1212569_21823227.jpg logo_mu_cerne.gif 1212570_28446780.jpg logo_mu_cerne.gif Luděk Bláha, PřF MU, RECETOX www.recetox.cz BIOMARKERS AND TOXICITY MECHANISMS 06 – Mechanisms Oxidative stress OPVK_MU_stred_2 1212569_21823227.jpg logo_mu_cerne.gif Importance of redox (oxido-reduction) homeostasis http://www.mdpi.com/cancers/cancers-03-01285/article_deploy/html/images/cancers-03-01285f1-1024.png Traditional view – “too much oxidants” is bad Prooxidants (Oxidative stress) à damage to macromolecules à death 1212569_21823227.jpg logo_mu_cerne.gif Importance of redox (oxido-reduction) homeostasis The potential beneficial and harmful roles of antioxidants in tumorigenesis. http://www.nature.com/nrm/journal/v15/n6/full/nrm3801.html Modified view (2014) – “too much of anything is bad” 1212569_21823227.jpg logo_mu_cerne.gif Importance of redox (oxido-reduction) homeostasis •Redox homeostasis –natural homeostatic levels of prooxidants and antioxidants –keeping cell metabolism and signalling balanced – •Disruptions of homeostasis –à depletion of oxygen •Change in metabolism, acidosis in tissues, signalling (e.g. TUMORS) •Less studied – new field – REDOX SIGNALLING à overproduction of prooxidants = oxidative stress •GENERAL MECHANISM OF TOXICITY AND AGING • http://www.neurogenol.co.uk/images/oxidativestress.gif 1212569_21823227.jpg logo_mu_cerne.gif •Oxygen (O2) –principal molecule in living organisms •terminal acceptor of electones –highly reactive molecule •formation of reactive derivatives à ROS à toxicity • •Other reactive molecules and ROS sources –(details follow) •production in mitochondria (byproducts of metabolism) •redox-cycling (quinones of xenobiotics) •Fenton-reaction (metals) •oxidations mediated via MFOs (CYPs) •depletion of antioxidants (reactive molecules) Pro oxidants 1212569_21823227.jpg logo_mu_cerne.gif Key Reactive Oxygen Species (ROS) SOD = Superoxide dismutase 1212569_21823227.jpg logo_mu_cerne.gif C:\Documents and Settings\Ludek Blaha\Obrázky\1.gif Fenton reaction (from organic chemistry classes) Fe3+/2+ But also OTHER METALS (!) TERMS, NAMES, REACTIONS 1212569_21823227.jpg logo_mu_cerne.gif Reactivity of ROS (short rate à instability = reactivity) 1212569_21823227.jpg logo_mu_cerne.gif Sources or ROS 1212569_21823227.jpg logo_mu_cerne.gif http://www.qub.ac.uk/schools/SchoolofBiologicalSciences/People/DrAGalkin/Research/Image1,172487,en. jpg Mitochondria (= metabolism!) Superoxide production in oxidative respiration 1212569_21823227.jpg logo_mu_cerne.gif Redox cycling compounds and ROS production C:\Documents and Settings\Ludek Blaha\Plocha\E3.GIF http://www.plantstress.com/articles/Oxidative%20Stress_files/IMG00031.gif http://www.cse.emory.edu/sciencenet/undergrad/SURE/Posters/images/dave_fig1.gif Natural cycling quinone ßà semiquinone Toxicity = Interference with “xeno”quinones and similar compounds Example 1 – BaP quinone Example 2 – Paraquate pesticide 1212569_21823227.jpg logo_mu_cerne.gif Metals and impacts on redox homeostasis (* direct ROS production / * binding to proteins) http://www.cell.com/cms/attachment/600379/4726988/gr1.jpg , Cr + H2O2 (Fenton reaction) 1212569_21823227.jpg logo_mu_cerne.gif CYP450 as ROS source (example CYP2E1, MEOS – microsomal ethanol oxidising system) http://themedicalbiochemistrypage.org/images/cyp2e1-activities.jpg 1212569_21823227.jpg logo_mu_cerne.gif Irradiation as a source of ROS and oxidative damage (reminder – check lectures on toxicity towards DNA) http://image.slidesharecdn.com/radioactivity-120828105904-phpapp02/95/radioactivity-12-728.jpg?cb=1 346151619 ROS 1212569_21823227.jpg logo_mu_cerne.gif Protection against ROS-induced damage 1212569_21823227.jpg logo_mu_cerne.gif Antioxidant responses 1 - enzymatic Highlighted enzymes discussed further within the „biomarker“ part 1212569_21823227.jpg logo_mu_cerne.gif Antioxidant responses 2 – small molecules: GSH http://www.nature.com/nrd/journal/v12/n12/images/nrd4002-f1.jpg http://ajpgi.physiology.org/content/ajpgi/291/1/G1/F1.large.jpg Highlighted are discussed further within the „biomarker“ part 1212569_21823227.jpg logo_mu_cerne.gif Antioxidant responses 2 – small molecules: dietary antioxidants http://www.nature.com/nrd/journal/v12/n12/images/nrd4002-f1.jpg Ascorbate Carotenoids Flavonoids http://en.citizendium.org/images/5/54/Carotenoids2.png http://eng.ege.edu.tr/%7Eotles/antioxidants/pages/antioxidants_that_are_naturally_found_in_foods_do syalar/image040.jpg Flavonoids 1212569_21823227.jpg logo_mu_cerne.gif EFFECTS Enzymes & DNA àOther lectures Lipid peroxidation à Following slide 1212569_21823227.jpg logo_mu_cerne.gif http://physrev.physiology.org/content/physrev/88/4/1243/F1.large.jpg Lipid peroxidation = radical reaction à fast propagation MDA as a biomarker 1212569_21823227.jpg logo_mu_cerne.gif Biomarkers of oxidative damage (will be discussed later) 1212569_21823227.jpg logo_mu_cerne.gif Health effects of oxidative stress … multiple e.g. acute coronary syndrome (ACS) à myocardial infarction http://www.geneactivatornrf2.org/wp-content/uploads/2013/03/oxidative_stress_diseases-600.gif