Changes in Phospholipid Fatty Acid Composition of Mouse Cardiac Organelles after Feeding Graded Amounts of Docosahexaenoate in Presence of High Levels of Linoleate

Croset, Martine; Kinsella, John E.

doi:10.1159/000177530

Cited by 23 publications

(24 citation statements)

References 30 publications

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“…An inverse relationship existed between uptake and DHA; i.e., more DHA, lower uptake. This relationship has been seen in other studies (Croset & Kinsella, 1989) and is supported by our data.…”

Section: Discussionsupporting

confidence: 94%

The calcium uptake of the rat heart sarcoplasmic reticulum is altered by dietary lipid

et al. 1993

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Small amounts of dietary n-3 fatty acids can have dramatic physiological effects, including the reduction of plasma triglycerides and an elevation of cellular eicosapentanoic (EPA) and docosahexanoic acids (DHA) at the expense of arachidonic acid (AA). We investigated the effects of alterations in the fatty acid compositions of cardiac sarcoplasmic reticulum (CSR) produced by dietary manipulation on the calcium pump protein that is required for energy dependent calcium transport. CSR was isolated from rats fed menhaden oil, which is rich in n-3 fatty acids, and from control animals that were given corn oil. Relative to control membranes, those isolated from rats fed menhaden oil, had a lower content of saturated phospholipids, an increased DHA/AA ratio, and an increased ratio of n-3 to n-6 fatty acids. These changes were associated with a 30% decrease in oxalate-facilitated, ATP-dependent calcium uptake and concomitant decreased Ca-ATPase activity in the membranes from the animals fed menhaden oil. In contrast, there was no alteration in active pump sites as measured by phosphoenzyme formation. Thus, the CSR Ca-ATPase function can be altered by dietary interventions that change the composition, and possibly structure, of the phospholipid membranes thereby affecting enzyme turnover.

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Section: Discussionsupporting

confidence: 94%

The calcium uptake of the rat heart sarcoplasmic reticulum is altered by dietary lipid

et al. 1993

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“…In the current study as well as that by Croset and Kinsella (1989), DHA was shown to be preferentially incorporated into heart lipids even at the lowest dose of DHA. Accordingly, higher intake of DHA might cause functional disorder of the heart.…”

Section: Discussionsupporting

confidence: 78%

Dose-Response Effect of Dietary Docosahexaenoic Acid on Fatty Acid Profiles of Serum and Tissue Lipids in Rats

Saito

Ueno

Kubo

et al. 1998

J. Agric. Food Chem.

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The dose-response effects of dietary docosahexaenoic acid (22:6n-3, DHA) on the fatty acid profiles of total lipids of rat serum and tissues were investigated. Rats were fed diets containing graded levels of purified DHA at 0, 1.0, 3.4, and 8.7% of total energy in the diets for 2 weeks. It was found that each tissue had its own peculiar composition of fatty acids which differed markedly from that of circulating serum lipid. This composition was basically influenced dose-dependently by the dietary lipids with graded levels of DHA, but to different degrees in different tissues. Those of brain were most resistant and of heart most susceptible to dietary DHA.

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“…The DHA levels reported in this study represent total cellular content. However, DHA has been shown to preferentially accumulate in certain subcellular compartments (47). It is possible that a critical level of DHA in a specific membrane domain may be important in maintaining normal cell function in CFTR-regulated cells and that CFTR may be required to target DHA to these domains.…”

Section: Discussionmentioning

confidence: 99%

A membrane lipid imbalance plays a role in the phenotypic expression of cystic fibrosis in cftr ^−/− mice

Freedman

Katz

Parker

et al. 1999

Proc. Natl. Acad. Sci. U.S.A.

272

239

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A deficiency in essential fatty acid metabolism has been reported in plasma from patients with cystic fibrosis (CF). However, its etiology and role in the expression of disease is unknown. The objective of this study was to determine whether alterations in fatty acid metabolism are specific to CF-regulated organs and whether they play a role in the expression of disease. A membrane lipid imbalance was found in ileum, pancreas, and lung from cftr ؊͞؊ mice characterized by an increase in phospholipid-bound arachidonic acid and a decrease in phospholipid-bound docosahexaenoic acid (DHA). This lipid imbalance was observed in organs pathologically affected by CF including lung, pancreas, and ileum and was not secondary to impaired intestinal absorption or hepatic biosynthesis of DHA. As proof of concept, oral administration of DHA to cftr ؊͞؊ mice corrected this lipid imbalance and reversed the observed pathological manifestations. These results strongly suggest that certain phenotypic manifestations of CF may result from remediable alterations in phospholipid-bound arachidonic acid and DHA levels.docosahexaenoic acid ͉ arachidonic acid ͉ fish oil ͉ pancreas ͉ lung C ystic fibrosis (CF) is the most prevalent lethal autosomal recessive disorder in the Caucasian population, affecting 1 in 2,500 newborns (1). Patients with CF express a typical phenotype characterized by pancreatic insufficiency, ileal hypertrophy, and recurrent pulmonary infections that ultimately lead to pulmonary failure and death. In 1989, the gene whose mutation results in CF was identified and cloned (2, 3). The product of the gene, the CF transmembrane conductance regulator (CFTR), was characterized as an ATP-gated chloride channel that is regulated by cAMP-dependent protein kinase phosphorylation (4).Despite the significant advances made in CF research in recent years, the mechanism by which a mutation in the CFTR gene leads to the manifestations of this disease remains unclear. Although a decrease in apical membrane CFTR-dependent chloride conductance might explain some of the pathological manifestations observed in CF, e.g., viscous secretions, it explains neither the increased inflammation in the lung nor the membrane-recycling defects observed in CF (5-7).Arachidonic acid (AA), an agonist of inflammatory pathways and a stimulant of mucus secretion, is elevated in the phospholipid fraction from bronchial alveolar lavage fluid in CF patients (5). However, the increased inflammation and elevated AA levels observed in CF have long been thought to be secondary to infection (8). This conclusion has been challenged recently by Heeckeren et al. (9), who demonstrated that instillation of agarose beads coated with Pseudomonas into the lungs of cftr Ϫ͞Ϫ mice resulted in increased inflammation and mortality compared with that observed in wild-type mice. These findings suggest that the lungs of cftr Ϫ͞Ϫ mice are primed for inflammation and that the increase in AA and inflammation observed in cftr Ϫ͞Ϫ mice may be a primary event and not secondary to infect...

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Changes in Phospholipid Fatty Acid Composition of Mouse Cardiac Organelles after Feeding Graded Amounts of Docosahexaenoate in Presence of High Levels of Linoleate

Cited by 23 publications

References 30 publications

The calcium uptake of the rat heart sarcoplasmic reticulum is altered by dietary lipid

The calcium uptake of the rat heart sarcoplasmic reticulum is altered by dietary lipid

Dose-Response Effect of Dietary Docosahexaenoic Acid on Fatty Acid Profiles of Serum and Tissue Lipids in Rats

A membrane lipid imbalance plays a role in the phenotypic expression of cystic fibrosis in cftr ^−/− mice

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Changes in Phospholipid Fatty Acid Composition of Mouse Cardiac Organelles after Feeding Graded Amounts of Docosahexaenoate in Presence of High Levels of Linoleate

Cited by 23 publications

References 30 publications

The calcium uptake of the rat heart sarcoplasmic reticulum is altered by dietary lipid

The calcium uptake of the rat heart sarcoplasmic reticulum is altered by dietary lipid

Dose-Response Effect of Dietary Docosahexaenoic Acid on Fatty Acid Profiles of Serum and Tissue Lipids in Rats

A membrane lipid imbalance plays a role in the phenotypic expression of cystic fibrosis in cftr −/− mice

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A membrane lipid imbalance plays a role in the phenotypic expression of cystic fibrosis in cftr ^−/− mice