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      Potential Health Benefits of Olive Oil and Plant Polyphenols

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          Abstract

          Beneficial effects of natural plant polyphenols on the human body have been evaluated in a number of scientific research projects. Bioactive polyphenols are natural compounds of various chemical structures. Their sources are mostly fruits, vegetables, nuts and seeds, roots, bark, leaves of different plants, herbs, whole grain products, processed foods (dark chocolate), as well as tea, coffee, and red wine. Polyphenols are believed to reduce morbidity and/or slow down the development of cardiovascular and neurodegenerative diseases as well as cancer. Biological activity of polyphenols is strongly related to their antioxidant properties. They tend to reduce the pool of reactive oxygen species as well as to neutralize potentially carcinogenic metabolites. A broad spectrum of health-promoting properties of plant polyphenols comprises antioxidant, anti-inflammatory, anti-allergic, anti-atherogenic, anti-thrombotic, and anti-mutagenic effects. Scientific studies present the ability of polyphenols to modulate the human immune system by affecting the proliferation of white blood cells, and also the production of cytokines or other factors that participate in the immunological defense. The aim of the review is to focus on polyphenols of olive oil in context of their biological activities.

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          Polyphenols: chemistry, dietary sources, metabolism, and nutritional significance.

          Laura Bravo (1998)
          Polyphenols constitute one of the most numerous and ubiquitous groups of plant metabolites and are an integral part of both human and animal diets. Ranging from simple phenolic molecules to highly polymerized compounds with molecular weights of greater than 30,000 Da, the occurrence of this complex group of substances in plant foods is extremely variable. Polyphenols traditionally have been considered antinutrients by animal nutritionists, because of the adverse effect of tannins, one type of polyphenol, on protein digestibility. However, recent interest in food phenolics has increased greatly, owing to their antioxidant capacity (free radical scavenging and metal chelating activities) and their possible beneficial implications in human health, such as in the treatment and prevention of cancer, cardiovascular disease, and other pathologies. Much of the literature refers to a single group of plant phenolics, the flavonoids. This review offers an overview of the nutritional effects of the main groups of polyphenolic compounds, including their metabolism, effects on nutrient bioavailability, and antioxidant activity, as well as a brief description of the chemistry of polyphenols and their occurrence in plant foods.
          Article 0 comments Cited 618 times – based on 0 reviews     Review now
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            Dietary Polyphenols and Their Biological Significance

            Xiuzhen Han, Tao Shen, Hongxiang Lou (2007)
            Dietary polyphenols represent a wide variety of compounds that occur in fruits, vegetables, wine, tea, extra virgin olive oil, chocolate and other cocoa products. They are mostly derivatives and/or isomers of flavones, isoflavones, flavonols, catechins and phenolic acids, and possess diverse biological properties such as antioxidant, antiapoptosis, anti-aging, anticarcinogen, anti-inflammation, anti-atherosclerosis, cardiovascular protection, improvement of the endothelial function, as well as inhibition of angiogenesis and cell proliferation activity. Most of these biological actions have been attributed to their intrinsic reducing capabilities. They may also offer indirect protection by activating endogenous defense systems and by modulating cellular signaling processes such as nuclear factor-kappa B (NF-κB) activation, activator protein-1(AP-1) DNA binding, glutathione biosynthesis, phosphoinositide 3 (PI3)-kinase/protein kinase B (Akt) pathway, mitogen-activated protein kinase (MAPK) proteins [extracellular signal-regulated protein kinase (ERK), c-jun N-terminal kinase (JNK) and P38 ] activation, and the translocation into the nucleus of nuclear factor erythroid 2 related factor 2 (Nrf2). This paper covers the most recent literature on the subject, and describes the biological mechanisms of action and protective effects of dietary polyphenols.
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              Treatment of metastatic melanoma: an overview.

              Shailender Bhatia, Scott Tykodi, John A. Thompson (2009)
              The 10-year survival rate for patients with metastatic melanoma is less than 10%. Although surgery and radiation therapy have a role in the treatment of metastatic disease, systemic therapy is the mainstay of treatment for most patients. Single-agent chemotherapy is well tolerated but is associated with response rates of only 5% to 20%. Combination chemotherapy and biochemotherapy may improve objective response rates but do not extend survival and are associated with greater toxicity. Immunotherapeutic approaches such as high-dose interleukin-2 are associated with durable responses in a small percentage of patients. In this article, we review the treatments for metastatic melanoma including promising investigational approaches.
              Article 0 comments Cited 154 times – based on 0 reviews     Review now
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                Author and article information

                Journal
                Journal ID (nlm-ta): Int J Mol Sci
                Journal ID (iso-abbrev): Int J Mol Sci
                Journal ID (publisher-id): ijms
                Title: International Journal of Molecular Sciences
                Publisher: MDPI
                ISSN (Electronic): 1422-0067
                Publication date (Electronic): 28 February 2018
                Publication date Collection: March 2018
                Volume: 19
                Issue: 3
                Electronic Location Identifier: 686
                Affiliations
                [1 ]Department of Medical Chemistry, Medical University of Gdansk, 80-211 Gdańsk, Poland; gorzynikdebicka@ 123456gmail.com (M.G.-D.); p.e.przychodzen@ 123456gumed.edu.pl (P.P.); alicjakuban@ 123456gumed.edu.pl (A.K.-J.); narcyz@ 123456gumed.edu.pl (N.K.); mwozniak@ 123456gumed.edu.pl (M.W.)
                [2 ]Department of Experimental Biomedicine and Clinical Neurosciences (BioNeC), University of Palermo, 90127 Palermo, Italy; francapp@ 123456hotmail.com (F.C.); antonella.marino@ 123456hotmail.it (A.M.G.)
                [3 ]Euro-Mediterranean Institute of Science and Technology (IEMEST), 90136 Palermo, Italy
                [4 ]Institute of Biomaterials and Biomolecular Systems, Department of Biophysics, University of Stuttgart, 70569 Stuttgart, Germany
                Author notes
                [* ]Correspondence: m.gorska@ 123456gumed.edu.pl
                [†]

                These authors contributed equally to this work.

                Article
                Publisher ID: ijms-19-00686
                DOI: 10.3390/ijms19030686
                PMC ID: 5877547
                PubMed ID: 29495598
                SO-VID: 7a60fd03-d46f-46e4-986a-ad9478069990
                Copyright © © 2018 by the authors.
                License:

                Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license ( http://creativecommons.org/licenses/by/4.0/).

                History
                Date received : 11 January 2018
                Date accepted : 25 February 2018
                Categories
                Subject: Review

                ScienceOpen disciplines: Molecular biology
                Keywords: olive oil,olea europea,polyphenols,oleuropein,hydroxytyrosol,anticancer therapy
                Data availability:
                ScienceOpen disciplines: Molecular biology
                Keywords: olive oil, olea europea, polyphenols, oleuropein, hydroxytyrosol, anticancer therapy

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