Potential applications of lipid peroxidation products – F4-neuroprostanes, F3-neuroprostanesn-6 DPA, F2-dihomo-isoprostanes and F2-isoprostanes ‐ in the evaluation of the allograft function in renal transplantation

Heras-Gómez, Ignacio de las; Medina, Sonia; Casas-Pina, Teresa; Marín-Soler, Lidia; Axelsson, Tomas; Martı́nez-Hernández, Pedro; Oger, Camille; Galano, Jean‐Marie; Jimeno, Luisa; Llorente, Santiago; Lozoya, Elena; Ferreres, Federico; Gil‐Izquierdo, Ángel

doi:10.1016/j.freeradbiomed.2017.01.019

Cited by 12 publications

(8 citation statements)

References 32 publications

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“…The present work describes a reliable and sensitive UPLC-MS/MS method for the simultaneous determination of 17 analytes (F 2 -IsoPs, prostaglandins, F 4 -NeuroPs, F 2 -dihomo-IsoPs, dihomo-IsoFs) and 4 total parameters (IsoP, NeuroP, IsoF, NeuroF) in urine samples. Of note, most of these analytes have not been measured in previous works found in literature [38,42], and the lack of validated liquid chromatographic methods to determine these new set of lipid peroxidation biomarkers in urine human samples adds relevance to this new method. The described UPLC-MS/MS method can be considered a simple alternative to previously published methods, which employ chemical derivatization and gas chromatography.…”

Section: Discussionmentioning

confidence: 99%

Reliable determination of new lipid peroxidation compounds as potential early Alzheimer Disease biomarkers

García‐Blanco

Peña-Bautista

Oger

et al. 2018

Talanta

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Lipid peroxidation plays an important role in Alzheimer Disease, so corresponding metabolites found in urine samples could be potential biomarkers. The aim of this work is to develop a reliable ultra-performance liquid chromatography-tandem mass spectrometry analytical method to determine a new set of lipid peroxidation compounds in urine samples. Excellent sensitivity was achieved with limits of detection between 0.08 and 17 nmol L, which renders this method suitable to monitor analytes concentrations in real samples. The method's precision was satisfactory with coefficients of variation around 5-17% (intra-day) and 8-19% (inter-day). The accuracy of the method was assessed by analysis of spiked urine samples obtaining recoveries between 70% and 120% for most of the analytes. The utility of the described method was tested by analyzing urine samples from patients early diagnosed with mild cognitive impairment or mild dementia Alzheimer Disease following the clinical standard criteria. As preliminary results, some analytes (17(RS)-10-epi-SC-Δ-11-dihomo-IsoF, PGE) and total parameters (Neuroprostanes, Isoprostanes, Isofurans) show differences between the control and the clinical groups. So, these analytes could be potential early Alzheimer Disease biomarkers assessing the patients' pro-oxidant condition.

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Section: Discussionmentioning

confidence: 99%

Reliable determination of new lipid peroxidation compounds as potential early Alzheimer Disease biomarkers

García‐Blanco

Peña-Bautista

Oger

et al. 2018

Talanta

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“…Isoprostanoids, the metabolites of non-enzymatic lipid peroxidation of polyunsaturated fatty acid (PUFA), are measured to assess in vivo oxidative stress status [1,2]. Among all the metabolites from PUFAs, 15-F 2t -isoprostane (15-F 2t -IsoP) derived from arachidonic acid (AA) has been largely studied in medical research [3][4][5]. Also, 15-F 2t -IsoP (also referred to as 8-iso-PGF 2α ) has been identified to be the most abundant F 2 -IsoP isomer in the free radical-induced AA oxidation [6] and elevated levels are closely related for example, to inflammation and cardiovascular diseases.…”

Section: Introductionmentioning

confidence: 99%

“…In this regard, it was shown that NeuroPs and not IsoPs are the critical metabolites for neuronal damage. Among all the F 4 -NeuroP molecules, only a handful of the isomers are characterized in neuro-pathological conditions and so far, 4-F 4t -NeuroPs and 10-F 4t NeuroPs are considered to be the most represented [8,[15][16][17][18][19][20][21][22][23][24][25].…”

Section: Introductionmentioning

confidence: 99%

Relevance of 4-F4t-neuroprostane and 10-F4t-neuroprostane to neurological diseases

Signorini

Felice

Durand

et al. 2018

Free Radical Biology and Medicine

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F-neuroprostanes (F-NeuroPs) are non-enzymatic oxidized products derived from docosahexaenoic acid (DHA) and are suggested to be oxidative damage biomarkers of neurological diseases. However, 128 isomers can be formed from DHA oxidation and among them, 4(RS)-4-F-NeuroP (4-F-NeuroP) and 10(RS)-10-F-NeuroP (10-F-NeuroP) are the most studied. Here, we report the identification and the clinical relevance of 4-F-NeuroP and 10-F-NeuroP in plasma of four different neurological diseases, including multiple sclerosis (MS), autism spectrum disorders (ASD), Rett syndrome (RTT), and Down syndrome (DS). The identification and the optimization of the method were carried out by gas chromatography/negative-ion chemical ionization tandem mass spectrometry (GC/NICI-MS/MS) using chemically synthesized 4-F-NeuroP and 10-F-NeuroP standards and in oxidized DHA liposome. Both 4-F-NeuroP and 10-F-NeuroP were detectable in all plasma samples from MS (n = 16), DS (n = 16), ASD (n = 9) and RTT (n = 20) patients. While plasma 10-F-NeuroP content was significantly higher in patients of all diseases as compared to age and gender matched healthy control subjects (n = 61), 4-F-NeuroP levels were significantly higher in MS and RTT as compared to healthy controls. Significant positive relationships were observed between relative disease severity and 4-F-NeuroP levels (r = 0.469, P <0.0001), and 10-F-NeuroP levels (r = 0.757, P < 0.0001). The study showed that the plasma amount ratio of 10-F-NeuroP to 4-F-NeuroP and the plasma amount as individual isomer can be used to discriminate between different brain diseases. Overall, by comparing the different types of disease, our plasma data indicates that 4-F-NeuroP and 10-F -NeuroP: i) are biologically synthesized in vivo and circulated, ii) are related to clinical severity of neurological diseases, iii) are useful to identify shared pathogenetic pathways in distinct brain diseases, and iv) appears to be distinctive for different neurological conditions, thus representing potentially new biological disease markers. Our data strongly suggest that in vivo DHA oxidation follows preferential chemical rearrangements according to different brain diseases.

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“…Recently, F 3t -NeuroP n-6 a metabolite of DPA and F 2t -dihomo-IsoPs were found useful to assess renal function after kidney transplantation [110,111]. The authors noted that these three metabolites namely, 4-epi-4-F 3t -NeuroP n-6 DPA , ent-7(RS)-7-F 2t -dihomo-IsoP and ent-7(S)-7-F 2t -dihomo-IsoP tended to decrease when kidney function improved and the excretion of urine proteins decreased.…”

Section: Neurops As Oxidative Stress Biomarkersmentioning

confidence: 99%

Moving forward with isoprostanes, neuroprostanes and phytoprostanes: where are we now?

Ahmed

Galano

Pavlíčková

et al. 2020

Essays in Biochemistry

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Polyunsaturated fatty acids (PUFAs) are essential components in eukaryotic cell membrane. They take part in the regulation of cell signalling pathways and act as precursors in inflammatory metabolism. Beside these, PUFAs auto-oxidize through free radical initiated mechanism and release key products that have various physiological functions. These products surfaced in the early nineties and were classified as prostaglandin isomers or isoprostanes, neuroprostanes and phytoprostanes. Although these molecules are considered robust biomarkers of oxidative damage in diseases, they also contain biological activities in humans. Conceptual progress in the last 3 years has added more understanding about the importance of these molecules in different fields. In this chapter, a brief overview of the past 30 years and the recent scope of these molecules, including their biological activities, biosynthetic pathways and analytical approaches are discussed.

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Potential applications of lipid peroxidation products – F4-neuroprostanes, F3-neuroprostanesn-6 DPA, F2-dihomo-isoprostanes and F2-isoprostanes ‐ in the evaluation of the allograft function in renal transplantation

Cited by 12 publications

References 32 publications

Reliable determination of new lipid peroxidation compounds as potential early Alzheimer Disease biomarkers

Reliable determination of new lipid peroxidation compounds as potential early Alzheimer Disease biomarkers

Relevance of 4-F4t-neuroprostane and 10-F4t-neuroprostane to neurological diseases

Moving forward with isoprostanes, neuroprostanes and phytoprostanes: where are we now?

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