Aceite de oliva y cáncer

In the last years, numerous studies have examined the association of dietary fat and cancer. Polyunsaturated fatty acids (PUFA) from n-6 family display a strong promoting effect, this may be partially due to the especially prone to lipid peroxidation of PUFA that leads to formation of aldehydes, which react with DNA bases, forming genotoxic exocyclic etheno(epsilon)-adducts. On the contrary, there are growing evidences that monounsaturated oils, like olive oil, may be associated with a decreased risk of some cancers. However, the epidemiological data do not fully agree with the experimental ones previously published. Minor compounds from (extra virgin) olive oil, mainly phenolics like hydroxytyrosol and tocopherol, are antioxidants and radical scavenging. They can minimize the amount of reactive oxygen species (ROS) generated by fatty acid peroxidation and in the case of monounsaturated fatty acids (MUFA) the DNA damage can be reduced by a lower lipid peroxidation.Numerosos estudios en los últimos años han determinado la existencia de una asociación entre las grasas procedentes de la dieta y el cáncer. Los ácidos grasos poliinsaturados (PUFA) de la familia n -6 pueden tener efectos proliferativos y angiogénicos, lo cual se debe en parte a que son especialmente sensibles a la peroxidación lipídica, formándose aldehídos que reaccionan con las bases del ADN y por lo tanto aductos exocíclicos con propiedades genotóxicas. Por el contrario, el consumo de dietas ricas en ácidos grasos monoinsaturados (MUFA) está relacionado con un menor riesgo de distintos tipos de cáncer. Si bien, los datos epidemiológicos no siempre concuerdan con los datos experimentales. Los componentes menores del aceite de oliva (extra virgen), fundamentalmente el hidroxitirosol y tocoferol, son antioxidantes y secuestradores de radicales libres. Pueden minimizar la cantidad de especies reactivas de oxígeno que se generan por la peroxidación lipídica y además los MUFA son menos sensibles a la oxidación, por lo que se reduce el daño del ADN.The authors would like to acknowledge to the Ministry of Education and Science (ECI) of the Spanish Government for supporting this manuscript (grant AGL2001-0584). Beatriz Bermúdez and Sergio López are supported by I3P and FPU fellowships, whereas Yolanda M. Pacheco has an I3P Post-Doctoral contract from ECI.Peer reviewe

An opinion on the regulation of bone marrow adipose tissue by dietary fatty acids

7 PáginasObesity has a significant impact on predisposition to various diseases and also affects the viability and choice of haematopoietic stem cells (HSCs) to favour myeloid cell production and/or turnover, all of which are extremely important for the functioning of immune system. As the production of blood cells and mobilization of HSCs and their progeny are regulated, at least in part, by multifaceted interactions through signals that come from the bone marrow (BM) microenvironment, it does not seem astonishing to assume that circumstances that cause alterations in BM structure will unavoidably cause alterations in mesenchymal cells such as adipocytes and lineages from HSCs. The existence of adipose tissue in BM or marrow fat (BMAT) is well known, although its origin, expansion, and functions are poorly understood. Inspired by other studies showing the potential role for olive oil and omega-3 long chain polyunsaturated fatty acids (omega-3 PUFAs) on BM health, and by our own preliminary findings showing the effects of monounsaturated (olive oil) but not saturated (milk cream) dietary fats to contain neutrophils and CD14high monocytes in BM during postprandial periods in healthy volunteers, herein we asked whether dietary fats (saturated fatty acids, SFAs, monounsaturated fatty acids, MUFAs, and omega-3 PUFAs) may be a candidate lifestyle factor to modulate the expansion, composition, and function of BMAT, the infiltration of adipose tissue macrophages (ATMs) in BMAT and the mobilization of HSCs and mature myeloid cells from BM during high-fat-induced obesity in mice. This is the first time that the interplay between different dietary fatty acids, obesity, and BM is addressed.Una opinión sobre la regulación del tejido adiposo de médula ósea por los ácidos grasos de la dieta. La obesidad aumenta de forma significativa la susceptibilidad a diversas enfermedades y también afecta a la viabilidad y elección del destino de las células madre hematopoyéticas (HSCs) y las cinéticas de producción de los leucocitos que provienen de ellas, todo ello de extrema importancia para el funcionamiento del sistema inmune. Considerando que la producción de células sanguíneas y movilización de HSCs y su progenie están reguladas, al menos en parte, por interacciones complejas a través de señales que provienen del microambiente de la médula ósea (BM), no parece sorprendente suponer que condiciones que causen alteraciones en la estructura de BM inevitablemente causarán alteraciones en las células mesenquimales como los adipocitos y los linajes procedentes de las HSCs. Es bien conocida la existencia de tejido adiposo en BM (BMAT), aunque su origen, desarrollo, y sus funciones son muy poco conocidas. Basándonos en los resultados de otros autores, quienes han descrito que el aceite de oliva y los ácidos grasos poliinsaturados omega-3 de cadena larga (omega-3 PUFAs) pueden tener efectos beneficiosos en la salud ósea, y no en menor medida en nuestros estudios previos que sugieren la capacidad del aceite de oliva, al contrario que las grasas saturadas, de inducir la retención de neutrófilos y monocitos con CD14 en BM de voluntarios sanos durante periodos postprandiales, en esta propuesta se pretende evaluar si las grasas de la dieta (ácidos grasos saturados, SFAs, ácidos grasos monoinsaturados, MUFAs, y omega-3 PUFAs) tienen relevancia en la expansión, composición, y funcionalidad de BMAT, en la infiltración de macrófagos de tejido adiposo (ATMs) en BMAT, y en la movilización de HSCs y células maduras mieloides de BM durante la obesidad inducida por dietas ricas en grasas en animales de experimentación. Es la primera vez que se aborda la posible interacción entre diferentes ácidos grasos de la dieta, la obesidad, y BM.This work was supported by the grant AGL2016-80852-R from The Spanish Ministry of Science, Innovation and Universities. MAR acknowledges financial support from the Spanish Research Council (CSIC)/Juan de la Cierva [FJCI-2017-33132]

MODIFICATION OF NIGERIAN BENTONITE FOR UTILIZATION IN OIL WELL DRILLING OPERATIONS

More than 80 bentonite clay deposit sites had been identified in Nigeria. Yet, almost all clay and additives used for drilling oil well are imported. The reason is partly that in their natural states, they do not swell while polymers in their raw forms remain unstable at high temperatures. This study aimed at evaluating the potentials of chemically modified Nigerian bentonite for application in the oil and gas industry. The Gombe bentonite from Gombe State was beneficiated using NAHCO3 and slurries were made by dispersion in distilled water. In the presence of other local additives, evaluation of the slurries was carried out on the basis of filtration loss and rheology at different temperatures (30, 60 and 85 oC) using a Central Composite Design (CCD). The clay sample was characterized for mineral and elemental compositions using X-ray diffractometer (XRD) and X-ray fractometer (XRF) while proximate analysis was carried out on the additives. At the optimum condition, the result shows a significant improvement in mud rheology and fluid loss at various temperatures which are in close agreement with the API recommended standard

Niacin and olive oil promote skewing to the M2 phenotype in bone marrow-derived macrophages of mice with metabolic syndrome

21 Páginas; 3 Figuras; 2 TablasMetabolic syndrome (MetS) is associated with obesity, dyslipemia, type 2 diabetes and chronic low-grade inflammation. The aim of this study was to determine the role of high-fat low-cholesterol diets (HFLCDs) rich in SFAs (HFLCD-SFAs), MUFAs (HFLCD-MUFAs) or MUFAs plus omega-3 long-chain PUFAs (HFLCD-PUFAs) on polarisation and inflammatory potential in bone marrow-derived macrophages (BMDMs) from niacin (NA)-treated Lepob/obLDLR−/− mice. Animals fed with HFLCD-SFAs had increased weight and serum triglycerides, and their BMDMs accumulated triglycerides over the animals fed with HFLCD-MUFAs or -PUFAs. Furthermore, BMDMs from animals fed with HFLCD-SFAs were polarised towards the M1 phenotype with functional competence to produce pro-inflammatory cytokines, whereas BMDMs from animals fed with HFLCD-MUFAs or -PUFAs were skewed to the anti-inflammatory M2 phenotype. These findings open opportunities for developing novel nutritional strategies with olive oil as the most important dietary source of MUFAs (notably oleic acid) to prevent development and progression of metabolic complications in the NA-treated MetS.This study was supported by research Grant AGL2011-29008 (Spanish Ministry of Science and Innovation, MICINN). S. M. has the benefit of an FPI fellowship (BES-2012-056104) of MICINN. B. B. and S. L. acknowledge financial support from “V Own Research Plan” (University of Seville) and the Spanish Research Council (CSIC)/Juan de la Cierva, respectively.Peer reviewe

Folate transport by prawn hepatopancreas brush-border membrane vesicles.

The transport system of folic acid (Pte-Glu) b y brush-borde r membrane vesicles (BBMV ) isolated from prawn (Penaeus japonicm) hepatopancreas , was studied by measuring the uptake of Pte-Glu . This uptake was found to have two components , intravesicular transport and membrane binding . Membrane binding was not affected by the presence of a trans - membrane pH-gradient at a short incubation period . However , a transmembrane pH - gradient increased membrane binding at 6 0 min. The transpor to f Pte-Glu appeared to be carrier-mediated , was stimulated by an inwardly proton gradient (p H 5. 5 outside , 7. 4 inside ) and was unaffected by a sodium-gradient . The relationship between pH gradient-driven Pte-Glu uptake and medium Pte-Glu concentration followed saturating Michaelis-Menten kinetics . Eadie-Hofste e representation of the pH gradient-driven Pte-Glu uptake indicated a single transport system with a Km of 0.3 7 ^ Man d Vmax of 1.06pmol/mg protein/15s . These findings indicate that BBM V isolated from prawn hepatopancreas possesses a Pte - Glu transport system similar to that described in mammalian intestine

Olive oil and postprandial hyperlipidemia: implications for atherosclerosis and metabolic syndrome

42 Páginas; 4 Tablas; 6 FigurasOlive oil is the primary source of fat in the Mediterranean diet, which is associated with a significant improvement in health status, as measured by reduced mortality from several chronic diseases. The current pandemic of obesity, metabolic syndrome, and type 2 diabetes is intimately associated with an atherogenic dyslipidemic phenotype. The core components of the dyslipidemia of the metabolic syndrome, which most likely initiate atherosclerosis, are the “lipid triad” consisting of high plasma triglycerides, low levels of high-density lipoproteins, and a preponderance of small, dense low-density lipoproteins at fasting. However, postprandial (non-fasting) TGs (postprandial hyperlipidemia) are also recognized as an important component for atherosclerosis. Herein, the purpose of this review was to provide an update on the effects and mechanisms related to olive oil on postprandial hyperlipidemia and its implications for the onset and progression of atherosclerosis and metabolic syndrome.This study was supported by research Grant AGL2011-29008 (Spanish Ministry of Science and Innovation, MICINN). S. M. has the benefit of a FPI fellowship (BES-2012-056104) of MICINN. B. B. and S. L. acknowledge financial support from “V Own Research Plan” (University of Seville) and the Spanish Research Council (CSIC)/Juan de la Cierva, respectively.Peer reviewe

Saponins from edible spears of wild asparagus inhibit AKT, p70S6K, and ERK signalling, and induce apoptosis through G0/G1 cell cycle arrest in human colon cancer HCT-116 cells

41 Páginas, 6 Figuras, 1 TablaThe effects of steroidal saponins from edible spears of wild triguero Huetor-Tajar asparagus on some of the oncogenic molecular pathways that are affected in human colon cancer cells were investigated. Reverse-phase chromatography and a new HPLC-MS method were used to respectively isolate and analyse the composition of the steroidal saponins. They were resistant to simulated digestion and, when in contact with HTC-116 human colon carcinoma cells, interfered with extracellular signal-regulated kinase (ERK), S6 kinase (p70S6K, mTOR), and RAC-alpha serine/threonine-protein kinase (AKT) pathways by a downregulation of these proteins. The expressions of cyclins D, E, and A were also decreased, leading to G0/G1 cell cycle arrest. In addition, these steroidal saponins induced typical features of apoptosis by the promotion of caspase-3 activity, poly(ADP-ribose) polymerase 1 (PARP-1) cleavage, and DNA fragmentation. These results offer potential dietary intervention strategy against human colon cancer cells.This study was supported by grants AGL2011-29632 and AGL2011-29008 funded by MICINN. S.L. acknowledges financial support from the Spanish MINECO (JCI-2012-13084, Juan de la Cierva) and the Spanish Research Council (CSIC)/JAE-doc Program (JAEDOC089), a contract cofounded by the European Social Fund (ESF).Peer reviewe

Dietary fatty acids and vitamin B3: an effective treatment strategy for the metabolic syndrome?

The metabolic syndrome (MS) may be defined as the constellation of cardiovascular disease (CVD) risk factors that comprises obesity, type 2 diabetes, dyslipidemia, and hypertension. Recent evidences suggest that, primarily due to its high monounsaturated fatty acids (MUFAs) content, olive oil and omega-3 polyunsaturated fatty acids (PUFAs) could be useful as a dietary approach for MS management, with relevance in the postprandial state. Vitamin B3, as a major substrate for nicotinamide phosphoribosyltransferase (NAMPT), also constitutes a nutritional intervention strategy for the treatment of MS. NAMPT has been shown to exert activities of central importance to cellular energetics and innate immunity. Within the cell, NAMPT is the rate-limiting step in a salvage pathway of nicotinamide adenine dinucleotide (NAD+) biosynthesis. NAMPT has been shown to correlate with triglycerides in the fasting plasma, and a potential regulatory role for fatty acids on NAMPT expression has been proposed. Whether different dietary fatty acids, including olive oil as a source of MUFA, play a role in NAMPT excursions and in the NAMPT-dependent regulation of glucose and lipid metabolism and inflammation states remains to be solved. In general, the mechanisms that alter NAD+ metabolism probably include multiple processes, but the understandings of these mechanisms are currently very unclear and a considerable effort in this area is required before we know how changes in NAD+ metabolism influence physiology of glucose and lipid metabolism and how NAD+ metabolism might be manipulated for healing benefit by specific dietary fatty acids as a therapeutic treatment for MS.Peer Reviewe

Membrane composition and dynamics: A target of bioactive virgin olive oil constituents

The endogenous synthesis of lipids, which requires suitable dietary raw materials, is critical for the formation of membrane bilayers. In eukaryotic cells, phospholipids are the predominant membrane lipids and consist of hydrophobic acyl chains attached to a hydrophilic head group. The relative balance between saturated, monounsaturated, and polyunsaturated acyl chains is required for the organization and normal function of membranes. Virgin olive oil is the richest natural dietary source of the monounsaturated lipid oleic acid and is one of the key components of the healthy Mediterranean diet. Virgin olive oil also contains a unique constellation of many other lipophilic and amphipathic constituents whose health benefits are still being discovered. The focus of this review is the latest evidence regarding the impact of oleic acid and the minor constituents of virgin olive oil on the arrangement and behavior of lipid bilayers. We highlight the relevance of these interactions to the potential use of virgin olive oil in preserving the functional properties of membranes to maintain health and in modulating membrane functions that can be altered in several pathologies. This article is part of a Special Issue entitled: Membrane Structure and Function: Relevance in the Cell's Physiology, Pathology and Therapy. © 2014 Elsevier B.V.We thank to the Spanish Ministry of Science and Innovation (MICINN) and the European Commission (EC) for financial support (AGL2011-29008 and Marie Curie PERG07-GA-2010-268413). S.L. and B.B. acknowledge financial support from the Spanish National Research Council (CSIC)/JAE-Doc Program, a contract cofounded by the European Social Fund (ESF). S.M. has the benefit of a FPI fellowship (BES-2012-056104) of MICINN.Peer Reviewe