Presentation is loading. Please wait.

Presentation is loading. Please wait.

Biomarkers and mechanisms of toxicity Course summary 1) Introduction - Overview of toxicity mechanisms (with special respect to environmental contaminants)

Published byValentine Strickland Modified over 9 years ago

Similar presentations

Presentation on theme: "Biomarkers and mechanisms of toxicity Course summary 1) Introduction - Overview of toxicity mechanisms (with special respect to environmental contaminants)"— Presentation transcript:

1 Biomarkers and mechanisms of toxicity Course summary 1) Introduction - Overview of toxicity mechanisms (with special respect to environmental contaminants) - Concept of biomarkers - overview 2) Details on selected important toxicity mechanisms - Membrane toxicity, enzyme inhibitions, Oxidative stress, Genotoxicity, Detoxification, Nuclear Receptors (AhR, ER, AR ….), Neurotoxins 3) Biomarkers - In vitro and in vivo biomarkers / assays - Applications in environmental studies

2 The importance of understanding mechanisms DDT story

3 1962 © Patuxent Wildlife Refuge, MA, USA http://www2.ucsc.edu/scpbrg/

4 Bitman et al. Science 1970, 168(3931): 594 Biochemistry bird carbonate dehydratase In vivo: shell thining In situ: bioaccumulation -> bird population decline

5 Toxicity - concept Escher, B. I., Behra, R., Eggen, R. I. L., Fent, K. (1997), "Molecular mechanisms in ecotoxicology: an interplay between environmental chemistry and biology", Chimia, 51, 915-921.

6 Mechanisms vs. biomarkers ? - Chemical enters organism (& may be metabolized/detoxified, transported, released) - Chemical reacts with target (e.g. DNA) and changes a specific nucleotide (e.g. G  de-oxo-G) - Elevated de-oxo-G in blood - Toxicokinetics - Toxicodynamics + toxicity mechanism - (Selective) biochemical marker = information about exposure and/or effect)

7 Biomarkers Changes in biological systems … induced by various stressors, stimuli etc., … with a sufficently long half-life (so they can be measured), … which allow location where in the biological system change occur and to quantify the change. Examples: products of metabolism/toxicity reaction (small MW molecules) changes in enzymatic activities new presence (or absence) of certain proteins structural (histopathological) changes Applications in medicine: Hippocrates – urine colour ~ health status Biomarkers in present - identification (and prediction) of long-term risks : humans – carcinogenesis : ecotoxicology – early markers of toxic effects

8 Introduction to general toxicology - Toxicokinetics - Toxicodynamics - Toxicity = effects - Toxicity testing

9 Cause – effect paradigm: nothing new…. ‘What is there which is not a poison? All things are poison and nothing without poison. Solely the dose determines that a thing is not a poison. Paracelsus (1493 - 1541)

10 Toxicokinetics - Processes involved in the fate of toxicant after entering the organism: : adsorbtion / membrane transport : transport in body fluids : distribution in body (fat / specific organs) : transformation (liver / kidney...) & elimination (urine / bile / sweat)

11 Toxicokinetics

12 Toxicokinetics - membrane -

13 Toxicokinetics - membrane transport -

14 Toxicodynamics Characterization of specifity & affinity: homeostatic constants / coefficents (Ki; Kd): Xen + Biol -> XenBiol(v1) XenBiol->Xen + Biol (v2) K ~ v1 / v2 ~ often expressed as concentrations (e.g. IC 50 ) As lower is ICx as stronger is the binding to specific receptor and related toxic effect

15 Toxicodynamics one compound - more targets

16 Targets (=receptors in toxicodynamics) ANY BIOMOLECULE

17 Toxicity ? Exposure & toxicity - acute / chronic (exposure) Effect & toxicity - lethal (acute) : mortality – definitive endpoint : high concentrations : easy to determine (single endpoint – death) - nonlethal (chronic) : organisms do not die - "less dangerous" (?) ( endocrine disruption, reproduction toxicity, immunotoxicity, cancerogenesis) : difficult to determine (multiple endpoints) : more specific – low concentrations / longer exposures : reflected by specific biochemical changes (biomarkers)

18 Chronic toxicity Chronic toxicity is difficult to study and predict – time and cost consuming experiments – limited number of species (laboratory vs. natural species) – effect = combination of chemical exposure and life style, habits... – metabolites or derivatives ( not parent compounds ) are often the active substances

19 MECHANISMS of chronic toxicity of POPs Various chronic effects have uniform biochemical basis – principle studies with mechanistically based in vitro techniques – estimation of in vitro effects of individual compounds understanding the mechanisms, prediction of hazard – application for risk assessment or monitoring derivation of relative potencies ("toxic equivalents") -> RA in vitro biomarkers - direct characterization of complex samples HORMONE Biochemical effects TOXIN In vivo effects RECEPTOR

20 Estrogen receptor activation 1)female reproduction disorders 2)male feminisation 3)tumor promotion 4)immunomodulations 5)developmental toxicity SINGLE mechanism -> SEVERAL effects => understanding to mechanisms may predict effects

21 Understanding mechanisms...... explains the effects at higher levels Organism Population & beyond

22 Kidd, K.A. et al. 2007. Collapse of a fish population following exposure to a synthetic estrogen. Proceedings of the National Academy of Sciences 104(21):8897-8901 Controls +Ethinylestradiol 5 ng/L (!) 7 years

23 Toxicity assessment 1) Biological target (molecule, cell, organism, population) 2) Chemical definition 3) Exposure of biological system to chemical - variable concentrations - defined or variable duration (time) - conditions (T, pH, life stage....) 4) Effect assessment - changes in relationship to concentrations 5) Dose-response evaluation & estimation of toxicity value (! concentration): LDx, ICx, ECx, LOEC/LOEL, MIC...

24 How to study (chronic) toxicity ? In vitro studies (biochemical mechanisms) + easy to perform, short-term - ecotoxicological relevancy + highly controlled conditions- mostly with vertebrate cells + lower amounts of chemicals needed (new cmpnds screening) In vivo biotest testing + unique whole organisms- only few (ecologically + controlled conditions nonrelevant) organisms used + better ecological interpretation- mostly ACUTE assays - chronic: long exposures Field and in situ observations, epidemiological studies

25 Effect assessment - procedure Cu addition Effect concentrations expressed in total/dissolved Cu Extrapolation = PNECs or EQCs expressed in total / dissolved Cu

26 Effect assessment - results 50 100 LC50[concentration] in mg/L or % effluent Threshold: No Observed Effect Concentration (NOEC)

Download ppt "Biomarkers and mechanisms of toxicity Course summary 1) Introduction - Overview of toxicity mechanisms (with special respect to environmental contaminants)"

Similar presentations

Dosimetry in Risk Assessment and a bit More Mel Andersen McKim Conference QSAR and Aquatic Toxicology & Risk Assessment June 27-29, 2006.

Dosimetry in Risk Assessment and a bit More Mel Andersen McKim Conference QSAR and Aquatic Toxicology & Risk Assessment June 27-29, 2006.
Toxicological report Bio 464

Toxicological report Bio 464
Session III: Assessing Cumulative Effects of Endocrine Active Substances 9:15 - 9:30 Introduction” Rick Becker (Session Chair and Panel Moderator) 9:30.

Session III: Assessing Cumulative Effects of Endocrine Active Substances 9:15 - 9:30 Introduction” Rick Becker (Session Chair and Panel Moderator) 9:30.
Fundamentals of Industrial Hygiene 6th Edition

Fundamentals of Industrial Hygiene 6th Edition
Paracelsus “The dose makes the poison ”. MSDS Environmental Hazards and Human Health Chapter 17.

Paracelsus “The dose makes the poison ”. MSDS Environmental Hazards and Human Health Chapter 17.
CE 510 Hazardous Waste Engineering

CE 510 Hazardous Waste Engineering
1 ESC110 Chapter Eight: Environmental Health and Toxicology Principles of Environmental Science - Inquiry and Applications, 2nd Edition by William and.

1 ESC110 Chapter Eight: Environmental Health and Toxicology Principles of Environmental Science - Inquiry and Applications, 2nd Edition by William and.
What Do Toxicologists Do?

What Do Toxicologists Do?
Introduction of Cancer Molecular Epidemiology Zuo-Feng Zhang, MD, PhD University of California Los Angeles.

Introduction of Cancer Molecular Epidemiology Zuo-Feng Zhang, MD, PhD University of California Los Angeles.
Toxicology please grab a notes sheet. Toxicology: the study of the adverse effects of chemicals on health. Toxicity: how harmful something is. Depends.

Toxicology please grab a notes sheet. Toxicology: the study of the adverse effects of chemicals on health. Toxicity: how harmful something is. Depends.
Introduction to Ecotoxicology

Introduction to Ecotoxicology
Luděk Bláha, PřF MU, RECETOX www.recetox.cz BIOMARKERS AND TOXICITY MECHANISMS 13 – BIOMARKERS Summary and final notes.

Luděk Bláha, PřF MU, RECETOX BIOMARKERS AND TOXICITY MECHANISMS 13 – BIOMARKERS Summary and final notes.
ILSI Risk Science Institute Acrylamide Toxicity: Research to Address Key Data Gaps Presented by Dr. Stephen S. Olin ILSI Risk Science Institute.

ILSI Risk Science Institute Acrylamide Toxicity: Research to Address Key Data Gaps Presented by Dr. Stephen S. Olin ILSI Risk Science Institute.
TCEQ/NUATRC Air Toxics Workshop: Session V – Human Health Effects Nathan Pechacek, M.S. Toxicology Section Texas Commission on Environmental Quality

TCEQ/NUATRC Air Toxics Workshop: Session V – Human Health Effects Nathan Pechacek, M.S. Toxicology Section Texas Commission on Environmental Quality
3 - FUNDAMENTALS OF TOXICOLOGY. 3. FUNDAMENTALS OF TOXICOLOGY Toxicology is the study of the adverse effects of substances on living organisms. Historically.

3 - FUNDAMENTALS OF TOXICOLOGY. 3. FUNDAMENTALS OF TOXICOLOGY Toxicology is the study of the adverse effects of substances on living organisms. Historically.
Supercourse Environmental Exposure Assessment And Biomarkers Wael Al-Delaimy, MD, PhD.

Supercourse Environmental Exposure Assessment And Biomarkers Wael Al-Delaimy, MD, PhD.
Committee on Carcinogenicity (COC) Approach to Risk Assessment of Genotoxic Carcinogens David H. Phillips* COC Chairman Descriptive vs. Quantitative.

Committee on Carcinogenicity (COC) Approach to Risk Assessment of Genotoxic Carcinogens David H. Phillips* COC Chairman Descriptive vs. Quantitative.
Luděk Bláha, PřF MU, RECETOX www.recetox.cz BIOMARKERS AND TOXICITY MECHANISMS 02 – MECHANISMS OVERVIEW.

Luděk Bláha, PřF MU, RECETOX BIOMARKERS AND TOXICITY MECHANISMS 02 – MECHANISMS OVERVIEW.
Endocrine Disruption Faith M. Oi University of Florida Entomology and Nematology Dept. Gainesville, FL 32611

Endocrine Disruption Faith M. Oi University of Florida Entomology and Nematology Dept. Gainesville, FL 32611
28/05/12 Questions (Rispondete alle domande che seguono usando il colore rosso per il testo) Tossicologia - Rubbiani Maristella.

28/05/12 Questions (Rispondete alle domande che seguono usando il colore rosso per il testo) Tossicologia - Rubbiani Maristella.

Similar presentations

Ads by Google