Vitamin E Isoforms: Multiple Mechanisms of Action Against Carcinogenesis

Campbell, Sharon E., Morani, Aashish S., Stone, William L., Krishnan, Koyamangalath, Palau, Victoria E.

01 January 2014

Cancer is the second leading cause of death in the United States and is expected to become the primary cause of disease-related death within the next decade. There are significant country-to-country variations in cancer incidence, which suggests that nutrition and dietary factors are important to the carcinogenesis process. An increased risk of cancer is associated with obesity and a high body mass index demonstrating that nutrition has a central role in the promotion of cancer. Healthy eating habits protect against cancer, while unhealthy eating habits increase the risk of cancer. Mediterranean societies have a lower risk for many cancers than those of northern Europe and the Americas. Mediterranean diets consist of a high consumption of fruits, vegetables, grains, beans, nuts, and seeds, with olive oil as an important source of monounsaturated fat. These foods are rich in lipid soluble antioxidants such as vitamin E. Vitamin E may prevent cancer by decreasing the formation of mutagens arising from the oxidation of lipids, decreasing oxidative stress in the epithelial cells as well as modulating molecular mechanisms that influence cell death, cell cycle, and transcriptional events. Vitamin E is a major fat-soluble antioxidant and it occurs naturally as eight compounds (alpha-, beta gamma-, and delta-tocopherol or alpha-, beta-, gamma-, and delta-tocotrienol). Since the recognition of vitamin E in 1922 as an essential nutrient for reproduction, alphatocopherol has been considered the major form of vitamin E. It has the highest concentration in the plasma and has been studied more in epidemiological and clinical studies than any other form of vitamin E. Recent data suggests that other isoforms of vitamin E may be important in the control of cancer. These isoforms of vitamin E have varying anti-carcinogenic potencies. Data indicate that gamma-tocopherol may be a more effective anti-cancer agent than alpha-tocopherol. Our laboratories and others have demonstrated that tocotrienols are even more effective than tocopherols at inhibiting cell proliferation in cancer cells. Differences in apoptotic induction among the various vitamin E isoforms are reflective of different avenues of apoptotic signaling and may be tissue specific. Dietary fat has been linked to an increase in a number of cancers including colon, prostate, and breast cancer. Vitamin E modulates a number of molecular mechanisms involved in fat metabolism. These include: the peroxisome proliferator activator receptor (PPAR), arachidonic acid metabolism, de novo sphingolipid metabolism, and cholesterol metabolism. Vitamin E family members have demonstrated the potential to activate pathways involved in cell proliferation, differentiation, apoptosis, and cell cycle. This chapter reviews data that identify the molecular targets of vitamin E action against the development of cancer.

signal transduction

sphingolipids

tocopherols

tocotrienols

vitamin E

Pediatrics

Internal Medicine

Pharmaceutical Sciences

Úloha proteinů ORMDL v signalizaci žírných buněk / The role of ORMDL proteins in mast cell signaling

Paulenda, Tomáš

January 2020

1. Abstract (EN) This thesis is collection of work focused mainly on the understanding of mast cell activation and its regulation by Orm1-like (ORMDL) proteins. ORMDL family is a group of endoplasmic reticulum (ER) membrane resident proteins that are highly conserved amongst mammalian species. ORMDL proteins can be found in diverse range of organisms from plants through fungi to animals. ORMDL proteins were first discovered in yeasts and the interest in these proteins skyrocketed after the discovery that ORMDL3 is associated with childhood onset asthma in genome wide association studies. Following research connected ORMDL3 also with allergic inflammation and inflammatory bowel disease. Since mast cells are mainly known for their role in allergy and allergen induced inflammation, we decided to investigate the role of ORMDL proteins in regulation of mast cell activation and signaling. In our first study we focused on the role of ORMDL3 in mast cell activation via the high affinity IgE receptor 1 (FcεRI). We prepared bone marrow-derived mast cells with decreased (ORMDL3-KD) or increased (ORMDL3-OE) ORMDL3 expression. We showed that ORMDL3 is a negative regulator of mast cell activation events like degranulation, cytokine release and migration, without any effect on calcium mobilization. ORMDL3 was previously...

LIPIDOMIC PROFILING OF DICTYOSTELIUM DISCOIDEUM

Birch, Garrison L.

27 August 2012

Indiana University-Purdue University Indianapolis (IUPUI) / The lipid profile of Dictyostelium discoideum, a cellular slime mold found evolutionarily between plants and animals, has never been clearly defined. To address this, the fatty acid content of vegetative cells was analyzed by gas chromatography-mass spectrometry of fatty acid methyl esters and their identities verified with synthesized authentic standards. The synthetic scheme developed to produce the unusual fatty acids found in D. discoideum was engineered to afford the labeling of compounds (2H) for use in feeding studies to elucidate the fatty acid elongation and desaturation pathways present in D. discoideum. After establishing the fatty acid profile and acyl metabolic pathway, an initial understanding the complex lipids present in D. discoideum, chiefly sphingolipids, was sought. Triple quadrupole and quadrupole time-of flight mass spectrometers equipped with electrospray ionization sources were used to identify these complex lipids.

Dictyostelium discoideum

Fungi -- Development

Plant physiology

Sphingolipids

Fatty acids

Esters

Acrasiomycetes -- Research

Role of sphingolipids in regulation of vascular smooth muscle-derived A7r5 cell proliferation

Jacobs, Leila Susan

January 1993

No description available.

Biology, Cell

Dairy proteins and lipids in the chemoprevention of prostate cancer

Kent, Kyle David

12 October 2004

No description available.

Health Sciences, Nutrition

prostate

milk

whey proteins

glutathione

sphingolipids

bovine pituitary extract

Cutaneous Water Loss and Covalently Bound Lipids of the Stratum Corneum in Adult and Nestling House Sparrows (Passer domesticus) from Desert and Mesic Habitats

Clement, Michelle Elaine

27 July 2011

No description available.

Biology

Ecology

Physiology

Zoology

lipids

cutaneous water loss

epidermis

sphingolipids

covalently bound lipids

stratum corneum

Distribution of Bioactive Lipid Mediators in Human Skin

Kendall, A.C., Pilkington, S.M., Massey, Karen A., Sassano, G., Rhodes, L.E., Nicolaou, Anna

03 1900

No / The skin produces bioactive lipids that participate in physiological and pathological states, including homeostasis, induction, propagation, and resolution of inflammation. However, comprehension of the cutaneous lipid complement, and contribution to differing roles of the epidermal and dermal compartments, remains incomplete. We assessed the profiles of eicosanoids, endocannabinoids, N-acyl ethanolamides, and sphingolipids, in human dermis, epidermis, and suction blister fluid. We identified 18 prostanoids, 12 hydroxy-fatty acids, 9 endocannabinoids and N-acyl ethanolamides, and 21 non-hydroxylated ceramides and sphingoid bases, several demonstrating significantly different expression in the tissues assayed. The array of dermal and epidermal fatty acids was reflected in the lipid mediators produced, whereas similarities between lipid profiles in blister fluid and epidermis indicated a primarily epidermal origin of suction blister fluid. Supplementation with omega-3 fatty acids ex vivo showed that their action is mediated through perturbation of existing species and formation of other anti-inflammatory lipids. These findings demonstrate the diversity of lipid mediators involved in maintaining tissue homeostasis in resting skin and hint at their contribution to signaling, cross-support, and functions of different skin compartments. Profiling lipid mediators in biopsies and suction blister fluid can support studies investigating cutaneous inflammatory responses, dietary manipulation, and skin diseases lacking biomarkers and therapeutic targets.

Bioactive lipid mediators

Human skin

Epidermis

Eicosanoids

Endocannabinoids

N-acyl ethanolamides

Sphingolipids

Regulation of ceramide and its metabolites: biosynthesis and; in situ sphingolipid analysis

Liu, Ying

19 January 2010

Sphingolipids are found in essentially all animals, plants and fungi, and some prokaryotic organisms and viruses. Sphingolipids function as structural components of membranes, lipoproteins, and as cell signaling modulators and mediators. To complicate matters further, sphingolipids often vary in type in different regions of tissues, and even in single cells, the subcellular localization of sphingolipids and their metabolic enzymes, transport proteins and targets may influence their functions. It is important to study sphingolipids spatial distribution within living organisms to understand how sphingolipids are involved in complex biochemical processes. As part of this thesis, procedures were optimized for the use of matrix assisted laser desorption/ionization (MALDI) tissue mass spectrometry (TIMS) to visualize the location of several types of lipids including sulfatides (ST), gangliosides and phosphoglycerolipids in brains from a mouse model for Tay-Sachs/Sandhoff disease. MALDI-TIMS was next applied to human ovarian carcinoma tissue to detect sulfatide location and established that ST are associated specifically with the regions of the ovarian tissue that bear the carcinoma. Electrospray ionization tandem mass spectrometry (ESI-MS-MS) was also used to confirm that ST and galactosylceramide (GalCer) are elevated in ovarian cancer. Gene expression data using tumor cells collected using laser capture microdissection revealed greater expression of mRNAs for GalCer synthase, GalCer sulfotransferase (Gal3ST1) and other enzymes of ST biosynthesis in epithelial ovarian carcinoma cells. This is a unique combination of two complementary, profiling technologies--mass spectrometry (metabolomic approach) with analysis of gene expression to study complex cancer pathology. The next study focused on the subcellular location of sphingolipids. In comparison with wild type Hek293 cells, a Hek293 cell line stably overexpressing serine palmitoyltransferase (SPT1/2 cells) was found to have elevated amounts of all subspecies of ceramide (Cer), but produces disproportionately higher amounts of C18-Cer and GalCer. Since Cer is known to inhibit protein ER/Golgi trafficking, these studies found that the higher production of Cer caused impairment of ER/Golgi trafficking of Ceramide synthase 1 (CerS1), thus increased C18-Cer. In addition, since GalCer is only synthesized in the lumen of the ER, this impairement of ER/Golgi trafficking also gave GalCer synthase access to its substrate and increased GalCer biosynthesis. These studies illustrate the complexity of sphingolipid biology and the usefulness of multiple tools to understand sphingolipid complex biological processes.

Tissue imaging mass spectrometry

Sulfatide

Ceramide

Electrospray tandem mass spectrometry

Glucosylceramide

Galactosylceramide

Sphingolipids

Ceramides

Liquid chromatography

Biosynthesis

Chromatographic analysis

Application of bioinformatics in studies of sphingolipid biosynthesis

Momin, Amin Altaf

17 May 2010

The studies in this dissertation demonstrate that the gene expression pathway maps are useful tools to notice alteration in different branches of sphingolipid biosynthesis pathway based on microarray and other transcriptomic analysis. To facilitate the integrative analysis of gene expression and sphingolipid amounts, updated pathway maps were prepared using an open access visualization tool, Pathvisio v1.1. The datasets were formatted using Perl scripts and visualized with the aid of color coded pathway diagrams. Comparative analysis of transcriptomics and sphingolipid alterations from experimental studies and published literature revealed 72.8 % correlation between mRNA and sphingolipid differences (p-value < 0.0001 by the Fisher's exact test).The high correlation between gene expression differences and sphingolipid alterations highlights the application of this tool to evaluate molecular changes associate with sphingolipid alterations as well as predict differences in specific metabolites that can be experimentally verified using sensitive approaches such as mass spectrometry. In addition, bioinformatics sequence analysis was used to identify transcripts for sphingolipid biosynthesis enzyme 3-ketosphinganine reductase, and homology modeling studies helped in the evaluation of a cell line defective in sphingolipid metabolism due to mutation in the enzyme serine palmitoyltransferase, the first enzyme of de novo biosynthesis pathway. Hence, the combination of different bioinformatics approaches, including protein and DNA sequence analysis, structure modeling and pathway diagrams can provide valuable inputs for biochemical and molecular studies of sphingolipid metabolism.

Pathway analysis

Pathway maps

Gene expression

Metabolomics

Cancer

Sphingolipids

Metabolism

Mass spectrometry

Biosynthesis

Eukaryotic cells

Prokaryotes

Bioinformatics

Biology Data processing

Study of membrane-related effects of TSH in thyrocytes: TSH receptor localization and action, and Duox-TPO interaction

Song, Yue

10 November 2009

1. Sphingolipid-cholesterol domains (lipid rafts) in normal human and dog thyroid follicular cells are not involved in thyrotropin receptor signalling. <p>Thyroid hormone regulates growth and development throughout the animal kingdom. The thyroid which secretes it, is controlled by TSH and its receptor TSHR. TSH and its receptor TSHR act through TSHR-coupled G proteins to control thyroid functions, with a stronger coupling of the TSHR with Gs protein than with Gq protein in human thyrocytes. Gq is not activated by TSH/TSHR in dog, whereas dog TSHR activates it in CHO transfected cells. To better understand TSHR and its downstream effectors G proteins, we attempted to answer the questions by the role of “lipid rafts/caveolae” in TSH action.<p>Lipid rafts/caveolae are sphingolipids-cholesterol-enriched microdomains on plasma membrane that have been proposed to play a role in signal transduction. By concentrating the signal molecules, lipid rafts/caveolae increase the efficiency of the interactions between the molecules and sequestrate them from the bulk membranes. The compartmentation of signal proteins in lipid rafts/caveolae might provide a possible explanation for the relationship between TSHR and G proteins in human and dog thyroctyes.<p>To answer these questions, we first tested the existence of such lipid microdomains in human and dog thyrocytes. By northernblot and RT-PCR of caveolin-1 mRNA, we demonstrated its existence in thyrocytes. The immunohistochemistry of caveolin-1 showed that caveolin/caveolae are present on the apical membrane of thyrocytes, opposite to the TSHR localization on the basolateral membranes. The isolation of lipid rafts/caveolae by Triton X-100/OptiPrep density experiments showed that TSHR and Gq are not in the rafts, even though other proteins such as insulin receptor, flotillin-2 and partially Gs are present in these lipid domains, as expected. Testing the function of the TSH receptor on its main cascade (Gs-Adenylyl cyclase-cAMP) after treating the follicles with Methyl β-cyclodextrin (a cholesterol chelator), we observed no modification of the cAMP levels by this treatment. This is in agreement with our conclusion that the TSHR-Gs-cAMP pathway does not involve the lipid rafts/caveolae domain.<p>TSH-activated signalling does not take place in these membrane domains. Therefore, the differences between species, concerning the TSHR-G proteins coupling cannot be explained by the presence of these membrane domains.<p>2. Species specific thyroid signal transduction: conserved physiology, diverged mechanisms<p>As mentioned above, Gq proteins are activated in human but not in dog thyroid, in response to TSHR. However the dog TSH receptor is able to activate Gq, as demonstrated in transfected CHO cells. Thus, different thyroid signal transduction pathways exist in different species. <p>In this study, we investigated the effects of TSH on its two signal transduction cascades, the cAMP pathway and the phospholipase C – IP3 – DAG pathway, as measured by cAMP levels and inositol phosphate generation. We also measured the effects of TSH and of agents stimulating specifically one of these cascades, forskolin for the cAMP pathway and Ca++ ionophore (ionomycin) and phorbolmyristate ester (TPA) for the phospholipase C pathway, on markers of thyroid hormone synthesis (H2O2 generation and iodide binding to proteins) and on thyroid hormone secretion in vitro in the various thyroids. <p>We demonstrated that in all species investigated, the TSH receptor activates both hormone synthesis and secretion. While in some species, including humans, rats and mice, the TSH receptor activates both the cAMP and phospholipase C– IP3 – DAG cascades, in others (e.g. dog) it only stimulates the first. The cAMP pathway activates the limiting step in thyroid hormone synthesis, the generation of H2O2, in dog, rat and mice but not in human, pig, horse and beef. Thus physiology remains but the pathways to achieve it differ. On a practical point of view, these results allow to choose adequate animal models for investigating different aspects of human thyroid signalling.<p><p>3. Duoxes -TPO association and its regulation in human thyrocytes: the thyroxisome<p>Duox (Dual Oxidase) and TPO (thyroid peroxidase) are the crucial enzymes for the thyroid hormones biosynthesis (T3/T4). TPO uses the hydrogen peroxide (H2O2) produced by Duox1 and Duox2 isoenzymes to covalently link oxidized iodide to tyrosines of thyroglobulin and couple the iodinated tyrosines to form triiodothyronine (T3) and thyroxine (T4). An excess of H2O2 is considered to be toxic for cells although at appropriate concentrations H2O2 may carry out signalling functions. Even though thyrocytes show a better resistance to H2O2 than other cells, it would be beneficial for thyrocytes if Duox and TPO localize closely to increase the working efficiency and avoid an excessive H2O2 spillage. In this study, we explored the association of Duox with TPO, and the possible factors affecting their interaction in the human thyrocyte model. This association was established by co-immunoprecipitation approaches on purified plasma membranes from human thyrocytes and COS-7 transfected cells. <p>Our results show that 1) Duox and TPO localize closely at the plasma membranes of human thyrocytes, 2) this association is up-regulated through the Gq-PLC-Ca2+-PKC pathway and down-regulated through the Gs-cAMP-PKA pathway. 3) H2O2 directly increases the association of Duox and TPO. 4) Partial NH2- or COOH-terminal Duox1 and Duox2 proteins show different binding abilities with TPO in COS-7 transfected cells.<p>The association of the two proteins Duox and TPO thus supports our previous hypothesis of the thyroxisome, a pluriprotein plasma membrane complex in which elements of the iodination apparatus localize closely, thus optimizing working efficiency and minimizing H2O2 spillage. Defect in this association, independently of the catalytic efficiency of the enzyme, could therefore impair thyroid hormone synthesis and be harmful to thyroid cells, leading to thyroid insufficiency.<p> / Doctorat en Sciences biomédicales et pharmaceutiques / info:eu-repo/semantics/nonPublished

Disciplines biomédicales diverses

Thyroid gland -- Physiology

Sphingolipids

Hydrogen peroxyde

Thyroïde -- Physiologie

Sphingolipides

Eau oxygénée

TSHR

raft

Duox

TPO

thyroid

species