Molecular mechanisms by which dietary isoflavones potentially prevent atherosclerosis

Aedin Cassidy; Sonia de Pascual Teresa; Gerald Rimbach

doi:10.1017/S1462399403006732

Abstract

Dietary isoflavones are currently receiving much attention because of their potential role in preventing coronary artery disease and other chronic diseases. Accumulating evidence from cell culture and laboratory animal experiments indicates that isoflavones have the potential to prevent or delay atherogenesis. Suggested mechanisms of action include: a reduction in low-density lipoprotein (LDL) cholesterol and a potential reduction in the susceptibility of the LDL particle to oxidation; (2) an improvement in vascular reactivity; (3) an inhibition of pro-inflammatory cytokines, cell adhesion proteins and nitric oxide (NO) production; and (4) an inhibition of platelet aggregation. These mechanisms are consistent with the epidemiological evidence that a high consumption of isoflavone-rich soy products is associated with a reduced incidence of coronary artery disease. Biological effects of isoflavones are dependent on many factors, including dose consumed, duration of use, protein-binding affinity, and an individual's metabolism or intrinsic oestrogenic state. Further clinical studies are necessary to determine the potential health effects of isoflavones in specific population groups as we currently know little about age-related differences in exposure to these compounds and there are few guidelines on optimal dose for cardiovascular health benefits.

Crossref Citations

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Cassidy, Aedin 2004. Phytoestrogens and women's health. Women's Health Medicine, Vol. 1, Issue. 1, p. 30.

Cassidy, A. 2005. Encyclopedia of Human Nutrition. p. 490.

Manach, Claudine Mazur, Andrzej and Scalbert, Augustin 2005. Polyphenols and prevention of cardiovascular diseases. Current Opinion in Lipidology, Vol. 16, Issue. 1, p. 77.

Asakura, Leiko Cazita, Patrícia M. Harada, Lila M. Nunes, Valéria S. Berti, Jairo A. Salerno, Alessandro G. Ketelhuth, Daniel F. J. Gidlund, Magnus Oliveria, Helena C. F. and Quintão, Eder C. R. 2006. Soy protein containing isoflavones favorably influences macrophage lipoprotein metabolism but not the development of atherosclerosis in CETP transgenic mice. Lipids, Vol. 41, Issue. 7, p. 655.

Ambra, R. Rimbach, G. de Pascual Teresa, S. Fuchs, D. Wenzel, U. Daniel, H. and Virgili, F. 2006. Genistein affects the expression of genes involved in blood pressure regulation and angiogenesis in primary human endothelial cells. Nutrition, Metabolism and Cardiovascular Diseases, Vol. 16, Issue. 1, p. 35.

Neergheen, Vidushi S. Bahorun, Theeshan Jen, Ling-Sun and Aruoma, Okezie I. 2007. Bioefficacy of Mauritian Endemic Medicinal Plants: Assessment of Their Phenolic Contents and Antioxidant Potential. Pharmaceutical Biology, Vol. 45, Issue. 1, p. 9.

Rimbach, Gerald Boesch-Saadatmandi, Christine Frank, Jan Fuchs, Dagmar Wenzel, Uwe Daniel, Hannelore Hall, Wendy L. and Weinberg, Peter D. 2008. Dietary isoflavones in the prevention of cardiovascular disease – A molecular perspective. Food and Chemical Toxicology, Vol. 46, Issue. 4, p. 1308.

Hall, Wendy L. Formanuik, Nichola L. Harnpanich, Duangporn Cheung, Monique Talbot, Duncan Chowienczyk, Philip J. and Sanders, Thomas A.B. 2008. A Meal Enriched with Soy Isoflavones Increases Nitric Oxide-Mediated Vasodilation in Healthy Postmenopausal Women. The Journal of Nutrition, Vol. 138, Issue. 7, p. 1288.

Chung, Hyun Hogan, Shelly Zhang, Lei Rainey, Katy and Zhou, Kequan 2008. Characterization and Comparison of Antioxidant Properties and Bioactive Components of Virginia Soybeans. Journal of Agricultural and Food Chemistry, Vol. 56, Issue. 23, p. 11515.

Raimondi, Stefano Roncaglia, Lucia De Lucia, Marzia Amaretti, Alberto Leonardi, Alan Pagnoni, Ugo Maria and Rossi, Maddalena 2009. Bioconversion of soy isoflavones daidzin and daidzein by Bifidobacterium strains. Applied Microbiology and Biotechnology, Vol. 81, Issue. 5, p. 943.

Egert, Sarah Bosy-Westphal, Anja Seiberl, Jasmin Kürbitz, Claudia Settler, Uta Plachta-Danielzik, Sandra Wagner, Anika E. Frank, Jan Schrezenmeir, Jürgen Rimbach, Gerald Wolffram, Siegfried and Müller, Manfred J. 2009. Quercetin reduces systolic blood pressure and plasma oxidised low-density lipoprotein concentrations in overweight subjects with a high-cardiovascular disease risk phenotype: a double-blinded, placebo-controlled cross-over study. British Journal of Nutrition, Vol. 102, Issue. 7, p. 1065.

McNulty, James Nair, Jerald J. Bollareddy, Endreddy Keskar, Kunal Thorat, Amol Crankshaw, Denis J. Holloway, Alison C. Khan, Ghaznia Wright, Gerard D. and Ejim, Linda 2009. Isolation of flavonoids from the heartwood and resin of Prunus avium and some preliminary biological investigations. Phytochemistry, Vol. 70, Issue. 17-18, p. 2040.

De Pascual-Teresa, Sonia Moreno, Diego A. and García-Viguera, Cristina 2010. Flavanols and Anthocyanins in Cardiovascular Health: A Review of Current Evidence. International Journal of Molecular Sciences, Vol. 11, Issue. 4, p. 1679.

Dong, Sijun Furutani, Yoshiyuki Suto, Yumiko Furutani, Michiko Zhu, Yun Yoneyama, Makoto Kato, Taichi Itabe, Hiroyuki Nishikawa, Toshio Tomimatsu, Hirofumi Tanaka, Takeshi Kasanuki, Hiroshi Masaki, Tomoh Kiyama, Ryoiti and Matsuoka, Rumiko 2012. Estrogen-like activity and dual roles in cell signaling of an Agaricus blazei Murrill mycelia-dikaryon extract. Microbiological Research, Vol. 167, Issue. 4, p. 231.

Zahradka, Peter Wright, Brenda Weighell, Wendy Blewett, Heather Baldwin, Alanna O, Karmin Guzman, Randolph P. and Taylor, Carla G. 2013. Daily non-soy legume consumption reverses vascular impairment due to peripheral artery disease. Atherosclerosis, Vol. 230, Issue. 2, p. 310.

Semaming, Yoswaris Pannengpetch, Patchareewan Chattipakorn, Siriporn C. and Chattipakorn, Nipon 2015. Pharmacological Properties of Protocatechuic Acid and Its Potential Roles as Complementary Medicine. Evidence-Based Complementary and Alternative Medicine, Vol. 2015, Issue. , p. 1.

Garg, Sheenam Lule, Vaibhao Kisanrao Malik, Ravinder Kumar and Tomar, Sudhir Kumar 2016. Soy Bioactive Components in Functional Perspective: A Review. International Journal of Food Properties, Vol. 19, Issue. 11, p. 2550.

Orekhov, Alexander N. and Ivanova, Ekaterina A. 2016. Nutraceuticals. p. 61.

Engelbert, Ann Katrin Soukup, Sebastian T. Roth, Alexander Hoffmann, Nadine Graf, Daniela Watzl, Bernhard Kulling, Sabine E. and Bub, Achim 2016. Isoflavone supplementation in postmenopausal women does not affect leukocyte LDL receptor and scavenger receptor CD36 expression: A double‐blind, randomized, placebo‐controlled trial. Molecular Nutrition & Food Research, Vol. 60, Issue. 9, p. 2008.

Thaung Zaw, Jay Jay Howe, Peter Ranald Charles and Wong, Rachel Heloise Xiwen 2017. Does phytoestrogen supplementation improve cognition in humans? A systematic review. Annals of the New York Academy of Sciences, Vol. 1403, Issue. 1, p. 150.

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Molecular mechanisms by which dietary isoflavones potentially prevent atherosclerosis

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