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Mechanisms of Toxicity

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Delivery of toxicant from the site of exposure to the target tissue/site ... Necrosis. Fibrosis. Carcinogenesis. Failure of DNA repair. Failure of apoptosis ... – PowerPoint PPT presentation

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Title: Mechanisms of Toxicity


1
Mechanisms of Toxicity
2
Stages in Development of Toxicity
  • Delivery of toxicant from the site of exposure to
    the target tissue/site
  • Reaction of the toxicant with the target molecule
  • Cellular dysfunction and resulting toxicity
  • Repair or dysrepair

3
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4
Delivery of Toxicant to Target Site
  • Four primary factors affecting delivery
  • Absorption
  • Distribution
  • Excretion
  • Biotransformation

5
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6
Absorption
  • Transfer of the toxicant/chemical from the site
    of exposure into the systemic circulation
  • Lipid solubility
  • First pass elimination

7
Distribution
  • Movement of toxicants from the bloodstream into
    the ECF and/or tissues
  • Facilitation
  • Porosity of capillary endothelium
  • Transport across membranes
  • Inhibition
  • Binding to plasma proteins
  • Tight junctions
  • Storage/intracellular binding proteins

8
Excretion
  • Removal of xenobiotics from blood to the external
    environment
  • Major organs
  • Kidney and liver
  • Highly hydrophilic chemicals removed efficiently
  • Reabsorption
  • Lipophilic

9
Biotransformation
  • Metabolism or detoxication of chemicals into
    forms that are easily excreted
  • Hydrophilic
  • Toxication or Metabolic activation
  • Metabolism results in a harmful product
  • Common reactive metabolites
  • Electrophiles
  • Free radicals
  • Nucleophiles
  • Redox-active reactants

10
Reaction of Toxicant with Target
  • Toxicant reacts with endogenous compounds
  • Nucleic acids
  • Proteins
  • Membranes
  • Types of Reactions
  • Noncovalent binding
  • Covalent binding
  • Hydrogen abstraction
  • Electron transfer

11
Effects on Target Molecules
  • Dysfunction of target molecules
  • Activate or inhibit target molecules
  • Mimic endogenous ligands
  • Block receptors, ion channels or enzymes
  • Alter structure of proteins
  • Interfere with transcription/translation of DNA
  • Destruction of target molecules
  • Adduct formation
  • Cross-linking and fragmentation
  • Alteration of the microenvironment

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13
Cellular Dysfunction
  • Gene expression
  • Transcription
  • Interaction with promotor gene, transcription
    factors (TFs)
  • Signal transduction
  • Activation of TFs via intracellular signaling
    networks
  • Promote mitosis and tumor formation

14
Cellular Dysfunction
  • Ongoing cellular activity
  • Electrically excitable cells
  • Alteration of neurotransmitter levels
  • Alteration of receptor-ligand interactions
  • Alter signal transduction
  • Voltage gated Na channels
  • Inhibition of transporter molecules

15
Cell Death
  • Necrosis
  • Degenerative process leading to cell death
  • Usually localized to specific tissue or organ
  • Cellular changes
  • Karyolysis
  • Nuclear disintegration
  • Mitochondria swell
  • More granules
  • Cytoplasmic changes

16
Cell Death
  • Apoptosis
  • Programmed cell death
  • Cell shrinkage
  • Nuclear fragmentation
  • Not associated with inflammation

17
Mechanisms of Cell Death
  • Depletion of ATP
  • Interference with the delivery of H to ETC
  • Inhibition of electron transfer along ETC
  • Interference with oxygen delivery
  • Inhibition of ATP synthase
  • Sustained rise in intracellular Ca
  • Influx into cytoplasm
  • Inhibition of Ca export

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Mechanisms of Cell Death
  • Excess intracellular calcium
  • Inhibits ATPase in oxidative phosphorylation
  • Dysfunction of microfilaments
  • Generation of reactive oxygen and nitrogen
    species (ROS, RNS)
  • Mitochondrial permeability transition
  • ? mitochondrial inner-membrane permeability
  • Stops ATP synthesis

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21
Cell Repair
  • Repair of proteins and lipids
  • DNA repair
  • Excision repair
  • Apoptosis
  • Proliferation
  • ONLY cells capable of dividing!

22
Dysrepair
  • Rate of injury exceeds rate of repair!
  • Necrosis
  • Fibrosis
  • Carcinogenesis
  • Failure of DNA repair
  • Failure of apoptosis
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