The CHSE-214 salmon cell line as a model to study molecular regulation of long-chain polyunsaturated fatty acid biosynthesis in salmonids

Rubio Mejia, Olga Liliana

January 2015

The main source of omega-3 (n-3) long-chain polyunsaturated fatty acids (LC-PUFA) in our diet is supplied by fish, and an ever-increasing proportion of these are being produced by aquaculture. The drive for the growing market demand and production from sustainable sources has led to the use of high-energy (fat) diets and, recently, to the replacement of fishmeal and fish oil with non-marine components, such as plant meals and vegetable oils that are devoid of n-3 LC-PUFA. Both changes impact greatly on lipid and fatty acid metabolism in fish, with health implications for the fish and the human consumer. This impact highlights the need to investigate the basic molecular mechanisms underlying the regulation of lipid and fatty acid metabolism in fish, specifically focussing on the pathways of lipid homeostasis and LC-PUFA synthesis. The aim of this study was to develop and utilise Chinook salmon embryo (CHSE-214) cell line as a model for Atlantic salmon, Salmo salar L., to enable an integrated approach to study the biochemical and molecular regulation of lipid metabolism in fish. In particular, α-linolenic acid (LNA, 18:3n-3) and linoleic acid (LOA, 18:2n-6), which are essential fatty acids abundantly found in vegetable oils, and are precursors of LC-PUFA, were supplemented in combination with other fatty acids, to explore the effect of these on total lipid content, lipid class, FA composition and gene expression of CHSE-214 cell line. Total lipid content was extracted, followed by determination of lipid class and fatty acid analyses. Gene expression analyses of transcription/nuclear factors and various target genes in Atlantic salmon, including those involved in pathways of LC-PUFA synthesis and fatty acid oxidation, were carried out. The results demonstrated that CHSE-214 cell line, under experimental conditions, is able to convert LNA to eicosapentaenoic acid (EPA, 20:5n-3), and LOA to arachidonic acid (ARA, 20:4n-6), but not LNA and/or EPA to docosahexaenoic acid (DHA, 22:6n-3), highlighting the activity of elongase and desaturase enzymes during the conversion process. Changes occurring on the fatty acid profile and also at molecular level were observed. Understanding the role that transcription factors play in the regulation of lipid biosynthesis in fish will allow endogenous LC-PUFA synthesis to be optimised. The results from this study could be used to improve the efficiency of alternative, sustainable diets in aquaculture, while maintaining the nutritional quality of farmed fish for the final consumer. CHSE-214 cell line can therefore be used as a model to study the molecular mechanisms involved in the LC-PUFA biosynthesis, particularly in the conversion of LNA to EPA, which can then be reproduced in vivo, saving time and money.

639.3

Avaliação do perfil de expressão gênica de linhagens celulares do tecido mamário com diferentes níveis de expressão do receptor HER-2 tratadas com ácido docosahexaenoico / Evaluation of the gene expression profile of breast tissue cell lines with different expression levels of the HER-2 receptor treated with docosahexaenoic acid

Almeida, Danielle Fontes de

03 May 2013

O câncer de mama permanece como segundo tipo de câncer mais frequente no mundo e o primeiro entre as mulheres. Tumores de mama podem ser categorizados pela expressão de receptores como o HER-2 (receptor de fator de crescimento epidermal 2). A hiperexpressão do receptor HER-2 é observada em cerca de 30% dos carcinomas de mama, e está associada a prognósticos desfavoráveis. Os ácidos graxos poli-insaturados (AGPI) , como os ácidos graxos ômega-3, parecem diminuir o risco de câncer de mama. O ácido docosahexaenoico (DHA), um tipo de AGPI ômega-3 parece ter o maior potencial antitumoral no câncer de mama. Alguns mecanismos de ação foram propostos para a ação do DHA no controle do câncer de mama, no entanto, faltam dados para elucidar os mecanismos moleculares do DHA no tecido mamário normal e cancerígeno. Dessa maneira, o objetivo desse trabalho foi avaliar a ação do DHA na modulação da expressão de genes em linhagem celular normal (HB4a), transformada (HB4aC5.2) e de carcinoma mamário humano (SKBR-3). As linhagens estudadas foram tratadas com 100 ?M de DHA ou controle (etanol) durante 72 horas. Após a extração de RNA realizamos a técnica de expressão gênica global (Microarray) para encontrar os genes diferencialmente expressos, em relação ao tratamento com DHA, em cada linhagem celular estudada. Na linhagem normal (HB4a) observamos 174 genes diferencialmente expressos (p<0,01), sendo 136 hiperexpressos e 38 hipoexpressos, na linhagem celular transformada (HB4aC5.2) encontramos 208 genes diferencialmente expressos (p<0,01), sendo 32 hiperexpressos e 176 hipoexpressos. A linhagem do carcinoma mamário (SKBR-3) apresentou 126 genes diferencialmente expressos (p<0,01), sendo 48 hiperexpressos e 78 hipoexpressos. A análise ontológica destes genes permitiu identificar processos biológicos como: adesão celular, diferenciação celular e metabolismo lipídico. Concluímos que o DHA altera o perfil de expressão gênica de maneiras distintas em linhagem normal, transformada e de carcinoma mamário humano. Além disso, encontramos após o tratamento com DHA genes envolvidos com o metabolismo lipídico nas linhagens que hiperexpressam o receptor HER-2 / Breast cancer remains the second most common cancer in the world and first among women. Breast tumors can be categorized by the expression of receptors such as HER-2. Overexpression of HER-2 receptor is associated with unfavorable prognosis.The polyunsaturated fatty acids (PUFAs) omega- 3 appears to decrease the risk of breast cancer. Docosahexaenoic acid (DHA), a type of omega-3 PUFAs, seems to have greater antitumor potential in breast cancer. However, the gene expression profile resulting from the action of DHA in breast cancer has not been elucidated yet. We aimed to examine the effects of DHA on normal breast cell line (HB4a), transformed cell line (HB4aC5.2) and breast cancer cell line (SKBR-3) and using a microarray approach. Cells were treated with 100?M of DHA for 72 hours. We identified 174, 208 and 126 differentially expressed genes after DHA treatment, in HB4a, HB4aC5.2 and SKBR3, respectively. Notably, the molecular pathways for the differentially expressed genes included those related to lipid metabolism, cell growth, molecular transport and cell-to-cell signaling. Where found genes related to overexpression of HER-2 after treatment with DHA. These genes involved in lipid metabolism and were down-expressed after treatment, suggesting a possible mechanism DHA in breast cancer by lipid metabolism control

Ácidos graxos ômega 3

Breast cancer

Câncer de mama

Expressão gênica

Gene expression

HER-2 receptors

Nutrigênomica

Nutrigenomics

Receptores HER-2

Unsaturated fatty acids

Embryogenesis is dependent upon 12-lipoxygenase, 5-lipoxygenase, and α-tocopherol to modulate polyunsaturated fatty acid status and the production of oxidized fatty acids in zebrafish / Embryogenesis is dependent upon 12-lipoxygenase, 5-lipoxygenase, and alpha-tocopherol to modulate polyunsaturated fatty acid status and the production of oxidized fatty acids in zebrafish

Lebold, Katherine M.

25 May 2012

Arachidonic acid (ARA) and docosahexaenoic acid (DHA) are polyunsaturated fatty acids required for proper embryonic development, specifically neurodevelopment. However, little is known regarding their conversion to other metabolites during embryogenesis. The oxidation of ARA gives rise to the biologically active eicosanoids and the oxidation of DHA gives rise to the biologically active docosanoids. The oxidation of ARA and DHA occurs through enzymatic processes, via lipoxygenase (LOX), or non-enzymatic processes, via radical-mediated lipid peroxidation. We hypothesize that oxidation of ARA and DHA via LOX is required for proper embryonic development. Additionally, we hypothesize that α-tocopherol, a potent lipid soluble antioxidant, mediates the conversion of ARA and DHA to their respective oxidized metabolites. Using zebrafish as a model of vertebrate embryogenesis, we found that the selective knockdown of either 12-LOX or 5-LOX decreased the production of docosanoids, altered fatty acid homeostasis, and increased the incidence of malformations and mortality in embryos by 24 hours post fertilization. α-Tocopherol deficiency also increased the incidence of malformations and mortality during embryogenesis, and in its absence, increased oxidized metabolites of ARA and DHA and decreased fatty acids concentrations. Therefore, oxidized metabolites of ARA and DHA perform crucial functions during embryonic development, but the production of oxidized fatty acids must be balanced with antioxidant bioavailability for proper embryogenesis. / Graduation date: 2012

Lipoxygenase

α-tocopherol

polyunsaturated fatty acid

Zebrafish

Lipoxygenases -- Physiological effect

Vitamin E -- Physiological effect

Zebra danio -- Embryology

Vitamin E deficiency

Oxidation of lipids in a supercritical-fluid medium

Sparks, Darrell Lynn,

January 2008

Thesis (Ph.D.)--Mississippi State University. Dave C. Swalm School of Chemical Engineering. / Title from title screen. Includes bibliographical references.

Bioactive fatty acids as dietary supplements for farmed fish : effects on growth performance, lipid metabolism, gene expression and immune parameters

Kennedy, Sean Robert

January 2007

Current feed formulations within the aquaculture industry have tended to rely on high dietary lipid thus offsetting relatively expensive protein as a source of energy. In this way, protein can be ‘spared’ for synthesis of new tissue and the high lipid content can also fulfil both fish and consumer essential fatty acid (EFA) requirements. However, the main disadvantage of feeding high lipid levels to farmed fish is a surplus of fat deposition in the flesh and other important tissues, which can detrimentally impact on quality characteristics central to the human consumer. However, based on previous work in other animal models, it is entirely feasible that supplementation of the diet with bioactive fatty acids such as conjugated linoleic acid (CLA) and tetradecylthioacetic acid (TTA) may mitigate the deleterious effects of feeding farmed fish high fat diets by reducing fat deposition in particular. The general objective of this research work was to test the hypothesis that CLA and/or TTA could augment growth, reduce fat deposition and enhance fatty acid composition via incorporation of these bioactive fatty acids, and increase n-3 highly unsaturated fatty acid (HUFA) levels in the flesh of commercially important fish species such as Atlantic salmon (Salmo salar), Atlantic cod (Gadus morhua L.) and rainbow trout (Oncorhynchus mykiss). This project also considered the influence of CLA and TTA on enzymes and transcription factors thought to be pivotal in lipid metabolism and fatty acid oxidation in particular. A subsidiary aim of this research work was to investigate the immunological impact of dietary CLA and TTA administration in these fish. The results of this project have revealed that the hypothesis was only partly proved. There was no effect in growth or biometry after either CLA or TTA supplementation in any of the fish species investigated. Additionally, there were few physiologically significant effects on fat levels on fish as a result of TTA or CLA administration. However, there were a number of effects on fatty acid metabolism including inhibition of steroyl coenzyme desaturase (SCD) in cod and trout in particular and also enhancement of hepatic n-3 HUFA levels in trout. Importantly, it was determined that both TTA and CLA could be incorporated into the flesh thus providing a vehicle through which these bioactive fatty acids can be delivered to the consumer. There were also a number of beneficial effects on activity and gene expression of a number of enzymes and transcription factors thought to be fundamental to the modulation of fatty acid oxidation in particular. However, the effects on gene transcription and biochemistry had little impact at the whole body level. This research work also showed that there were no detrimental effects on immune status after supplementation with dietary CLA or TTA. Conclusively, this thesis has contributed to the overall understanding of the influence of dietary CLA and TTA in farmed fish.

639.3

Gentoxizität von Dieselmotoremissionen bei Verbrennung von Pflanzenölen, Mineralöldiesel und deren Mischkraftstoffen / Genotoxicity of diesel engine emissions during combustion of vegetable oils, mineral oil, and their blends

Bünger, Jörn

09 July 2013

Hohe Partikelemissionen und starke mutagene Wirkungen wurden nach der Verbrennung von Pflanzenöl in Dieselmotoren beobachtet. Diese Studie untersuchte die Hypothese, dass diese Ergebnisse durch die Menge der ungesättigten oder mehrfach ungesättigten Fettsäuren aus pflanzlichen Ölen beeinflusst werden und dass Mischungen aus Dieselkraftstoff und Pflanzenöl mutagen sind. Drei verschiedene Pflanzenöle (Leinöl, LÖ; Palmöl, PÖ; Rapsöl, RÖ), Mischungen von 20% Pflanzenöl und 80% Dieselkraftstoff (B20) und 50% Pflanzenöl und 50% Dieselkraftstoff (B50) sowie herkömmlicher Dieselkraftstoff (DK) wurden in einem Dieselmotoren verbrannt. Die Abgase wurde auf partikuläre Emissionen und die mutagene Wirkung im Vergleich zu Emissionen von DK untersucht. Der Motor wurde im European Stationary Cycle betrieben. Die Partikelmasse wurde gravimetrisch gemessen während die Mutagenität unter Verwendung des bakteriellen Rückmutationsversuchs mit Tester Stämmen TA98 und TA100 bestimmt wurde. Bei der Verbrennung von LÖ entstand die größte Partikelmasse (PM). Im Vergleich zu DK war die lösliche organische Fraktion (LOF) besonders hoch. RO präsentiert die zweithöchste PM und LOF, gefolgt von PÖ, die kaum über DK lag. B50 zeigte die niedrigste Menge an PM während B20 so hoch lag wie DK. RÖ zeigte die höchste Anzahl an Mutationen der Pflanzenöle gefolgt von LÖ. PÖ war weniger mutagen, aber immer noch stärker als DK. B50 zeigte ein höheres mutagenes Potential als B20. Während PM und LOF stark mit dem Gehalt an mehrfach ungesättigten Fettsäuren in den Pflanzenölen korrelierten hatte die Mutagenität eine signifikante Korrelation mit der Menge der gesamten vorhandenen ungesättigten Fettsäuren. Pflanzenölblends scheinen weniger mutagen als die reinen Öle zu sein und das mutagene Maximum im Vergleich zu Blends mit Biodiesel und DK verschobenen. Diese Studie unterstützt die Hypothese, dass die Zahl der Doppelbindungen in ungesättigten Fettsäuren von Pflanzenölen Bei Verbrennung in Dieselmotoren die Menge der emittierten Partikel und die Mutagenität des Abgases beeinflussen. Das Maximum der Mutagenität verschiebt sich bei Pflanzenölblends im Vergleich zu Biodieselblends. Weitere Untersuchungen müssen die kausalen Zusammenhang aufzuklären und wo das Maximum der Pflanzenölblends liegt.

610

ungesättigte Fettsäuren

Mutagenität

Diesel Emissionen

Ames-Test

mutagenicity

diesel emissions

unsaturated fatty acids

Ames-Test

Medizin (PPN619874732)

Establishing the anti-cancer effects of unsaturated fatty acids and a novel oil on human breast cancer cells

Yu, Howe-Ming

Unknown Date

No description available.

breast cancer

unsaturated fatty acids

novel

anti-cancer

oil

n-3 fatty acids

n-6 fatty acids

conjugated linoleic acid

cell membrane

phospholipids

The molecular mechanism of glucose-6-phosphate dehydrogenase regulation by dietary factors in intact animals

Amir-Ahmady, Batoul.

January 2000

Thesis (Ph. D.)--West Virginia University, 2000. / Title from document title page. Document formatted into pages; contains xi, 126 p. : ill. Vita. Includes abstract. Includes bibliographical references (p. 93-115).

Avaliação do perfil de expressão gênica de linhagens celulares do tecido mamário com diferentes níveis de expressão do receptor HER-2 tratadas com ácido docosahexaenoico / Evaluation of the gene expression profile of breast tissue cell lines with different expression levels of the HER-2 receptor treated with docosahexaenoic acid

Danielle Fontes de Almeida

03 May 2013

O câncer de mama permanece como segundo tipo de câncer mais frequente no mundo e o primeiro entre as mulheres. Tumores de mama podem ser categorizados pela expressão de receptores como o HER-2 (receptor de fator de crescimento epidermal 2). A hiperexpressão do receptor HER-2 é observada em cerca de 30% dos carcinomas de mama, e está associada a prognósticos desfavoráveis. Os ácidos graxos poli-insaturados (AGPI) , como os ácidos graxos ômega-3, parecem diminuir o risco de câncer de mama. O ácido docosahexaenoico (DHA), um tipo de AGPI ômega-3 parece ter o maior potencial antitumoral no câncer de mama. Alguns mecanismos de ação foram propostos para a ação do DHA no controle do câncer de mama, no entanto, faltam dados para elucidar os mecanismos moleculares do DHA no tecido mamário normal e cancerígeno. Dessa maneira, o objetivo desse trabalho foi avaliar a ação do DHA na modulação da expressão de genes em linhagem celular normal (HB4a), transformada (HB4aC5.2) e de carcinoma mamário humano (SKBR-3). As linhagens estudadas foram tratadas com 100 ?M de DHA ou controle (etanol) durante 72 horas. Após a extração de RNA realizamos a técnica de expressão gênica global (Microarray) para encontrar os genes diferencialmente expressos, em relação ao tratamento com DHA, em cada linhagem celular estudada. Na linhagem normal (HB4a) observamos 174 genes diferencialmente expressos (p<0,01), sendo 136 hiperexpressos e 38 hipoexpressos, na linhagem celular transformada (HB4aC5.2) encontramos 208 genes diferencialmente expressos (p<0,01), sendo 32 hiperexpressos e 176 hipoexpressos. A linhagem do carcinoma mamário (SKBR-3) apresentou 126 genes diferencialmente expressos (p<0,01), sendo 48 hiperexpressos e 78 hipoexpressos. A análise ontológica destes genes permitiu identificar processos biológicos como: adesão celular, diferenciação celular e metabolismo lipídico. Concluímos que o DHA altera o perfil de expressão gênica de maneiras distintas em linhagem normal, transformada e de carcinoma mamário humano. Além disso, encontramos após o tratamento com DHA genes envolvidos com o metabolismo lipídico nas linhagens que hiperexpressam o receptor HER-2 / Breast cancer remains the second most common cancer in the world and first among women. Breast tumors can be categorized by the expression of receptors such as HER-2. Overexpression of HER-2 receptor is associated with unfavorable prognosis.The polyunsaturated fatty acids (PUFAs) omega- 3 appears to decrease the risk of breast cancer. Docosahexaenoic acid (DHA), a type of omega-3 PUFAs, seems to have greater antitumor potential in breast cancer. However, the gene expression profile resulting from the action of DHA in breast cancer has not been elucidated yet. We aimed to examine the effects of DHA on normal breast cell line (HB4a), transformed cell line (HB4aC5.2) and breast cancer cell line (SKBR-3) and using a microarray approach. Cells were treated with 100?M of DHA for 72 hours. We identified 174, 208 and 126 differentially expressed genes after DHA treatment, in HB4a, HB4aC5.2 and SKBR3, respectively. Notably, the molecular pathways for the differentially expressed genes included those related to lipid metabolism, cell growth, molecular transport and cell-to-cell signaling. Where found genes related to overexpression of HER-2 after treatment with DHA. These genes involved in lipid metabolism and were down-expressed after treatment, suggesting a possible mechanism DHA in breast cancer by lipid metabolism control

Ácidos graxos ômega 3

Câncer de mama

Expressão gênica

Nutrigênomica

Receptores HER-2

Breast cancer

Gene expression

HER-2 receptors

Nutrigenomics

Unsaturated fatty acids

Development of Smart Tie-layers for Multilayer Packaging through Polyelectrolyte/Surfactant Coacervation

Benalcazar Bassante, Jose Carlos

15 June 2023

No description available.

Chemical Engineering

Chemistry

Packaging