Inhibition of Peroxidase Activity of Cytochrome<i>c</i>: De Novo Compound Discovery and Validation

Bakan, Ahmet; Kapralov, Alexandr A.; Bayır, Hülya; Hu, Feizhou; Kagan, Valerian E.; Bahar, İvet

doi:10.1124/mol.115.097816

Cited by 21 publications

(27 citation statements)

References 25 publications

(36 reference statements)

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“…The participation and essentiality of selective CL oxidation as a required mitochondrial stage of intrinsic apoptotic program has been demonstrated for many different types of wild-type cells. As expected, genetic manipulations causing deficiency of either CL-synthase as well as the entire cyt c or mutation of its Tyr 67 residue suppressed the apoptotic responses (5,9,62,95,97). Moreover, in several in vivo models with characteristic massive apoptotic death, such as hyperoxia in mice, inhalation exposure to single-walled carbon nanotube in mice, total body irradiation (TBI) in mice, and traumatic brain injury in ''pediatric'' rats-the accumulation of CL oxidation products has been confirmed by quantitative LC-MS-based oxidative lipidomics analysis (12,65,153,156,158).…”

Section: CL Oxidation Signals Apoptosissupporting

confidence: 77%

“Only a Life Lived for Others Is Worth Living”: Redox Signaling by Oxygenated Phospholipids in Cell Fate Decisions

Tyurina

Shrivastava

Tyurin

et al. 2018

Antioxidants & Redox Signaling

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Section: CL Oxidation Signals Apoptosissupporting

confidence: 77%

“Only a Life Lived for Others Is Worth Living”: Redox Signaling by Oxygenated Phospholipids in Cell Fate Decisions

Tyurina

Shrivastava

Tyurin

et al. 2018

Antioxidants & Redox Signaling

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“…2C). Interestingly, bifonazole, a cytochrome P450 inhibitor that inhibits the peroxidase activity of cyt c (45), potently inhibited cyt c-mediated plasmalogenase activity (Fig. 2C).…”

Section: Plasmalogenase Activity Of Cytochrome Cmentioning

confidence: 98%

Cytochrome c is an oxidative stress–activated plasmalogenase that cleaves plasmenylcholine and plasmenylethanolamine at the sn-1 vinyl ether linkage

Jenkins

Yang

Liu

et al. 2018

Journal of Biological Chemistry

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Plasmalogens are phospholipids critical for cell function and signaling that contain a vinyl ether linkage at the -1 position and are highly enriched in arachidonic acid (AA) at the-2 position. However, the enzyme(s) responsible for the cleavage of the vinyl ether linkage in plasmalogens has remained elusive. Herein, we report that cytochrome , in the presence of either cardiolipin (CL), O and HO, or oxidized CL and O, catalyzes the oxidation of the plasmalogen vinyl ether linkage, promoting its hydrolytic cleavage and resultant production of 2-AA-lysolipids and highly reactive α-hydroxy fatty aldehydes. Using stable isotope labeling in synergy with strategic chemical derivatizations and high-mass-accuracy MS, we deduced the chemical mechanism underlying this long sought-after reaction. Specifically, labeling with either O or HO, but not with HO, resulted in M + 2 isotopologues of the α-hydroxyaldehyde, whereas reactions with both O and HO identified the M + 4 isotopologue. Furthermore, incorporation of O fromO was predominantly located at the α-carbon. In contrast, reactions with HO yielded O linked to the aldehyde carbon. Importantly, no significant labeling of 2-AA-lysolipids withO, HO, or HO was present. Intriguingly, phosphatidylinositol phosphates (PIP and PIP) effectively substituted for cardiolipin. Moreover, cytochrome released from myocardial mitochondria subjected to oxidative stress cleaved plasmenylcholine in membrane bilayers, and this was blocked with a specific mAb against cytochrome Collectively, these results identify the first plasmalogenase in biology, reveal the production of previously unanticipated signaling lipids by cytochrome, and present new perspectives on cellular signaling during oxidative stress.

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“…As CL is a highly selective substrate of the peroxidase reaction (see below), CL peroxidation is a characteristic feature of apoptosis required for the completion of this death program [117]. Not surprisingly, substantial efforts have been directed towards design and development of new inhibitors of cyt c /CL peroxidase activity as anti-apoptotic modalities [118, 119]. In spite of numerous studies [120-125] the universal structural characterization of CL-driven activation of cyt c into a peroxidase still has not been achieved.…”

Section: Interactions Of Cytochrome C With Cardiolipins – Role In Catmentioning

confidence: 99%

Known unknowns of cardiolipin signaling: The best is yet to come

Maguire

Tyurina

Mohammadyani

et al. 2017

Biochimica et Biophysica Acta (BBA) - Molecular and Cell Biolog

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102

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Since its discovery 75 years ago, a wealth of knowledge has accumulated on the role of cardiolipin, the hallmark phospholipid of mitochondria, in bioenergetics and particularly on the structural organization of the inner mitochondrial membrane. A surge of interest in this anionic doubly-charged tetra-acylated lipid found in both prokaryotes and mitochondria has emerged based on its newly discovered signaling functions. Cardiolipin displays organ, tissue, cellular and transmembrane distribution asymmetries. A collapse of the membrane asymmetry represents a pro-mitophageal mechanism whereby externalized cardiolipin acts as an “eat-me” signal. Oxidation of cardiolipin's polyunsaturated acyl chains - catalyzed by cardiolipin complexes with cytochrome c. - is a pro-apoptotic signal. The messaging functions of myriads of cardiolipin species and their oxidation products are now being recognized as important intracellular and extracellular signals for innate and adaptive immune systems. This newly developing field of research exploring cardiolipin signaling is the main subject of this review.

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Inhibition of Peroxidase Activity of Cytochromec: De Novo Compound Discovery and Validation

Cited by 21 publications

References 25 publications

“Only a Life Lived for Others Is Worth Living”: Redox Signaling by Oxygenated Phospholipids in Cell Fate Decisions

“Only a Life Lived for Others Is Worth Living”: Redox Signaling by Oxygenated Phospholipids in Cell Fate Decisions

Cytochrome c is an oxidative stress–activated plasmalogenase that cleaves plasmenylcholine and plasmenylethanolamine at the sn-1 vinyl ether linkage

Known unknowns of cardiolipin signaling: The best is yet to come

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