Ana Reis scite author profile

The oxidation of lipids has long been a topic of interest in biological and food sciences, and the fundamental principles of non-enzymatic free radical attack on phospholipids are well established, although questions about detail of the mechanisms remain. The number of end products that are formed following the initiation of phospholipid peroxidation is large, and is continually growing as new structures of oxidized phospholipids are elucidated. Common products are phospholipids with esterified isoprostane-like structures and chain-shortened products containing hydroxy, carbonyl or carboxylic acid groups; the carbonyl-containing compounds are reactive and readily form adducts with proteins and other biomolecules. Phospholipids can also be attacked by reactive nitrogen and chlorine species, further expanding the range of products to nitrated and chlorinated phospholipids. Key to understanding the mechanisms of oxidation is the development of advanced and sensitive technologies that enable structural elucidation. Tandem mass spectrometry has proved invaluable in this respect and is generally the method of choice for structural work. A number of studies have investigated whether individual oxidized phospholipid products occur in vivo, and mass spectrometry techniques have been instrumental in detecting a variety of oxidation products in biological samples such as atherosclerotic plaque material, brain tissue, intestinal tissue and plasma, although relatively few have achieved an absolute quantitative analysis. The levels of oxidized phospholipids in vivo is a critical question, as there is now substantial evidence that many of these compounds are bioactive and could contribute to pathology. The challenges for the future will be to adopt lipidomic approaches to map the profile of oxidized phospholipid formation in different biological conditions, and relate this to their effects in vivo. This article is part of a Special Issue entitled: Oxidized phospholipids-their properties and interactions with proteins.

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A comparison of five lipid extraction solvent systems for lipidomic studies of human LDL

Reis

Rudnitskaya

Blackburn

et al. 2013

Journal of Lipid Research

211

200

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This article is available online at http://www.jlr.org functions, in addition to structural roles ( 1 ); consequently lipidomic studies have become fundamental for understanding their contribution to health and disease. Mass spectrometry (MS), with its capability of providing structural information, has been the main method of choice in lipidomic studies. Recent technological advances in mass spectrometers, including increased sensitivity, higher mass accuracy, higher scan speeds, and the ability to acquire in both positive and negative mode in one run have resulted in the increased popularity of MS as a detection technique for biomolecules in recent years. This has enabled the mapping of lipids present in fl uids and cells, leading to better understanding of the role of the different lipid classes in the pathophysiology of diseases.A critical step in lipidomic analysis is lipid extraction with an appropriate organic solvent mixture (solvent system) prior to MS detection. The solvent system should be capable of effectively extracting lipids representative of the sample under study without bias, inducing or promoting the degradation of lipids, or introducing contamination by nonlipid components such as sugars, peptides, and amino acids. Therefore, the success in the identifi cation and profi ling of lipids is critically dependent on the efficiency of the extraction step. The performance of the lipid extraction for a given sample (tissue, cell, or fl uid) with a particular solvent system depends on the partitioning of the

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Lipoxidation adducts with peptides and proteins: Deleterious modifications or signaling mechanisms?

Domingues

Melo

et al. 2013

Journal of Proteomics

142

139

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Mass spectrometry analysis of oxidized phospholipids

Domingues

Reis

Domingues

2008

Chemistry and Physics of Lipids

141

103

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Dynamics of African swine fever virus shedding and excretion in domestic pigs infected by intramuscular inoculation and contact transmission

Guinat

Reis

Netherton

et al. 2014

Vet Res

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African swine fever virus (ASFV) is a highly virulent swine pathogen that has spread across Eastern Europe since 2007 and for which there is no effective vaccine or treatment available. The dynamics of shedding and excretion is not well known for this currently circulating ASFV strain. Therefore, susceptible pigs were exposed to pigs intramuscularly infected with the Georgia 2007/1 ASFV strain to measure those dynamics through within- and between-pen transmission scenarios. Blood, oral, nasal and rectal fluid samples were tested for the presence of ASFV by virus titration (VT) and quantitative real-time polymerase chain reaction (qPCR). Serum was tested for the presence of ASFV-specific antibodies. Both intramuscular inoculation and contact transmission resulted in development of acute disease in all pigs although the experiments indicated that the pathogenesis of the disease might be different, depending on the route of infection. Infectious ASFV was first isolated in blood among the inoculated pigs by day 3, and then chronologically among the direct and indirect contact pigs, by day 10 and 13, respectively. Close to the onset of clinical signs, higher ASFV titres were found in blood compared with nasal and rectal fluid samples among all pigs. No infectious ASFV was isolated in oral fluid samples although ASFV genome copies were detected. Only one animal developed antibodies starting after 12 days post-inoculation. The results provide quantitative data on shedding and excretion of the Georgia 2007/1 ASFV strain among domestic pigs and suggest a limited potential of this isolate to cause persistent infection.

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Ana Reis

Chemistry of phospholipid oxidation

A comparison of five lipid extraction solvent systems for lipidomic studies of human LDL

Lipoxidation adducts with peptides and proteins: Deleterious modifications or signaling mechanisms?

Mass spectrometry analysis of oxidized phospholipids

Dynamics of African swine fever virus shedding and excretion in domestic pigs infected by intramuscular inoculation and contact transmission

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