Nutrition and Epigenetics presents new information on the action of diet and nutritional determinants in regulating the epigenetic control of gene expression in health and disease. Each chapter gives a unique perspective on a different nutritional or dietary component or group of components, and reveals novel mechanisms by which dietary factors modulate the epigenome and affect development processes, chronic disease, and the aging process. This pivotal text:
- Documents the epigenetic effect of antioxidants and their health benefits
- Adds to the understanding of mechanisms leading to disease susceptibility and healthy aging
- Illustrates that the epigenetic origins of disease occur in early (fetal) development
- Synthesizes the data regarding nutrient and epigenomic interactions
Nutrition and Epigenetics highlights the interactions among nutrients, epigenetics, and health, providing an essential resource for scientists and clinical researchers interested in nutrition, aging, and metabolic diseases.
Table of Contents
Early-Life Exposures and the Epigenome: Interactions between Nutrients and the Environment; Elizabeth H. Marchlewicz, Olivia S. Anderson, and Dana C. Dolinoy
Maternal Diet and Exercise: Influences on Obesity and Insulin Resistance; Lindsay G. Carter, Kellie L. K. Tamashiro, and Kevin J. Pearson
Maternal Protein and Fat Intake: Epigenetic Consequences on Fetal Development; Yuan-Xiang Pan, Rita S. Strakovsky, Dan Zhou, Huan Wang, and Hong Chen
Folate, DNA Methylation, and Colorectal Cancer; Sung-Eun Kim, Shannon Masih, and Young-In Kim
Parental Nutrition, Epigenetics, and Chronic Disease; Julia A. Sabet, Eric D. Ciappio, and Jimmy W. Crott
Alcohol and DNA Methylation; Silvia Udali, Simonetta Friso, and Sang-Woon Choi
Other Essential Nutrients
Ascorbate as a Modulator of the Epigenome; Nilay Y. Thakar and Ernst J. Wolvetang
Epigenetic Regulation of Cellular Responses toward Vitamin D; Prashant K. Singh and Moray J. Campbell
Role of Iron in Epigenetic Regulation of Gene Expression; Laura Cartularo and Max Costa
Selenium and Epigenetic Effects on Histone Marks and DNA Methylation; Wen-Hsing Cheng, Meltem Muftuoglu, and Ryan T. Y. Wu
Proline: Metabolic Sensing and Parametabolic Regulation; James M. Phang, Wei Liu, Chad Hancock, and Meredith Harman
Dietary Effects on Adipocyte Metabolism and Epigenetics; Kate J. Claycombe, Huawei Zeng, and Gerald F. Combs, Jr.
Epigenetics of BRCA-1–Related Breast Tumorigenesis and Dietary Prevention; Donato F. Romagnolo and Ornella I. Selmin
Regulation of Histone Acyltransferases and Deacetylases by Bioactive Food Compounds for the Prevention of Chronic Diseases; Tho X. Pham and Ji-Young Lee
Emily Ho is the endowed director of the Moore Family Center for Whole Grain Foods, Nutrition and Preventive Health. She is a full professor in the College of Public Health and Human Sciences, with an emphasis in nutrition, and is a principal investigator at the Linus Pauling Institute at Oregon State University. She joined the Oregon State University faculty in 2003 after receiving her Ph.D in human nutrition from the Ohio State University and completing her postdoctoral research at Children’s Hospital Oakland Research Institute and UC Berkeley. During the course of her career, Dr. Ho has published 97 peer-reviewed articles and abstracts and four book chapters. She has been invited to give more than 40 presentations and has mentored more than 40 undergraduate and graduate students. She currently serves on the editorial board for Journal of Nutritional Biochemistry and Frontiers in Epigenomics. Her research interests are in the area of antioxidants and gene expression and dietary chemoprevention strategies. More specifically, she focuses on the effects of zinc status on DNA damage, DNA repair, and stress–response signal pathways. Another major focus in her laboratory is investigating the genetic and epigenetic mechanisms by which foods such as soy, tea, and cruciferous vegetables may protect against prostate cancer.
Frederick Domann is a professor of radiation oncology in the Free Radical and Radiation Biology Program at the University of Iowa. He is a distinguished alumnus from the University of Wisconsin where he earned his Ph.D in 1991 in human cancer biology under Kelly H. Clifton, studying radiation-induced thyroid and mammary carcinogenesis. He subsequently pursued postdoctoral research at the Arizona Cancer Center with G. Tim Bowden, where he studied the redox biology of gene expression. He joined the faculty at the University of Iowa in 1993 and has since become an internationally recognized expert in free radical biology, cancer metabolism, and epigenetics. His work has led to more than 140 peer-reviewed publications. Dr. Domann codirects the Free Radical Cancer Biology Program in the Holden Comprehensive Cancer Center at the University of Iowa. He serves on the Councils of the Society for Experimental Biology and Medicine and the Society for Free Radical Biology and Medicine. He is the recipient of the mentoring awards from the Radiation Research Society and the Graduate College of the University of Iowa. His research interests include transcriptional regulation, redox metabolism, and epigenetics of human diseases including cancer.