Metal Toxicity - PowerPoint PPT Presentation

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Metal Toxicity

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Book notes last 3 essential nutrients for animals, humans. Water soluble ... Overwhelmed w/ very high metal exposure. High Affinity Metal Binding Proteins ... – PowerPoint PPT presentation

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Title: Metal Toxicity


1
Metal Toxicity
2
Cellular Injuries
  • Diverse
  • Many mechanisms
  • Different biol levels
  • Changes in activities
  • Mostly direct
  • Key bio molecules
  • Biochem pathways

3
Metals of Concern
  • Lead (Pb)
  • Mercury (Hg)
  • Cadmium (Cd)
  • Arsenic (As)
  • Chromium (Cr)
  • Zinc (Zn)
  • Copper (Cu)
  • Book notes last 3 essential nutrients for
    animals, humans
  • Water soluble
  • Readily absorbed
  • Bind proteins, enzymes, nucleic acids in cells

4
Metals Chemistry
  • Most are electron acceptors
  • Preferential reaction w/ -SH grps
  • Also COOH, -PO4-2

5
Metals Chemistry
  • Most interactions w/ proteins, enzymes
  • BUT in vitro data
  • Not all competitive mols present
  • Also metal mols may compete for binding sites
  • May displace essential metal cofactors

6
Lead (Pb)
  • Routes of ingestion
  • Lung
  • Industry
  • Wind (soil, vegetation)
  • Gasoline engines
  • Oral
  • Food (vegetation (soils), pottery glaze, paint)
  • Water (incl lead shot)

7
Pb Toxicity to Plants, Animals
  • From air, soil, lead shot
  • Dependent on species
  • Ex barley sensitive
  • Ex goldfish insensitive
  • May inhibit seed germination
  • Paralyzes bird gizzard ? starvation, death
  • Impt ingestion by animals further up food chain

8
Toxicity to Humans
  • Adult intake threshold 500 mg/d
  • Children half
  • 5-15 ingested dose absd (15-25 mg/d)
  • 20-40 inhaled dose absd (8 mg/d)
  • Unleaded gasoline decrd intake

9
Lead Poisoning in Humans
  • Nausea, anorexia
  • Anemia
  • Renal tubular dysfunction
  • Joint pain
  • Deposits in bone
  • Equilib bone ?? blood
  • Crosses placenta
  • Miscarriage
  • Crosses bbb
  • Behavioral dysfunction
  • Convulsions
  • Delirium
  • Encephalopathy

10
Pb Toxicity within Cells
  • Not fully known
  • Highly reactive to SH grps
  • ? Mercaptide
  • RSPbSR
  • Can inactivate enzs, other prots
  • Book ex adenyl cylase (brain transmission)
  • Book ex aminotransferase (aa metab)

11
  • Similar to Ca, competes
  • At presyn receptor
  • Now decrd Ca avail
  • Bone
  • Interacts w/ nucleic acids
  • Decrs protein synth
  • Decrd binding tRNA to ribosomes
  • OR may incr prot synth

12
Nucleus
  • As, Pb, Hg, Se
  • Produce intranuclear inclusion bodies
  • BUT mechanisms varied/complex

13
Nucleus
  • Ex Pb best studied
  • Renal tubule DNA, RNA, prot syntheses stimd
  • So biochem changes in nuclear structure, function
  • Karyomegaly
  • Can ? renal adenocarcinoma w/ high dose
  • Ex Methyl-Hg, Cd inhibit nucleic acid synth w/
    acute exposure

14
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15
  • Interacts w/ Zn, Fe ? inhibn d-aminolevulinic
    acid dehydratase and ferrochelatase
  • ? Decrd heme synth
  • ? Decrd rbcs
  • Book p. 224

16
Cadmium (Cd)
  • Routes of exposure
  • Lung
  • Highest concents industrialized cities, near
    smelters
  • Tobacco smoke (more impt)
  • 1.5-2.0 mg/cigarette 70 found in smoke

17
  • Routes of exposure contd
  • Oral
  • Water
  • From industrial, mining wastes
  • Soils
  • From sewage sludge appld to agri fields
    phosphate fertilizers
  • Food largest exposure source
  • Accumd from plants (soil), fish (water)

18
Cd Toxicity to Plants
  • Accumd by all plants
  • Soil pH, species impt
  • Stunts growth, photosynth inhibits seed
    germination

19
Cd Toxicity to Humans
  • Toxicity _at_ 250-300 mg/day
  • Pulmonary exposure not as impt to burden
  • Except tobacco smoke
  • BUT more dangerous route (direct)
  • Greater percentage dose absd (25-40)
  • Drinking water not as impt to burden
  • 20-30 mg/day

20
  • Food most impt
  • 35-90 mg/day
  • Based on 5-10 absn
  • Low prot in diet ? incrd absn, incrd toxicity
  • Binds albumin in blood, taken up by liver
  • Binds metallothionein, then ? blood ? kidney,
    bone, muscle
  • Embryotoxic

21
High Affinity Metal Binding Proteins
  • In cytosol
  • Intracellular sinks
  • Hold toxic metals away from
  • Sensitive organelles
  • Metabolic sites
  • Overwhelmed w/ very high metal exposure

22
High Affinity Metal Binding Proteins
  • Metallotheionine most impt
  • Low MW
  • Mammalian, nonmammamlian
  • Cd, Zn, Hg, Ag, Cu, bismuth
  • Also impt to regulating availability of metals in
    cell
  • Nuclear inclusion bodies
  • Lysosomes

23
Example Cd in Mammals
  • Ingestion through lungs, g.i. ?
  • Blood, binds high MW proteins, transported ?
  • Liver
  • Cd induces synth MT
  • Impt to availability of Cd in cell
  • If high Cd dose, released back to blood as Cd-MT

24
  • Kidney
  • Cd-MT taken up by prox tubule cells
  • Damage if lysosomes cleave complex ? free Cd
  • Hepatic cyt P450
  • Acute Cd ? decrd cyt P450 content, activities
  • Chronic Cd not same
  • MT has time to be induced
  • Can bind Cd
  • MT can sequester from sensitive cell structures
  • Other physio factors probably involved

25
But
  • Other metal binding proteins
  • Some metals dont induce synth of metal binding
    prots

26
Lysosomes
  • Renal tubules
  • Cd2, Hg (as Hg2 or methyl-Hg)
  • Inhibit normal function
  • ? cell injury
  • Indirect effect due to dysfunction of other
    damaged organelles

27
Cd Toxicity within Cells
  • Energy prodn
  • Chloroplast photophosphn
  • Mitochondria ATP synth, NADH oxn, electron
    transport
  • Enzyme inhibn
  • Book ex alkaline phosphatase, myosin ATPases
  • Binds SH grps
  • Competes w/, displaces Zn

28
  • Binds SH grps in other impt cell prots
  • Cell membr
  • Mitochondria
  • Uncouples oxidative phosphn
  • Antimetabolite
  • Competes w/ other metals (Zn, Cu, Se, Fe)

29
Mitochondria
  • Major intracell target of many metals
  • Rapid transport metals across mitoch membrs
  • Has high metab activity
  • Sensitive to disruption

30
Mitochondria
  • Membranes
  • Highly sensitive to metals toxicity
  • Alterations in marker enz activities found
  • Ex As, Pb, methyl-Hg
  • Affect respiration
  • Direct effect on enzymes
  • Binding to cofactors
  • Indirect effect on enzymes
  • Perturbation of membrs (site of activity)

31
Cd Poisoning in Humans
  • Liver dysfunction
  • Kidney damage
  • ? Anemia
  • ? Proteinuria
  • Hypertension
  • Emphysema
  • Pneuomonitis
  • GI disturbances
  • Vomiting

32
Mercury (Hg)
  • Routes of exposure
  • Lung
  • Little in atmosphere harmful to health
  • BUT vapor diffuses through alveolar membr ? brain
    quickly, directly
  • Oral
  • Little in drinking water harmful to health
  • Food largest exposure source
  • FDA guideline accumn lt0.5 mg/day

33
Hg Toxicity to Plants, Animals
  • In plants toxicity dependent on species
  • Impairs germination, growth
  • Fish may accum Hg gt FDA guideline
  • In tissue, as methylmercury (CH3Hg)
  • Ingested via water through gills food chain
  • May be as CH3Hg or Hg
  • Age, rate of exposure less impt than metabolic
    rate of indiv fish
  • Incrd T ? incrd metab ? greater Hg in tissue in
    summer
  • Toxicity to fish incrd w/ incrd T

34
Hg Toxicity to Humans
  • Critical intake 300 mg Hg as CH3Hg
  • Almost all CH3Hg in diet from fish, meat
  • Book Japanese Hg, CH3Hg discharges ? 11 mg Hg/g
    fish
  • Fetal, newborn brains very sensitive to toxicity
  • Tissue susceptibility related to formn Hg2 ion

35
Hg Poisoning
  • Chronic
  • Salivation, loss appetite
  • Anemia
  • Tissue irritation, gingivitis
  • Nutrional disturbances
  • Renal damage
  • Neurotoxicity
  • Mercuric chloride
  • Precipitates all prots
  • Vomiting
  • Severe thirst
  • Nausea
  • Severe GI irritation
  • Loss fluids, electrolytes

36
Hg Toxicity within Cells
  • Inhibn enzymes
  • Selective affinity to SH grps
  • RSH CH3Hg ? RSHgCH3 H
  • Incrs permeability Na, K
  • Inhibits active transport mechs
  • Disrupts fluid/electrolyte balance
  • Affects chromosomes, mitosis ? mutagenesis

37
Protection against Hg Toxicity
  • Metallothionein
  • Kidney damage when metallothionein saturated
  • Se
  • Mech unknown, but Se binds cysteine more tightly
    than Hg
  • Vitamin E
  • Mech unknown

38
Cellular Injuries
  • Dependent on individual physiological factors
  • Developmental stage
  • Sex
  • Nutritional status
  • Toxicant dose
  • Toxicant combination

39
Organelles/Structures Effected by Various Metals
  • Nucleus
  • Lysosomes
  • Mitochondrion
  • Cell membrane
  • Endoplasmic Reticulum

40
Cell Membrane
  • Movement into cell dependent on
  • Lipophilicity
  • Metal binding to protein ? endocytosis
  • Chem similarity of metal to nutrient
  • Ex As

41
  • Metals may enter membr by
  • Passive diffusion
  • Binding cell membr, then endocytosis
  • Ex Pb

42
  • Hg2, Cr6(chromate) strong oxidizers
  • Acute high dose effects membranes
  • Not seen w/ chronic low dose
  • Some membrs adapt to chronic dosage
  • Exceptions to metals trend
  • Most dont directly damage cell membrane
  • Most are intracellular toxicants

43
Endoplasmic Reticulum
  • Co, Cd, Sn, CH3Hg, In
  • Metabolic enzs inhibd
  • Cyt P450 and non-cyt P450
  • Ex In disrupts e.r. structure
  • Alters microsomal enz activities
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