Ulrich Friess scite author profile

Numerous reports on the molecular mechanism of atherogenesis indicate an increase in oxidative stress, formation of advanced glycoxidation end products (AGEs), chronic inflammation, and activated cellular response particularly in diabetic patients. To elucidate the initiating and early accelerating events this review will focus on the molecular causes of the induction of these stress factors, their interactions, and their contribution to atherogenesis. Metabolic factors such as elevated free fatty acids, high glucose levels or AGEs induce reactive oxygen species (ROS) in vascular cells leading to ongoing AGE formation and to gene induction of proinflammatory cytokines. Vice versa, numerous cytokines found elevated in obesity and diabetes may also induce oxidative stress thus a circulus vitious may be initiated and accelerated. Increased production of ROS, mainly from mitochondria and NAD(P)H oxidase, stimulates signaling cascades including protein kinase C and mitogen-activated protein kinase pathway leading to nuclear translocation of transcription factors such as nuclear factor-kappaB (NF-kappaB), activator protein 1, and specificity protein 1. Subsequently, the expression of numerous genes including cytokines is rapidly induced, which, in turn, may act on vascular cells promoting the deleterious effects. From animal models of accelerated atherosclerosis a causal role of NAD(P)H oxidase and the AGE/RAGE/NF-kappaB axis to atherogenesis is suggested. Because all factors involved form a highly interwoven network of interactions, the blockade of ROS or AGE formation at different sites may interrupt the vicious cycle. Promising candidate agents are, currently on trial. Most important to clinical practice, a number of drugs commonly used in the treatment of diabetes, hypertension, or cardiovascular disease, such as angiotensin-converting enzyme inhibitors, AT(1) receptor blockers, 3-hydroxy-3-methyl-glutaryl-CoA reductase inhibitors (statins), and thiazolidindiones have shown promising 'preventive' intracellular antioxidant activity in addition to their primary pharmacological actions.

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Cardiac markers: a clear cause for point-of-care testing

Friess

Stark

2009

Anal Bioanal Chem

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Point-of-care testing (POCT) in patients with ischemic heart disease is driven by the time-critical need for fast, specific, and accurate results to initiate therapy instantly. According to current guidelines, the results of the cardiac marker testing should be available to the physician within 30 min ("vein-to-brain" time) to initiate therapy within 60-90 min ("door-to-needle" time) after the patient has arrived at the emergency room or intensive care unit. This article reviews the current efforts to meet this goal (1) by implementing POCT of established biochemical markers such as cardiac troponins, creatine kinase MB, and myoglobin, in accelerated diagnosis and management workflow schemes, (2) by improving current POCT methods to obtain more accurate, more specific, and even faster tests through the integration of optical and electrochemical sensor technology, and (3) by identifying new markers for the very early and sensitive detection of myocardial ischemia and necrosis. Furthermore, the specific requirements for cardiac POCT in regard to analytical performance, comparability, and diagnostic sensitivity/specificity are discussed. For the future, the integration of new immunooptical and electrochemical chip technology might speed up diagnosis even further. However, every new development will have to meet the stringent method validation criteria set for corresponding central laboratory testing.

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Evidence for a Novel TGF-β1−Independent Mechanism of Fibronectin Production in Mesangial Cells Overexpressing Glucose Transporters

Weigert

Brodbeck

Brosius

et al. 2003

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Recent experimental work indicates that the hyperglycemia-induced increase in mesangial matrix production, which is a hallmark in the development of diabetic nephropathy, is mediated by increased expression of GLUT1. Mesangial cells stably transfected with human GLUT1 mimic the effect of hyperglycemia on the production of the extracellular matrix proteins, particularly fibronectin, when cultured under normoglycemic conditions. Our investigation of the molecular mechanism of this effect has revealed that the enhanced fibronectin production was not mediated by the prosclerotic cytokine transforming growth factor (TGF)-␤1. We found markedly increased nuclear content in Jun proteins, leading to enhanced DNA-binding activity of activating protein 1 (AP-1). AP-1 inhibition reduced fibronectin production in a dosage-dependent manner. Moreover, inhibition of classic protein kinase C (PKC) isoforms prevented both the activation of AP-1 and the enhanced fibronectin production. In contrast to mesangial cells exposed to high glucose, no activation of the hexosamine biosynthetic, p38, or extracellular signal-related kinase 1 and 2 mitogen-activated protein kinase pathways nor any increase in TGF-␤1 synthesis could be detected, which could be explained by the absence of oxidative stress in cells transfected with the human GLUT1 gene. Our data indicate that increased glucose uptake and metabolism induce PKC-dependent AP-1 activation that is sufficient for enhanced fibronectin production, but not for increased TGF-␤1 expression.

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Glutamine:fructose-6-phosphate aminotransferase enzyme activity is necessary for the induction of TGF-?1 and fibronectin expression in mesangial cells

et al. 2003

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Ulrich Friess

Oxidative stress, AGE, and atherosclerosis

Cardiac markers: a clear cause for point-of-care testing

Evidence for a Novel TGF-β1−Independent Mechanism of Fibronectin Production in Mesangial Cells Overexpressing Glucose Transporters

Glutamine:fructose-6-phosphate aminotransferase enzyme activity is necessary for the induction of TGF-?1 and fibronectin expression in mesangial cells

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