Accumulation of Hydroxyl Lipids and 4‐Hydroxy‐2‐Hexenal in Live Fish Infected with Fish Diseases

Tanaka, Ryusuke; Shigeta, Kazuhiro; Sugiura, Yoshimasa; Hatate, Hideo; Matsushita, Teruo

doi:10.1007/s11745-013-3875-2

Cited by 13 publications

(10 citation statements)

References 56 publications

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“…4‐hydroxy‐2‐hexenal (HHE) and 4‐hydroxy‐2‐nonenal (HNE) were analysed with a methodology adapted from a procedure previously developed by Tanaka et al . (, ). Briefly, cellular contents of 80% confluent T75 flask were homogenized in 2.5 mL cold hypotonic buffer and mixed with 1 mL derivatization reactive 1,3‐ciclohexanedione (CHD), 12.5 μL p‐chlorobenzaldehyde (used as internal standard) and 0.005% butylated hydroxytoluene (to prevent additional oxidation).…”

Section: Methodsmentioning

confidence: 99%

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Addition of docosahexaenoic acid, but not arachidonic acid, activates glutathione and thioredoxin antioxidant systems in murine hippocampal HT22 cells: potential implications in neuroprotection

Casañas-Sánchez

Pérez

Fabelo

et al. 2014

Journal of Neurochemistry

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Docosahexaenoic acid (DHA, 22:6n-3) is a major constituent of nerve cell membrane phospholipids. Besides a role in membrane architecture, DHA is a pleiotropic molecule involved in multiple facets of neuronal biology and also in neuroprotection. We show here that supplementation with DHA (but not arachidonic acid) to mouse hippocampal HT22 cells modulates the expression of genes encoding for antioxidant proteins associated with thioredoxin/peroxiredoxin and glutathione/glutaredoxin systems. Thus, within the thioredoxin system, DHA increased Txn1-2, Trxrd1-2, Prdx3, and Srxn1 gene expression. Paralleling these changes, DHA increased thioredoxin reductase activity, the main enzyme involved in thioredoxin regeneration. For the glutathione system, the most important change triggered by DHA was the upregulation of Gpx4 gene, encoding for the nuclear, cytosolic and mitochondrial isoforms of phospholipid-hydroperoxide glutathione peroxidase (PH-GPx/GPx4, the main enzyme protecting cell membranes against lipid peroxidation), which was followed by a significant increase in total glutathione peroxidase and GPx4 activities. Noticeably, DHA also upregulated a new Gpx4 splicing variant that retained part of the first intronic region. Finally, we demonstrate that DHA treatment, under the same time course, protects HT22 cells from the oxitoxic exposure to amyloid beta (Ab 25-35 ) peptide. Altogether, our data pinpoint to a role of DHA as Indirect Antioxidant that modulates neuronal defences in neuroprotection.

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Section: Methodsmentioning

confidence: 99%

“…Peaks eluting just before and after HHE, likely correspond to formaldehyde and acetaldehyde respectively (Tanaka et al . , ). At least three assays were performed under each experimental condition.…”

Section: Methodsmentioning

confidence: 99%

Addition of docosahexaenoic acid, but not arachidonic acid, activates glutathione and thioredoxin antioxidant systems in murine hippocampal HT22 cells: potential implications in neuroprotection

Casañas-Sánchez

Pérez

Fabelo

et al. 2014

Journal of Neurochemistry

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“…11 Hydroxy alkenals such as 4-Hydroxy-2-nonenal (HNE), generated by peroxidation of ω-6 PUFAs, [12][13][14] and 4-Hydroxy-2-hexenal (HHE), a product from peroxidation of ω-3 PUFAs [15][16][17] are also widelystudied autoxidative products of PUFAs. Apart from autooxidation, PUFAs are susceptible to light-induced photooxidation: photochemical oxidation and photosensitized oxidation.…”

Section: Non-enzymatic Oxidationmentioning

confidence: 99%

Oxidation of Polyunsaturated Fatty Acids and its Impact on Food Quality and Human Health

Tao¹

2015

Adv Food Technol Nutr Sci Open J

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CitationTao L. Oxidation of polyunsaturated fatty acids and its impact on food quality and human health. Mini ReviewPage 135 ABSTRACTFor many years, both preclinical and clinical studies have provided evidences to support the beneficial effects of ω-3 Polyunsaturated fatty acids (PUFAs), particularly Eicosapentaenoic acid (EPA) and Docosahexaenoic acid (DHA) in the prevention of chronic diseases. However, recently, an increasing number of studies reported adverse or contradictory effects of ω-3 PUFAs on human health. While dose and experimental condition need to be considered when evaluating these effects, oxidation of PUFAs also serves as an important factor contributing to the inconsistent results. In fact, oxidation of PUFAs happens frequently during food processing and storage, cooking and even after food ingestion. The free radicals and metabolites generated from PUFA oxidation may adversely affect food quality and shelf life by producing off-flavors and reducing nutritional values. The impact of PUFA oxidation in human health is more complicated, depending on the concentration of products, disease background and targets. This review will introduce different types of PUFA oxidation, discuss its impact on food quality and human health and provide some thoughts for the future research directions.

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“…In a recent experiment with cultured puffer fish ( Fugu rubripes ) with or without Trichodina infection, flat fish ( Paralichthys olivaceus ) with or without streptococcus infection, yellowtail ( Seriola quinqueradiata ) with or without jaundice, and amberjack ( Seriola purpurascens ) with or without Photobacterium damselae sp. piscicida , there was not a significant difference by fish disease status in the overall fish fatty acid composition in fish livers; however, liver DHA was significantly higher in the diseased fish than healthy fish for flat fish, yellowtail and amberjack (Tanaka et al ., 2014 ). There is also growing interest in how oxidative stress in fish may affect fish lipids (Tanaka & Nakamura, 2012 ; Tanaka et al ., 2014 ).…”

Section: Concentrations Of Epa + Dhamentioning

confidence: 99%

“…piscicida , there was not a significant difference by fish disease status in the overall fish fatty acid composition in fish livers; however, liver DHA was significantly higher in the diseased fish than healthy fish for flat fish, yellowtail and amberjack (Tanaka et al ., 2014 ). There is also growing interest in how oxidative stress in fish may affect fish lipids (Tanaka & Nakamura, 2012 ; Tanaka et al ., 2014 ).…”

Section: Concentrations Of Epa + Dhamentioning

confidence: 99%

Mercury, selenium and fish oils in marine food webs and implications for human health

et al. 2015

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Humans who eat fish are exposed to mixtures of healthful nutrients and harmful contaminants that are influenced by environmental and ecological factors. Marine fisheries are composed of a multitude of species with varying life histories, and harvested in oceans, coastal waters and estuaries where environmental and ecological conditions determine fish exposure to both nutrients and contaminants. Many of these nutrients and contaminants are thought to influence similar health outcomes (i.e., neurological, cardiovascular, immunological systems). Therefore, our understanding of the risks and benefits of consuming seafood require balanced assessments of contaminants and nutrients found in fish and shellfish. In this paper, we review some of the reported benefits of fish consumption with a focus on the potential hazards of mercury exposure, and compare the environmental variability of fish oils, selenium and mercury in fish. A major scientific gap identified is that fish tissue concentrations are rarely measured for both contaminants and nutrients across a range of species and geographic regions. Interpreting the implications of seafood for human health will require a better understanding of these multiple exposures, particularly as environmental conditions in the oceans change.

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Accumulation of Hydroxyl Lipids and 4‐Hydroxy‐2‐Hexenal in Live Fish Infected with Fish Diseases

Cited by 13 publications

References 56 publications

Addition of docosahexaenoic acid, but not arachidonic acid, activates glutathione and thioredoxin antioxidant systems in murine hippocampal HT22 cells: potential implications in neuroprotection

Addition of docosahexaenoic acid, but not arachidonic acid, activates glutathione and thioredoxin antioxidant systems in murine hippocampal HT22 cells: potential implications in neuroprotection

Oxidation of Polyunsaturated Fatty Acids and its Impact on Food Quality and Human Health

Mercury, selenium and fish oils in marine food webs and implications for human health

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