mechanisms of toxicity - overview - what is the "toxicity mechanism" - interaction of...
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Mechanisms of toxicity - overview
- What is the "toxicity mechanism" - interaction of xenobiotic with biological molecule
- induction of specific biochemical events
- in vivo effect
- Biochemical events induce in vivo effects(mechanisms)
- Changes of in vivo biochemistry reflect the exposure and possible effects (biomarkers)
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Factors affecting the toxicity
Xenobiotic- physico-chemical characteristics
- solubility / lipophilicity- reactivity and redox-characteristics - known structural features related to toxicity (organophosphates)- structurally related molecules act similar way
- bioavailability & distribution (toxicokinetics)
Biological targets (receptors)- availability (species- / tissue- / stage- specific effects)- natural variability (individual susceptibility)
Concentration of both Xenobiotic and Receptor
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Mechanisms of toxicity - specificity
- Tissue-specific mechanisms (& efffects)- hepatotoxicity; neurotoxicity; nefrotoxicity; haematotoxicity - toxicity to reproduction organs; - embryotoxicity, teratogenicity, immunotoxicity
- Species-specific mechanisms- photosynthetic toxicity vs. teratogenicity- endocrine disruption – invertebrates vs. vertebrates
- Developmental stage-specific mechanisms- embryotoxicity: toxicity to cell differenciation processes
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Cellular toxicity mechanisms - overview
Membrane nonspecific toxicity (narcosis)
Inhibition of enzymatic activities
Toxicity to signal transduction
Oxidative stress – redox toxicity
Toxicity to membrane gradients
Ligand competition – receptor mediated toxicity
Mitotic poisons & microtubule toxicity
DNA toxicity (genotoxicity)
Defence processes as toxicity mechanisms and biomarkers - detoxification and stress protein induction
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Two principal „types“ of toxic action
Non-specific toxicity - nonpolar (narcotic) toxicity / basal toxicity
- polar narcosis - reactive toxicity
Specific toxicity- enzyme inhibition, interaction with specific receptor…
Toxicity mechanisms in general
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1) All ORGANIC compounds affect membrane phospholipids (organic/lipids attract organics) = nonpolar narcotic toxicity (membrane toxicity)(effects at relatively high concentrations, depends on Kow)
2) Besides the nonpolar narcosis, more polar compounds may affect also „nonspecifically“ affect membrane proteins (polar narcosis)
(effects at lower concentrations than expected from Kow, molecular mechanisms not fully clear)
3) Further, some compounds with reactive properties may directly - and nonspecifically (nonselectively) - react and modify any biological macromolecule (lipids, proteins, nucleic acids)
(effects at even lower concentrations than 1+2; reactive chemicals are mostly „electrophiles“ reacting with „nucleophiles“ in cells – i.e. electrone-rich sites (nucleotides, -NH2, -SH and others)
4) Only certain specific compounds selectively affect specific targets causing „specific“ toxicity
(enzyme inhibitions – e.g. drugs, insecticides; receptor interactions – e.g. estrogens; effects at very low concentrations)
1-3 = nonspecific (large groups of chemicals, no specific target – reacts with „all“ biomolecules)
Vs. 4 = specific toxicity
General concept – toxicity mechanisms
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Membrane and membrane toxicity
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Cell membrane
Many key functions for life- Primary barrier / separation of „living“ inside from „abiotic“
outside- Semipermeability for nutrients / signals- Reception of chemical signals & regulatory molecules- Keeping gradients necessary for life
- H+ - ATP synthesis(mitochondria / bacterial emambrane)- K+/Na+ - neuronal signals
- Proteosynthesis (ribosomes) depends on membranes- Many other enzymes bound to membranes (e.g. signaling,
detoxification, post-translational modifications)- Etc….
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Note: cholesterol – strucutral/size similartity to toxic organics e.g. PAHs
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NARCOSIS / nonspecific toxicity
- All organic compounds are narcotic in particular ("high") concentrations
- Compounds are considered to affect membranes; nonspecific disruption of fluidity and protein function
- Related to lipophilicity (logP, Kow): tendency of compounds to accumulate in body lipids (incl. membranes)Narcotic toxicity to fish: log (1/LC50) = 0.907 . log Kow - 4.94
- The toxic effects occur at the same "molar volume" of all narcotic compounds (volume of distribution principle)
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Volume of distribution principle
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Acute basal toxicity Direct correlation logP vs EC50 at aquatic organisms (Daphnia, fish)
Narcotic toxicity in ecotoxicology
Example:
Neutral organics Nonpolar narcosis
Amines, phenols Polar narcosis(similar logP higher toxicity, i.e. higherValues of 1/EC50 in comparison toneutral organics)
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Enzyme inhibition as a toxicity mechanism
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Enzyme inhibition - toxicity mechanism
- Millions of enzymes (vs. millions of compounds): body fluids, membranes, cytoplasm, organels
- Compound - an enzyme inhibitor ?- Enzymology: interaction of xenobiotics with enzymes - Competitive vs. non-competitive:
active site vs. side domains - Specific affinity – inhibition (effective) concentration
- What enzymes are known to be selectively affected ?
- Nonspecific inhibitions (!)Compound affects high osmomolarity or pH …
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Enzyme inhibition - toxicity mechanism
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Enzyme inhibition - toxicity mechanism
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Enzyme inhibition – few examplesAcetylcholinesterase (organophosphate pesticides)
Microsomal Ca2+-ATPase (DDE)
Inhibition of hemes – respiratory chains (cyanides)
d-Aminolevulinic Acid Dehydratase (ALAD) inhibition (lead - Pb)
Inhibition of proteinphosphatases (microcystins)
Glyphosate (roundup) action
(Enzyme inhibitions are beyond many others see e.g. REGULATIONS etc.)
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Acetylcholinesterase inhibition by organophosphate pesticides
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Inhibition of Ca2+-ATPase by DDE
Ca2+:
general regulatory molecule
contractility of muscles
calcium metabolism in bird eggs
stored in ER (endo-/sarcoplasmatic reticulum)
concentrations regulated by Ca2+-ATPase
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Inhibition of hemes by cyanide oxidations in respiratory chains; Hemoglobin
(also CYP450)
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ALAD inhibition by lead (Pb)
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PPase inhibitions by microcystins(liver !)
NH
OCH3
H3C CH3 Y
O
NH X
COOH
R1NH
O
H3C
N
OH2C
R2
HN
O
HOOC
O
H
H
H
HH
H
H3C
H
Microcystins – produced in eutrophied waters by cyanobacteria; kg – tons / reservoir
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GlyphosateN-(phosphonomethyl)glycine
Broad-spectrum herbicide („RoundUp“)
Selective inhibition of ESPs 5-enolpyruvylshikimate-3-phosphate synthase;
(synthesis of aromatic aa – Tyr, Trp, Phe)
Uptake via leafs - only to growing plants
„Non-toxic“ to other organisms
(no ESPs in animals, aa-like chemical - rapid degradation)