Reactive oxygen species and vascular biology: implications in human hypertension

Increased vascular production of reactive oxygen species (ROS; termed oxidative stress) has been implicated in various chronic diseases, including hypertension. Oxidative stress is both a cause and a consequence of hypertension. Although oxidative injury may not be the sole etiology, it amplifies bl...

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Veröffentlicht in:	Hypertension research 2011-01, Vol.34 (1), p.5-14
Hauptverfasser:	Touyz, Rhian M, Briones, Ana M
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Sprache:	eng
Schlagworte:	631/443/319 631/443/592 692/699/75/243 Blood Pressure - physiology Blood Vessels - metabolism Blood Vessels - physiopathology Geriatrics/Gerontology Health Promotion and Disease Prevention Humans Hypertension - etiology Hypertension - metabolism Hypertension - physiopathology Inflammation - etiology Inflammation - metabolism Inflammation - physiopathology Internal Medicine Medicine Medicine & Public Health NADPH Oxidases - metabolism Obstetrics/Perinatology/Midwifery Oxidative Stress - physiology Public Health Reactive Oxygen Species - metabolism review-series
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description	Increased vascular production of reactive oxygen species (ROS; termed oxidative stress) has been implicated in various chronic diseases, including hypertension. Oxidative stress is both a cause and a consequence of hypertension. Although oxidative injury may not be the sole etiology, it amplifies blood pressure elevation in the presence of other pro-hypertensive factors. Oxidative stress is a multisystem phenomenon in hypertension and involves the heart, kidneys, nervous system, vessels and possibly the immune system. Compelling experimental and clinical evidence indicates the importance of the vasculature in the pathophysiology of hypertension and as such much emphasis has been placed on the (patho)biology of ROS in the vascular system. A major source for cardiovascular, renal and neural ROS is a family of non-phagocytic nicotinamide adenine dinucleotide phosphate (NADPH) oxidases (Nox), including the prototypic Nox2 homolog-based NADPH oxidase, as well as other Noxes, such as Nox1 and Nox4. Nox-derived ROS is important in regulating endothelial function and vascular tone. Oxidative stress is implicated in endothelial dysfunction, inflammation, hypertrophy, apoptosis, migration, fibrosis, angiogenesis and rarefaction, important processes involved in vascular remodeling in hypertension. Despite a plethora of data implicating oxidative stress as a causative factor in experimental hypertension, findings in human hypertension are less conclusive. This review highlights the importance of ROS in vascular biology and focuses on the potential role of oxidative stress in human hypertension.
doi_str_mv	10.1038/hr.2010.201
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subjects	631/443/319 631/443/592 692/699/75/243 Blood Pressure - physiology Blood Vessels - metabolism Blood Vessels - physiopathology Geriatrics/Gerontology Health Promotion and Disease Prevention Humans Hypertension - etiology Hypertension - metabolism Hypertension - physiopathology Inflammation - etiology Inflammation - metabolism Inflammation - physiopathology Internal Medicine Medicine Medicine & Public Health NADPH Oxidases - metabolism Obstetrics/Perinatology/Midwifery Oxidative Stress - physiology Public Health Reactive Oxygen Species - metabolism review-series
title	Reactive oxygen species and vascular biology: implications in human hypertension
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