Diversity of Selenium Functions in Health and Disease

This book brings together the accumulated evidence regarding selenium biochemistry and trace element caused carcinogenesis. After the introduction to be written by Gerry Combs, five sections are planned. The first section is devoted to how selenium is integrated into selenoproteins. Next is a section on selenium compounds with individual functions. Dual functions are dealt with next followed by a section devoted to unexpected links to selenium such as with diabetes. The final section deals with polymorphisms and mutations in gene of selenoproteins. The book should appeal to biochemists, physiologists, nutritionists, and clinical researchers, especially those planning clinical trials.

Auteur

Helmut Sies, M.D., Ph.D.(hon), studied medicine at the Universities of Tubingen, Paris and Munich, and did the habilitation for physiological chemistry and physical biochemistry at the University of Munich. He spent sabbaticals at the University of Buenos Aires, Argentina, University of California at Berkeley, USA, at the University of Siena, Italy, and the Heart Research Institute, Sydney, Australia. He was chair of the Department of Biochemistry and Molecular Biology I at Heinrich-Heine-University Dusseldorf, Germany, where he now is an emeritus professor. He also is senior scientist at the Leibniz Research Institute for Environmental Medicine at Dusseldorf, and adjunct professor at the University of Southern California, and a professor of biochemistry at King Saud University, Riyadh, Saudi-Arabia. He served as president of the Society for Free Radical Research International and of the Oxygen Club of California (OCC). He is a Fellow of the National Foundation for Cancer Research (NFCR), Bethesda, MD, USA, and of the Royal College of Physicians (FRCP), London, England. He is member of the German National Academy of Sciences Leopoldina. His research interests include hydrogen peroxide metabolism, oxidative stress, redox signaling and micronutrients, notably flavonoids, carotenoids and selenium.

Regina Brigelius-Flohe received her PhD in Biochemistry in Tubingen and Munster, Germany in 1978. During a post-doctoral fellowship in Munich and Dusseldorf together with Helmut Sies she investigated the cellular thiol-disulfide status in perfused organs under various conditions of oxidative stress. The detection and analysis of mixed disulfides of proteins and glutathione provided a basis for the regulation of enzyme activities by thiol modification, a field which is now expanding and known as redox regulation. In 1984 changed to pharmaceutical industry and was heading a Molecular Biology Lab and later the Department of M

Résumé
Named after Selene, Greek goddess of the moon, selenium (Se) has moved has moved from being thought of as a toxicant to being considered an essential nutrient with the potential to reduce cancer risk in the span of seven decades. Diversity of Selenium Functions in Health and Disease focuses on current knowledge of aspects of Se research relevant to

Contenu

INTRODUCTION. Who Can Benefit from Selenium? SE COMPOUNDS AS A SOURCE FOR SELENOPROTEIN BIOSYNTHESIS. Selenium Metabolism. The Molecular Regulation of Selenocysteine Incorporation into Proteins in Eukaryotes. Selenocysteine tRNA[Ser]Sec: The Central Component of Selenoprotein Biosynthesis. SE COMPOUNDS WITH SPECIFIC FUNCTIONS. Redox Cycling and the Toxicity of Selenium Compounds: A Historical View. Selenite in Cancer Therapy. Forms of Selenium in Cancer Prevention. DUAL FUNCTIONS OF SELENOPROTEINS IN CANCER. Thioredoxin Reductase. Glutathione Peroxidase. The 15-kDa Selenoprotein (Sep15). UNEXPECTED LINKS. Multifaceted and Intriguing Effects of Selenium and Selenoproteins on Glucose Metabolism and Diabetes. Selenoproteins and the Metabolic Syndrome. Thioredoxin Reductase: A Coordinator in Metabolic Activities. Selenium Mediates a Switch in Macrophage Polarization. SELENOPROTEIN POLYMORPHISMS AND MUTATIONS. Genetic Polymorphisms in Selenoprotein Genes: Functionality and Disease Risk. Mutations in SECISBP.