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      Disrupted Lipid Raft Shuttling of FcεRI by n-3 Polyunsaturated Fatty Acid Is Associated With Ligation of G Protein-Coupled Receptor 120 (GPR120) in Human Mast Cell Line LAD2

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          Abstract

          n-3 polyunsaturated fatty acids (PUFA) influences a variety of disease conditions, such as hypertension, heart disease, diabetes, cancer and allergic diseases, by modulating membrane constitution, inhibiting production of proinflammatory eicosanoids and cytokines, and binding to cell surface and nuclear receptors. We have previously shown that n-3 PUFA inhibit mast cell functions by disrupting high affinity IgE receptor (FcεRI) lipid raft partitioning and subsequent suppression of FcεRI signaling in mouse bone marrow-derived mast cells. However, it is still largely unknown how n-3 PUFA modulate human mast cell function, which could be attributed to multiple mechanisms. Using a human mast cell line (LAD2), we have shown similar modulating effects of n-3 PUFA on FcεRI lipid raft shuttling, FcεRI signaling, and mediator release after cell activation through FcεRI. We have further shown that these effects are at least partially associated with ligation of G protein-coupled receptor 120 expressed on LAD2 cells. This observation has advanced our mechanistic knowledge of n-3 PUFA's effect on mast cells and demonstrated the interplay between n-3 PUFA, lipid rafts, FcεRI, and G protein-coupled receptor 120. Future research in this direction may present new targets for nutritional intervention and therapeutic agents.

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          Analysis of relative gene expression data using real-time quantitative PCR and the 2(-Delta Delta C(T)) Method.

          Kenneth Livak, Thomas D. Schmittgen (2001)
          The two most commonly used methods to analyze data from real-time, quantitative PCR experiments are absolute quantification and relative quantification. Absolute quantification determines the input copy number, usually by relating the PCR signal to a standard curve. Relative quantification relates the PCR signal of the target transcript in a treatment group to that of another sample such as an untreated control. The 2(-Delta Delta C(T)) method is a convenient way to analyze the relative changes in gene expression from real-time quantitative PCR experiments. The purpose of this report is to present the derivation, assumptions, and applications of the 2(-Delta Delta C(T)) method. In addition, we present the derivation and applications of two variations of the 2(-Delta Delta C(T)) method that may be useful in the analysis of real-time, quantitative PCR data. Copyright 2001 Elsevier Science (USA).
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            Lipid rafts as a membrane-organizing principle.

            Daniel Lingwood, Kai Simons (2010)
            Cell membranes display a tremendous complexity of lipids and proteins designed to perform the functions cells require. To coordinate these functions, the membrane is able to laterally segregate its constituents. This capability is based on dynamic liquid-liquid immiscibility and underlies the raft concept of membrane subcompartmentalization. Lipid rafts are fluctuating nanoscale assemblies of sphingolipid, cholesterol, and proteins that can be stabilized to coalesce, forming platforms that function in membrane signaling and trafficking. Here we review the evidence for how this principle combines the potential for sphingolipid-cholesterol self-assembly with protein specificity to selectively focus membrane bioactivity.
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              Resolvins in inflammation: emergence of the pro-resolving superfamily of mediators.

              Charles Serhan, Bruce Levy (2018)
              Countless times each day, the acute inflammatory response protects us from invading microbes, injuries, and insults from within, as in surgery-induced tissue injury. These challenges go unnoticed because they are self-limited and naturally resolve without progressing to chronic inflammation. Peripheral blood markers of inflammation are present in many common diseases, including inflammatory bowel disease, cardiovascular disease, neurodegenerative disease, and cancer. While acute inflammation is protective, excessive swarming of neutrophils amplifies collateral tissue damage and inflammation. Hence, understanding the mechanisms that control the resolution of acute inflammation provides insight into preventing and treating inflammatory diseases in multiple organs. This Review focuses on the resolution phase of inflammation with identification of specialized pro-resolving mediators (SPMs) that involve three separate biosynthetic and potent mediator families, which are defined using the first quantitative resolution indices to score this vital process. These are the resolvins, protectins, and maresins: bioactive metabolomes that each stimulate self-limited innate responses, enhance innate microbial killing and clearance, and are organ-protective. We briefly address biosynthesis of SPMs and their activation of endogenous resolution programs as terrain for new therapeutic approaches that are not, by definition, immunosuppressive, but rather new immunoresolvent therapies.
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                Author and article information

                Contributors
                Journal
                Journal ID (nlm-ta): Front Nutr
                Journal ID (iso-abbrev): Front Nutr
                Journal ID (publisher-id): Front. Nutr.
                Title: Frontiers in Nutrition
                Publisher: Frontiers Media S.A.
                ISSN (Electronic): 2296-861X
                Publication date (Electronic): 26 November 2020
                Publication date Collection: 2020
                Volume: 7
                Electronic Location Identifier: 597809
                Affiliations
                [1] 1Department of Agricultural, Food and Nutritional Science, University of Alberta , Edmonton, AB, Canada
                [2] 2Department of Medical Microbiology and Immunology, University of Alberta , Edmonton, AB, Canada
                [3] 3Department of Biochemistry, Prion Research Institute, University of Alberta , Edmonton, AB, Canada
                [4] 4National Research Council Canada, Nanotechnology Research Centre , Edmonton, AB, Canada
                Author notes

                Edited by: Reinaldo B. Oria, Federal University of Ceara, Brazil

                Reviewed by: Petr Draber, Institute of Molecular Genetics (ASCR), Czechia; Lubica Draberova, Institute of Molecular Genetics (ASCR), Czechia

                *Correspondence: Marianna Kulka marianna.kulka@ 123456nrc-cnrc.gc.ca

                This article was submitted to Nutritional Immunology, a section of the journal Frontiers in Nutrition

                Article
                DOI: 10.3389/fnut.2020.597809
                PMC ID: 7732685
                SO-VID: 36efd233-2602-47a2-a711-4cbeadbd71bf
                Copyright © Copyright © 2020 Wang, Ilarraza, Tancowny, Alam and Kulka.
                License:

                This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

                History
                Date received : 22 August 2020
                Date accepted : 20 October 2020
                Page count
                Figures: 6, Tables: 0, Equations: 0, References: 65, Pages: 11, Words: 6837
                Categories
                Subject: Nutrition
                Subject: Original Research

                Keywords: n-3 pufa,mast cells,fcεri,gpr120,lipid rafts,gpr40 and inflammation
                Data availability:
                Keywords: n-3 pufa, mast cells, fcεri, gpr120, lipid rafts, gpr40 and inflammation

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