion volume. We conclude that cardiolipin oxygenation generates neuronal death signals and that prevention of it by mitochondria-targeted small molecule inhibitors represents a new target for neuro-drug discovery.
Nature Neuroscience 08/2012; 15(10):1407-13. · 15.53 Impact Factor
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ABSTRACT: Peroxidation of cardiolipin in mitochondria is essential for the execution of apoptosis. We suggested that integration of oleic acid into cardiolipin generates non-oxidizable cardiolipin species hence protects cells against apoptosis. We synthesized mitochondria-targeted triphenylphosphonium oleic acid ester. Using lipidomics analysis we found that pretreatment of mouse embryonic cells with triphenylphosphonium oleic acid ester resulted in decreased contents of polyunsaturated cardiolipins and elevation of its species containing oleic acid residues. This caused suppression of apoptosis induced by actinomycin D. Triacsin C, an inhibitor of acyl-CoA synthase, blocked integration of oleic acid into cardiolipin and restored cell sensitivity to apoptosis.
FEBS letters 12/2011; 586(3):235-41. · 3.54 Impact Factor
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ABSTRACT: Dendritic cells are the most potent antigen presenting cells responsible for the development of immune responses in cancer. However, it is known that the function of dendritic cells in tumor-bearing hosts is severely compromised. Our previous studies demonstrated that the defects in dendritic cell function are due, to a large extent, to the accumulation of high amounts of lipids--predominantly triglycerides--in a substantial proportion of dendritic cells in tumor-bearing mice and patients with cancer. The dendritic cells accumulation of lipids is likely associated with their up-regulation of a scavenger receptor A. This receptor is primarily responsible for uptake of modified lipids. Here, by using different versions of liquid chromatography-mass spectrometry, we identified several molecular species of oxygenated lipids in plasma of tumor-bearing animals that may be responsible for their uptake and accumulation by dendritic cells via scavenger receptor A-dependent pathway--the effect that may be associated with the loss of dendritic cell's immune surveillance function in cancer.
Biochemical and Biophysical Research Communications 08/2011; 413(1):149-53. · 2.48 Impact Factor
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Yulia Y Tyurina,
Elena R Kisin,
Ashley Murray, Vladimir A Tyurin,
Valentina I Kapralova,
Louis J Sparvero,
Andrew A Amoscato,
Alejandro K Samhan-Arias,
Linda Swedin,
Riitta Lahesmaa,
Bengt Fadeel,
Anna A Shvedova,
Valerian E Kagan
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ABSTRACT: It is commonly believed that nanomaterials cause nonspecific oxidative damage. Our mass spectrometry-based oxidative lipidomics analysis of all major phospholipid classes revealed highly selective patterns of pulmonary peroxidation after inhalation exposure of mice to single-walled carbon nanotubes. No oxidized molecular species were found in the two most abundant phospholipid classes: phosphatidylcholine and phosphatidylethanolamine. Peroxidation products were identified in three relatively minor classes of anionic phospholipids, cardiolipin, phosphatidylserine, and phosphatidylinositol, whereby oxygenation of polyunsaturated fatty acid residues also showed unusual substrate specificity. This nonrandom peroxidation coincided with the accumulation of apoptotic cells in the lung. A similar selective phospholipid peroxidation profile was detected upon incubation of a mixture of total lung lipids with H(2)O(2)/cytochrome c known to catalyze cardiolipin and phosphatidylserine peroxidation in apoptotic cells. The characterized specific phospholipid peroxidation signaling pathways indicate new approaches to the development of mitochondria-targeted regulators of cardiolipin peroxidation to protect against deleterious effects of pro-apoptotic effects of single-walled carbon nanotubes in the lung.
ACS Nano 08/2011; 5(9):7342-53. · 10.77 Impact Factor
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ABSTRACT: Oxidative damage plays a significant role in the pathogenesis of γ-radiation-induced lung injury. Endothelium is a preferred target for early radiation-induced damage and apoptosis. Given the newly discovered role of oxidized phospholipids in apoptotic signaling, we performed oxidative lipidomics analysis of phospholipids in irradiated mouse lungs and cultured mouse lung endothelial cells. C57BL/6NHsd female mice were subjected to total-body irradiation (10 Gy, 15 Gy) and euthanized 24 h thereafter. Mouse lung endothelial cells were analyzed 48 h after γ irradiation (15 Gy). We found that radiation-induced apoptosis in vivo and in vitro was accompanied by non-random oxidation of phospholipids. Cardiolipin and phosphatidylserine were the major oxidized phospholipids, while more abundant phospholipids (phosphatidylcholine, phosphatidylethanolamine) remained non-oxidized. Electrospray ionization mass spectrometry analysis revealed the formation of cardiolipin and phosphatidylserine oxygenated molecular species in the irradiated lung and cells. Analysis of fatty acids after hydrolysis of cardiolipin and phosphatidylserine by phospholipase A(2) revealed the presence of mono-hydroperoxy and/or mono-hydroxy/mono-epoxy, mono-hydroperoxy/mono-oxo molecular species of linoleic acid. We speculate that cyt c-driven oxidations of cardiolipin and phosphatidylserine associated with the execution of apoptosis in pulmonary endothelial cells are important contributors to endothelium dysfunction in γ-radiation-induced lung injury.
Radiation Research 02/2011; 175(5):610-21. · 2.68 Impact Factor
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Jeffrey Atkinson,
Alexandr A Kapralov,
Naveena Yanamala,
Yulia Y Tyurina,
Andrew A Amoscato,
Linda Pearce,
Jim Peterson,
Zhentai Huang,
Jianfei Jiang,
Alejandro K Samhan-Arias, [......],
Jackie Fletcher,
Yongsheng Wang,
Irina I Vlasova,
Judith Klein-Seetharaman,
Detcho A Stoyanovsky,
Hülya Bayîr,
Bruce R Pitt,
Michael W Epperly,
Joel S Greenberger,
Valerian E Kagan
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ABSTRACT: The risk of radionuclide release in terrorist acts or exposure of healthy tissue during radiotherapy demand potent radioprotectants/radiomitigators. Ionizing radiation induces cell death by initiating the selective peroxidation of cardiolipin in mitochondria by the peroxidase activity of its complex with cytochrome c leading to release of haemoprotein into the cytosol and commitment to the apoptotic program. Here we design and synthesize mitochondria-targeted triphenylphosphonium-conjugated imidazole-substituted oleic and stearic acids that blocked peroxidase activity of cytochrome c/cardiolipin complex by specifically binding to its haem-iron. We show that both compounds inhibit pro-apoptotic oxidative events, suppress cyt c release, prevent cell death, and protect mice against lethal doses of irradiation. Significant radioprotective/radiomitigative effects of imidazole-substituted oleic acid are observed after pretreatment of mice from 1 h before through 24 h after the irradiation.
Nature Communications 01/2011; 2:497. · 7.40 Impact Factor
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Donna L Herber,
Wei Cao,
Yulia Nefedova,
Sergey V Novitskiy,
Srinivas Nagaraj, Vladimir A Tyurin,
Alex Corzo,
Hyun-Il Cho,
Esteban Celis,
Brianna Lennox,
Stella C Knight,
Tapan Padhya,
Thomas V McCaffrey,
Judith C McCaffrey,
Scott Antonia,
Mayer Fishman,
Robert L Ferris,
Valerian E Kagan,
Dmitry I Gabrilovich
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ABSTRACT: Dendritic cells (DCs), a type of professional antigen-presenting cells, are responsible for initiation and maintenance of immune responses. Here we report that a substantial proportion of DCs in tumor-bearing mice and people with cancer have high amounts of triglycerides as compared with DCs from tumor-free mice and healthy individuals. In our studies, lipid accumulation in DCs was caused by increased uptake of extracellular lipids due to upregulation of scavenger receptor A. DCs with high lipid content were not able to effectively stimulate allogeneic T cells or present tumor-associated antigens. DCs with high and normal lipid levels did not differ in expression of major histocompatibility complex and co-stimulatory molecules. However, lipid-laden DCs had a reduced capacity to process antigens. Pharmacological normalization of lipid abundance in DCs with an inhibitor of acetyl-CoA carboxylase restored the functional activity of DCs and substantially enhanced the effects of cancer vaccines. These findings suggest that immune responses in cancer can be improved by manipulating the lipid levels in DCs.
Nature medicine 08/2010; 16(8):880-6. · 27.14 Impact Factor
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Yulia Y Tyurina, Vladimir A Tyurin,
A Murat Kaynar,
Valentyna I Kapralova,
Karla Wasserloos,
Jin Li,
Mackenzie Mosher,
Lindsay Wright,
Peter Wipf,
Simon Watkins,
Bruce R Pitt,
Valerian E Kagan
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ABSTRACT: Reactive oxygen species have been shown to play a significant role in hyperoxia-induced acute lung injury, in part, by inducing apoptosis of pulmonary endothelium. However, the signaling roles of phospholipid oxidation products in pulmonary endothelial apoptosis have not been studied. Using an oxidative lipidomics approach, we identified individual molecular species of phospholipids involved in the apoptosis-associated peroxidation process in a hyperoxic lung. C57BL/6 mice were killed 72 h after exposure to hyperoxia (100% oxygen). We found that hyperoxia-induced apoptosis (documented by activation of caspase-3 and -7 and histochemical terminal deoxynucleotidyl transferase dUTP-mediated nick-end labeling staining of pulmonary endothelium) was accompanied by nonrandom oxidation of pulmonary lipids. Two anionic phospholipids, mitochondria-specific cardiolipin (CL) and extramitochondrial phosphatidylserine (PS), were the two major oxidized phospholipids in hyperoxic lung. Using electrospray ionization mass spectrometry, we identified several oxygenation products in CL and PS. Quantitative assessments revealed a significant decrease of CL and PS molecular species containing C(18:2), C(20:4), C(22:5), and C(22:6) fatty acids. Similarly, exposure of mouse pulmonary endothelial cells (MLEC) to hyperoxia (95% oxygen; 72 h) resulted in activation of caspase-3 and -7 and significantly decreased the content of CL molecular species containing C(18:2) and C(20:4) as well as PS molecular species containing C(22:5) and C(22:6). Oxygenated molecular species were found in the same two anionic phospholipids, CL and PS, in MLEC exposed to hyperoxia. Treatment of MLEC with a mitochondria-targeted radical scavenger, a conjugate of hemi-gramicidin S with nitroxide, XJB-5-131, resulted in significantly lower oxidation of both CL and PS and a decrease in hyperoxia-induced changes in caspase-3 and -7 activation. We speculate that cytochrome c driven oxidation of CL and PS is associated with the signaling role of these oxygenated species participating in the execution of apoptosis and clearance of pulmonary endothelial cells, thus contributing to hyperoxic lung injury.
AJP Lung Cellular and Molecular Physiology 04/2010; 299(1):L73-85. · 3.66 Impact Factor
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Wenjin Li,
Shasha Wu,
Muzamil Ahmad,
Jianfei Jiang,
Hao Liu,
Tetsuya Nagayama,
Marie E Rose, Vladimir A Tyurin,
Yulia Y Tyurina,
Grigory G Borisenko,
Natalia Belikova,
Jun Chen,
Valerian E Kagan,
Steven H Graham
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ABSTRACT: Cyclooxygenase-2 (COX-2) activity has been implicated in the pathogenesis of ischemic injury, but the exact mechanisms responsible for its toxicity remain unclear. Infection of primary neurons with an adenovirus expressing wild type (WT) COX-2 increased the susceptibility of neurons to hypoxia. Infection with an adenoviral vector expressing COX-2 with a mutation at the cyclooxygenase site did not increase susceptibility to hypoxia, whereas over-expression of COX-2 with a mutation in the peroxidase site produced similar susceptibility to hypoxia as WT COX-2. Primary neuronal cultures obtained from transgenic mice bearing a mutation in the COX-2 cylooxygenase site were protected from hypoxia. Mice with a mutation in the cyclooxygenase site had smaller infarctions 24 h after 70 min of middle cerebral artery occlusion than WT control mice. COX-2 activity had no effect on the formation of protein carbonyls. Ascorbate radicals were detected by electron paramagnetic resonance as a product of recombinant COX-2 activity and were blocked by COX-2 inhibitors. Similarly, formation of ascorbate radicals was inhibited in the presence of COX-2 inhibitors and in homogenates obtained from COX-2 null mice. Taken together, these results indicate that the cyclooxygenase activity of COX-2 is necessary to exacerbate neuronal hypoxia/ischemia injury rather than the peroxidase activity of the enzyme.
Journal of Neurochemistry 03/2010; 113(4):965-77. · 4.06 Impact Factor
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Vladimir A Tyurin,
Yulia Y Tyurina,
Vladimir B Ritov,
Andriy Lysytsya,
Andrew A Amoscato,
Patrick M Kochanek,
Ronald Hamilton,
Steven T Dekosky,
Joel S Greenberger,
Hülya Bayir,
Valerian E Kagan
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ABSTRACT: Oxidized phospholipids play essential roles in execution of mitochondrial stage of apoptosis and clearance of apoptotic cells. The identification and quantification of oxidized phospholipids generated during apoptosis can be successfully achieved by oxidative lipidomics. With this approach, diverse molecular species of phospholipids and their hydroperoxides are identified and characterized by soft-ionization mass-spectrometry techniques such as electrospray ionization (ESI). Quantitative assessment of lipid hydroperoxides is performed by fluorescence HPLC-based protocol. The protocol is based on separation of phospholipids using two-dimensional-high-performance thin-layer chromatography (2-D-HPTLC). Phospholipids are hydrolyzed using phospholipase A(2). The fatty acid hydroperoxides (FA-OOH) released is quantified by a fluorometric assay using Amplex red reagent and microperoxidase-11 (MP-11). Detection limit of this protocol is 1-2 pmol of lipid hydroperoxides. Lipid arrays vs. oxidized lipid arrays can be performed by comparing the abundance of phospholipids with the abundance of oxidized phospholipids. Using oxidative lipidomics approach we show that the pattern of phospholipid oxidation during apoptosis is nonrandom and does not follow their abundance in several types of cells undergoing apoptosis and a variety of disease states. This has important implications for evaluation of apoptosis in vivo. The anionic phospholipids, cardiolipin (CL) and phosphatidylserine (PS), are the preferred peroxidation substrates.
Methods in molecular biology (Clifton, N.J.) 01/2010; 610:353-74.
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Alexandr Kapralov,
Irina I Vlasova,
Weihong Feng,
Akihiro Maeda,
Karen Walson, Vladimir A Tyurin,
Zhentai Huang,
Rajesh K Aneja,
Joseph Carcillo,
Hülya Bayir,
Valerian E Kagan
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ABSTRACT: As a hemoprotein, hemoglobin (Hb) can, in the presence of H(2)O(2), act as a peroxidase. In red blood cells, this activity is regulated by the reducing environment. For stroma-free Hb this regulation is lost, and the potential for Hb to become a peroxidase is high and further increased by inflammatory cells generating superoxide. The latter can be converted into H(2)O(2) and feed Hb peroxidase activity. Haptoglobins (Hp) bind with extracellular Hb and reportedly weaken Hb peroxidase activity. Here we demonstrate that: (i) Hb peroxidase activity is retained upon binding with Hp; (ii) in the presence of H(2)O(2), Hb-Hp peroxidase complexes undergo covalent cross-linking; (iii) peroxidase activity of Hb-Hp complexes and aggregates consumes reductants such as ascorbate and nitric oxide; (iv) cross-linked Hb-Hp aggregates are taken up by macrophages at rates exceeding those for noncovalently cross-linked Hb-Hp complexes; (v) the engulfed Hb-Hp aggregates activate superoxide production and induce intracellular oxidative stress (deplete endogenous glutathione and stimulate lipid peroxidation); (vi) Hb-Hp aggregates cause cytotoxicity to macrophages; and (vii) Hb-Hp aggregates are present in septic plasma. Overall, our data suggest that under conditions of severe inflammation and oxidative stress, peroxidase activity of Hb-Hp covalent aggregates may cause macrophage dysfunction and microvascular vasoconstriction, which are commonly seen in severe sepsis and hemolytic diseases.
Journal of Biological Chemistry 10/2009; 284(44):30395-407. · 4.77 Impact Factor
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ABSTRACT: Objective. To test the hypothesis that enhanced oxidative stress during pregnancies complicated by preeclampsia is associated with improper copper (Cu) binding by plasma albumin, resulting in enhanced Cu redox-cycling activity and that altered Cu binding, in turn, is caused by interactions of excessive amounts of free fatty acids with albumin. Study Design. We studied binding and redox-cycling activity of Cu in 17 normal pregnancy and 17 preeclampsia plasma samples. Binding of exogenous Cu in plasma samples was quantified indirectly using spectrophotometric measurements of its complex with a specific chelator of Cu(I), bathocuproine disulfonate. Redox-cycling activity of Cu in plasma samples was estimated by electron paramagnetic resonance (EPR) spectroscopy of ascorbate radicals formed during one-electron oxidation of ascorbate by redox-active catalytic Cu. Formation of Cu/albumin complexes in model systems in the presence and absence of fatty acids was studied using EPR spectroscopy of Cu(II)/albumin. Results. We found that preeclampsia plasma (as compared to normal pregnancy plasma) (1) displays elevated endogenous ascorbate redox-cycling that is normalized by a Cu(II) chelator, cuprizone I, (2) has lowered capacity to bind and redox-regulate exogenously added Cu, and (3) responds to treatment with fatty-acid-free albumin by diminished ascorbate oxidizing activity. Conversely, addition of free fatty acid (oleic acid) to normal pregnancy plasma sample yields increased ascorbate redox-cycling activity. Our model experiments showed that Cu-dependent redox-cycling activity of purified human serum albumin is significantly increased by excess free fatty acids. Conclusion. Mishandling of Cu by albumin contributes to oxidative stress in preeclampsia. Cu chelators may represent promising mechanism-based antioxidants to attenuate oxidative stress in preeclampsia.
Hypertension in Pregnancy 07/2009; 20(3):221-241. · 1.69 Impact Factor
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Hülya Bayir,
Alexandr A Kapralov,
Janfei Jiang,
Zhentai Huang,
Yulia Y Tyurina, Vladimir A Tyurin,
Qing Zhao,
Natalia A Belikova,
Irina I Vlasova,
Akihiro Maeda,
Jianhui Zhu,
Hye-Mee Na,
Pier-Giorgio Mastroberardino,
Louis J Sparvero,
Andrew A Amoscato,
Charleen T Chu,
John T Greenamyre,
Valerian E Kagan
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ABSTRACT: Damage of presynaptic mitochondria could result in release of proapoptotic factors that threaten the integrity of the entire neuron. We discovered that alpha-synuclein (Syn) forms a triple complex with anionic lipids (such as cardiolipin) and cytochrome c, which exerts a peroxidase activity. The latter catalyzes covalent hetero-oligomerization of Syn with cytochrome c into high molecular weight aggregates. Syn is a preferred substrate of this reaction and is oxidized more readily than cardiolipin, dopamine, and other phenolic substrates. Co-localization of Syn with cytochrome c was detected in aggregates formed upon proapoptotic stimulation of SH-SY5Y and HeLa cells and in dopaminergic substantia nigra neurons of rotenone-treated rats. Syn-cardiolipin exerted protection against cytochrome c-induced caspase-3 activation in a cell-free system, particularly in the presence of H(2)O(2). Direct delivery of Syn into mouse embryonic cells conferred resistance to proapoptotic caspase-3 activation. Conversely, small interfering RNA depletion of Syn in HeLa cells made them more sensitive to dopamine-induced apoptosis. In human Parkinson disease substantia nigra neurons, two-thirds of co-localized Syn-cytochrome c complexes occurred in Lewy neurites. Taken together, these results indicate that Syn may prevent execution of apoptosis in neurons through covalent hetero-oligomerization of cytochrome c. This immediate protective function of Syn is associated with the formation of the peroxidase complex representing a source of oxidative stress and postponed damage.
Journal of Biological Chemistry 05/2009; 284(23):15951-69. · 4.77 Impact Factor
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Vladimir A Tyurin,
Yulia Y Tyurina,
Mi-Yeon Jung,
Muhammad A Tungekar,
Karla J Wasserloos,
Hülya Bayir,
Joel S Greenberger,
Patrick M Kochanek,
Anna A Shvedova,
Bruce Pitt,
Valerian E Kagan
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ABSTRACT: Oxidation of two anionic phospholipids--cardiolipin (CL) in mitochondria and phosphatidylserine (PS) in extramitochondrial compartments--is important signaling event, particularly during the execution of programmed cell death and clearance of apoptotic cells. Quantitative analysis of CL and PS oxidation products is central to understanding their molecular mechanisms of action. We combined the identification of diverse phospholipid molecular species by ESI-MS with quantitative assessments of lipid hydroperoxides using a fluorescence HPLC-based protocol. We characterized CL and PS oxidation products formed in a model system (cyt c/H(2)O(2)), in apoptotic cells (neurons, pulmonary artery endothelial cells) and mouse lung under inflammatory/oxidative stress conditions (hyperoxia, inhalation of single walled carbon nanotubes). Our results demonstrate the usefulness of this approach for quantitative assessments, identification of individual molecular species and structural characterization of anionic phospholipids that are involved in oxidative modification in cells and tissues.
Journal of chromatography. B, Analytical technologies in the biomedical and life sciences 04/2009; 877(26):2863-72. · 2.78 Impact Factor
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ABSTRACT: Myeloperoxidase (MPO) is expressed in Alzheimer disease (AD) but not normal aged brain. A functional -463G/A MPO promoter polymorphism has been associated with AD risk through as yet unidentified mechanisms. Here we report that human MPO-463G allele, but not MPO-463A or mouse MPO, is strongly expressed in astrocytes and deposited in plaques in huMPO transgenic mice crossed to the APP23 model. MPO is similarly expressed in astrocytes in human AD tissue. In cortical homogenates of the MPOG-APP23 model, MPO expression correlated with increased levels of a lipid peroxidation product, 4-hydroxynonenal. Fluorescence high-performance liquid chromatography and electrospray ionization mass spectroscopy identified selective accumulation of phospholipid hydroperoxides in two classes of anionic phospholipids, phosphatidylserine (PS-OOH) and phosphatidylinositol (PI-OOH). The same molecular species of PS-OOH and PI-OOH were elevated in human AD brains as compared with non-demented controls. Augmented lipid peroxidation in MPOG-APP23 mice correlated with greater memory deficits. We suggest that aberrant huMPO expression in astrocytes leads to a specific pattern of phospholipid peroxidation and neuronal dysfunction contributing to AD.
Journal of Biological Chemistry 01/2009; 284(5):3158-69. · 4.77 Impact Factor
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ABSTRACT: Combination of electrospray ionization mass spectrometry (ESI-MS), fluorescence high-performance liquid chromatography (HPLC), and 2D-high-performance thin-layer chromatography (2D-HPTLC) is a powerful approach to identify and quantitatively analyze oxidized phospholipids in vivo. We describe application of this methodology in assessments of phospholipid hydroperoxides using as an example their characterization and quantitative determinations in different tissues of mice exposed to total body irradiation (TBI, 10 and 15 Gy). Using ESI-MS, we identified individual molecular species - with particular emphasis on polyunsaturated molecules as preferred peroxidation substrates - in major classes of phospholipids: cardiolipin (CL), phosphatidylcholine (PC), phosphatidylethanolamine (PE), phosphatidylserine (PS), and phosphatidylinositol (PI) isolated from mouse brain, lung, muscles, small intestine, and bone marrow. We show that the pattern of phospholipid oxidation 24 h after TBI is nonrandom and does not follow the phospholipid abundance in tissues. The anionic phospholipids - CL, PS, and PI - are the preferred peroxidation substrates. We identified and structurally characterized individual hydroperoxides in these three classes of phospholipids. The protocols described may be utilized in studies of signaling functions of oxidized phospholipids in cell physiology and pathology.
Methods in molecular biology (Clifton, N.J.) 01/2009; 580:153-83.
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Lina Du,
Robert W Hickey,
Hülya Bayir,
Simon C Watkins, Vladimir A Tyurin,
Fengli Guo,
Patrick M Kochanek,
Larry W Jenkins,
Jin Ren,
Greg Gibson,
Charleen T Chu,
Valerian E Kagan,
Robert S B Clark
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ABSTRACT: Sex-dependent differences in adaptation to famine have long been appreciated, thought to hinge on female versus male preferences for fat versus protein sources, respectively. However, whether these differences can be reduced to neurons, independent of typical nutrient depots, such as adipose tissue, skeletal muscle, and liver, was heretofore unknown. A vital adaptation to starvation is autophagy, a mechanism for recycling amino acids from organelles and proteins. Here we show that segregated neurons from males in culture are more vulnerable to starvation than neurons from females. Nutrient deprivation decreased mitochondrial respiration, increased autophagosome formation, and produced cell death more profoundly in neurons from males versus females. Starvation-induced neuronal death was attenuated by 3-methyladenine, an inhibitor of autophagy; Atg7 knockdown using small interfering RNA; or L-carnitine, essential for transport of fatty acids into mitochondria, all more effective in neurons from males versus females. Relative tolerance to nutrient deprivation in neurons from females was associated with a marked increase in triglyceride and free fatty acid content and a cytosolic phospholipase A2-dependent increase in formation of lipid droplets. Similar sex differences in sensitivity to nutrient deprivation were seen in fibroblasts. However, although inhibition of autophagy using Atg7 small interfering RNA inhibited cell death during starvation in neurons, it increased cell death in fibroblasts, implying that the role of autophagy during starvation is both sex- and tissue-dependent. Thus, during starvation, neurons from males more readily undergo autophagy and die, whereas neurons from females mobilize fatty acids, accumulate triglycerides, form lipid droplets, and survive longer.
Journal of Biological Chemistry 12/2008; 284(4):2383-96. · 4.77 Impact Factor
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Vladimir A Tyurin,
Yulia Y Tyurina,
Weihong Feng,
Alexandra Mnuskin,
Jianfei Jiang,
Minke Tang,
Xiaojing Zhang,
Qing Zhao,
Patrick M Kochanek,
Robert S B Clark,
Hülya Bayir,
Valerian E Kagan
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ABSTRACT: The molecular diversity of phospholipids is essential for their structural and signaling functions in cell membranes. In the current work, we present, the results of mass spectrometric characterization of individual molecular species in major classes of phospholipids -- phosphatidylcholine (PtdCho), phosphatidylethanolamine (PtdEtn), phosphatidylserine (PtdSer), phosphatidylinositol (PtdIns), sphingomyelin (CerPCho), and cardiolipin (Ptd(2)Gro) -- and their oxidation products during apoptosis induced in neurons by staurosporine (STS). The diversity of molecular species of phospholipids in rat cortical neurons followed the order Ptd(2)Gro > PtdEtn > PtdCho > PtdSer > PtdIns > CerPCho. The number of polyunsaturated oxidizable species decreased in the order Ptd(2)Gro > PtdEtn > PtdCho > PtdSer > PtdIns > CerPCho. Thus a relatively minor class of phospholipids, Ptd(2)Gro, was represented in cortical neurons by the greatest variety of both total and peroxidizable molecular species. Quantitative fluorescence HPLC analysis employed to assess the oxidation of different classes of phospholipids in neuronal cells during intrinsic apoptosis induced by STS revealed that three anionic phospholipids -- Ptd(2)Gro > PtdSer > PtdIns -- underwent robust oxidation. No significant oxidation in the most dominant phospholipid classes -- PtdCho and PtdEtn -- was detected. MS-studies revealed the presence of hydroxy-, hydroperoxy- as well as hydroxy-/hydroperoxy-species of Ptd(2)Gro, PtdSer, and PtdIns. Experiments in model systems where total cortex Ptd(2)Gro and PtdSer fractions were incubated in the presence of cytochrome c (cyt c) and H(2)O(2), confirmed that molecular identities of the products formed were similar to the ones generated during STS-induced neuronal apoptosis. The temporal sequence of biomarkers of STS-induced apoptosis and phospholipid peroxidation combined with recently demonstrated redox catalytic properties of cyt c realized through its interactions with Ptd(2)Gro and PtdSer suggest that cyt c acts as a catalyst of selective peroxidation of anionic phospholipids yielding Ptd(2)Gro and PtdSer peroxidation products. These oxidation products participate in mitochondrial membrane permeability transition and in PtdSer externalization leading to recognition and uptake of apoptotic cells by professional phagocytes.
Journal of Neurochemistry 11/2008; 107(6):1614-33. · 4.06 Impact Factor
