Maternal Fructose Intake Affects Transcriptome Changes and Programmed Hypertension in Offspring in Later Life.
作者: You-Lin Tain , Julie Chan , Chien-Ning Hsu
DOI: 10.3390/NU8120757
关键词:
摘要: Hypertension originates from early-life insults by so-called “developmental origins of health and disease” (DOHaD). Studies performed in the previous few decades indicate that fructose consumption is associated with an increase hypertension rate. It emerging field tends to unfold nutrient–gene interactions maternal high-fructose (HF) intake on offspring which links renal programming programmed hypertension. Reprogramming interventions counteract disturbed induced HF exert protective effects against developmentally Here, we review key themes effect transcriptome changes We have particularly focused following areas: metabolic kidney disease; development adult offspring; changes; application reprogramming prevent consumption-induced animal models. Provision personalized nutrition still a faraway goal. Therefore, there urgent need understand develop effective strategies for treating other consumption-related diseases.
mdpi.com
core.ac.uk
sci-hub.se 参考文章(50)
Y.-L. Tain, W.-C. Lee, S. Leu, K. Wu, J. Chan, High salt exacerbates programmed hypertension in maternal fructose-fed male offspring. Nutrition Metabolism and Cardiovascular Diseases. ,vol. 25, pp. 1146- 1151 ,(2015) , 10.1016/J.NUMECD.2015.08.002
Michelle M. Kett, Kate M. Denton, Renal programming: cause for concern? American Journal of Physiology-regulatory Integrative and Comparative Physiology. ,vol. 300, pp. 1- 38 ,(2011) , 10.1152/AJPREGU.00791.2010
Vytas P. Karalius, David A. Shoham, Dietary Sugar and Artificial Sweetener Intake and Chronic Kidney Disease: A Review Advances in Chronic Kidney Disease. ,vol. 20, pp. 157- 164 ,(2013) , 10.1053/J.ACKD.2012.12.005
MyPhuong T. Le, Reginald F. Frye, Christopher J. Rivard, Jing Cheng, Kim K. McFann, Mark S. Segal, Richard J. Johnson, Julie A. Johnson, Effects of high-fructose corn syrup and sucrose on the pharmacokinetics of fructose and acute metabolic and hemodynamic responses in healthy subjects Metabolism-clinical and Experimental. ,vol. 61, pp. 641- 651 ,(2012) , 10.1016/J.METABOL.2011.09.013
D. D. Hagerman, J. Roux, C. A. Villee, Studies of the mechanism of fructose production by human placenta The Journal of Physiology. ,vol. 146, pp. 98- 104 ,(1959) , 10.1113/JPHYSIOL.1959.SP006180
Deborah M. Sloboda, Minglan Li, Rachna Patel, Zoe E. Clayton, Cassandra Yap, Mark H. Vickers, Early Life Exposure to Fructose and Offspring Phenotype: Implications for Long Term Metabolic Homeostasis Journal of Obesity. ,vol. 2014, pp. 203474- 203474 ,(2014) , 10.1155/2014/203474
William B. Campbell, John R. Falck, Arachidonic Acid Metabolites as Endothelium-Derived Hyperpolarizing Factors Hypertension. ,vol. 49, pp. 590- 596 ,(2007) , 10.1161/01.HYP.0000255173.50317.FC
Roya Kelishadi, Marjan Mansourian, Motahar Heidari-Beni, Association of fructose consumption and components of metabolic syndrome in human studies: a systematic review and meta-analysis. Nutrition. ,vol. 30, pp. 503- 510 ,(2014) , 10.1016/J.NUT.2013.08.014
Magdalena Madero, Santos E. Perez-Pozo, Diana Jalal, Richard J. Johnson, Laura G. Sánchez-Lozada, Dietary fructose and hypertension. Current Hypertension Reports. ,vol. 13, pp. 29- 35 ,(2011) , 10.1007/S11906-010-0163-X
You-Lin Tain, Steve Leu, Kay L. H. Wu, Wei-Chia Lee, Julie Y. H. Chan, Melatonin prevents maternal fructose intake-induced programmed hypertension in the offspring: roles of nitric oxide and arachidonic acid metabolites Journal of Pineal Research. ,vol. 57, pp. 80- 89 ,(2014) , 10.1111/JPI.12145